We talk about antioxidants a lot. Much of our longevity supplements are in fact antioxidants but, what are antioxidants and what is oxidisation and, furthermore, why do we care about it?
In the following link you’ll find a new post from Bulletproof, of Dave Asprey fame, about a proposed keto style diet plan complete with recipes.
“For much of the 20th century the ageing process was thought to be the result of the interplay of many different biological processes, each with relatively small effects on organismal lifespan. However, this model is no longer tenable. Rather it seems a few biological mechanisms, including nutrient sensing, telomere attrition and cellular senescence, mediate large effects on health and longevity. Biogerontology may have suffered from initial delusions of complexity. However, we argue that it is premature to assume either that the list of biological processes influencing lifespan is now comprehensive or that these mechanisms act independently of each other.”
“B-Cell Lymphoma-extra-large (BCL-xL) is involved in longevity and successful aging, which indicates a role for BCL-xL in cell survival pathway regulation. Beyond its well described role as an inhibitor of apoptosis by preventing cytochrome c release, BCL-xL has also been related, indirectly, to autophagy and senescence pathways.”
Highlights
• NAD+ plays an important protective role in some age-related degenerative disease states.
• NAD+ can improve mitochondrial function and maintain sufficient levels of ATP.
• NAD+ can influences DNA repair, and immune and longevity processes.
• Raising NAD+ levels can balance energy needs with supply and protect against oxidative damage and inflammation.
• Further clinical trials are necessary to validate NAD+ therapy in ageing and disease.
https://www.sciencedirect.com/science/article/pii/S0531556519307582
We have no affiliation with this company but after reading their proposition, this app looks to have potential.
From their website:
Use modern technology to become your ultimate self…
…with less effort and no guessing.
You can sign up for the waiting list below:
https://ultiself.com?reftoken=e5ac4be91d340e67286ff0a2f7d8ff98
Developed by CSIRO scientists, BARLEYmaxTM wholegrains represent the next evolution of superfoods, an enhanced wholegrain. The credentials of BARLEYmaxTM begin with it’s history. It was bred using traditional plant breeding processes, and is 100% GM free. The enhanced wholegrain discovered by Dr Morell and his team at the CSIRO contains two times the dietary fibre and four times the resistant starch of a regular grain.
The Healthy Grain BARLEYmaxâ„¢ and Kebari Barley
“Adequate dietary intake of essential metals such as zinc is important for maintaining homeostasis. Abnormal zinc intake in Caenorhabditis elegans has been shown to increase or decrease normal lifespan by influencing the insulin/IGFâ€1 pathway. Distribution of zinc is achieved by a family of highly conserved zinc transport proteins (ZIPT in C. elegans). This study investigated the role of the zipt family of genes and show that depletion of individual zipt genes results in a decreased lifespan”
https://febs.onlinelibrary.wiley.com/doi/abs/10.1002/1873-3468.13725
“Somatic mutations in healthy tissues contribute to aging, neurodegeneration, and cancer initiation, yet they remain largely uncharacterized.”
https://genomebiology.biomedcentral.com/articles/10.1186/s13059-019-1919-5
“A preliminary study by researchers at Uppsala University has found that when young, healthy men were deprived of just one night of sleep, they had higher levels of tau – a biomarker for Alzheimer’s disease – in their blood than when they had a full, uninterrupted night of rest. The study is published in the medical journal Neurology.”
https://www.eurekalert.org/pub_releases/2020-01/uu-sfl010820.php
“Because alteration of the IIS pathways yields a 100 percent increase in lifespan and alteration of the TOR pathway yields a 30 percent increase, the double mutant would be expected to live 130 percent longer. But instead, its lifespan was amplified by 500 percent.
“Despite the discovery in C. elegans of cellular pathways that govern aging, it hasn’t been clear how these pathways interact,” said Hermann Haller, M.D., president of the MDI Biological Laboratory. “By helping to characterize these interactions, our scientists are paving the way for much-needed therapies to increase healthy lifespan for a rapidly aging population.””
https://phys.org/news/2020-01-biological-scientists-pathways-lifespan.html
We’ve previously spoken about how we might introduce foods and supplements to our diet to improve health span and lifespan. Here we explore activities and other therapies that show potential in living healthier and longer. We also explore things you perhaps should stop doing to improve health and longevity.
Mitochondria are organelles, basically, little functional units within cells, much like an organ is to our body. They provide power to our cells by delivering ATP to the cells and are thought to once be free-ranging bacteria. It is thought that the break down of mitochondrial function is one of, if not the main contributor to aging.
Continue reading “What lifestyle changes will help me live longer and healthier?”There are two main ways to provide the nutrients and myriad of compounds that can help your body operate at its best and improve both lifespan and healthspan. One is to include foods and adjust your diet, however, we don’t always have that option to due various constraints such as taste and lifestyle. This is where supplements step in to provide the essential components of those foods as extracts or via chemical synthesis.
Here we explore the supplements you can incorporate into your lifestyle to get those identified goodies that keep us healthy for longer. This is the second of three articles on increasing health and life span. Our article on foods will have some overlap with this article as in many cases supplements are a derivative of food.
As always, we do our best to validate any information presented however, we cannot guarantee the accuracy of statements made here and does not constitute medical advice. Please check with your healthcare professional before making changes to your diet and lifestyle.
We have included as many references as possible to back our claims and for you to click into to investigate further for yourself. We encourage anyone seeking to improve their health via supplementation to take some time to research it’s effects, side effects and dosage.
There are two main ways to provide the nutrients and the myriad of compounds that can help your body operate at its best and improve both lifespan and healthspan. One is to use supplements and the other is to do it via food in our diet.
Here, in the first of our three part series on direct action for longevity, we explore the foods you can incorporate into your diet to get those identified goodies that keep us healthy for longer. We will also include herbs here as food as they require little to no handling to be beneficial and can be consumed as a food. Some of this is known via human clinical trial while some may be a mix of anecdotal use or animal studies. In all cases we take a can’t hurt, might help, approach and will either call out or exclude anything showing any risk of harm.
It’s important to note that, while all care is taken, we cannot guarantee the accuracy of this information and you should consult your health care professional before making changes in your diet and lifestyle.
Continue reading “Eating to live…longer and healthier.”
“Organic foods aren’t held with gloves. They’re a little bit more stressed out. The more stressed out your food is the brighter colors they’ll have because they’re producing these colors as a defense,” Sinclair explains.
Those bright colors, he adds, are indicators that the food has produced “xenohormesis molecules,” which activate our sirtuins that give our bodies an extra boost for longevity.
https://www.mindbodygreen.com/articles/3-easy-hacks-for-longevity-from-an-aging-microbiologist
“Fisetin, like many plant polyphenols, is known to have antioxidant properties and demonstrates the specific biological activity of protecting functional macromolecules against stress, resulting in a benefit to cellular cytoprotection. It is also known to have anti-inflammatory, chemopreventive, and chemotherapeutic properties.
Finally, more recently, it has also shown promise as a senolytic, a compound that encourages aged or damaged senescent cells to destroy themselves rather than lingering in the body and contributing to the chronic, age-related inflammation known as “inflammagingâ€, which is associated with a wide range of age-related diseases.
Since fisetin has a good safety profile, Mayo Clinic followed these mouse studies by launching three trials to see if the compound is effective for humans.”
Human Clinical Trials with Fisetin:
Please excuse the slightly off topic post and thank you an advance for reading. We don’t like to stray from our core focus however, people’s lives and health are under threat.
As you may or may not be aware, Health Hacker is based in Sydney, Australia and our state, as well as neighbouring states have seen huge amounts of devastation over the last few months. Massive tracts of forests have been burned with countless animal losses and homes and human lives lost.
If you can help in any way but aren’t sure how, this is how:
TO HELP AFFECTED COMMUNITIES
Australian Red Cross Disaster Recovery and Relief
The Australian Red Cross is supporting communities affected by fires in NSW, QLD and SA. Volunteers are providing psychological first aid, working at evacuation centres and helping people to get in touch with their loved ones.
Where to donate: redcross.org.au/campaigns/disaster-relief-and-recovery-new-years-eve
Salvation Army Disaster Appeal
Salvation Army teams have been activated at multiple locations across the country. They are providing meals to evacuees and frontline responders, and will continue to provide whatever support is needed as the situation develops.
Where to donate: salvationarmy.org.au/donate/make-a-donation/donate-online/
St Vincent de Paul Society Bushfire Appeal
The St Vincent De Paul Society is running a NSW bushfire appeal, to help those affected with food, clothing, furniture, other essentials, and funds to pay bills.
Where to donate: donate.vinnies.org.au/appeals-nsw/vinnies-nsw-bushfire-appeal-nsw
Givit
Givit is encouraging people to donate funds or specific items requested by residents.
Where to donate: givit.worldsecuresystems.com/items-needed
Foodbank
Foodbank is delivering emergency food relief and water to firefighters and local communities caught up in the bushfires.
Where to donate: foodbank.org.au/support-us/make-a-donation/
TO HELP FIREFIGHTERS
Support firefighter families
Donate to the families of the volunteer firefighters who were tragically killed while on duty.
Where to donate: rfs.nsw.gov.au/news-and-media/general-news/featured/support-for-firefighter-families
TO HELP WILDLIFE
WIRES
WIRES is accepting donations to help their efforts in supporting displaced and injured wildlife.
Where to donate: wires.org.au/donate/emergency-fund
Koalas in Care Inc
Koalas in Care Inc are accepting donations to help koalas injured or displaced by the fires in NSW.
Where: to donate: koalasincare.org.au/pages/donation.htm
The Port Macquarie Koala Hospital
The Port Macquarie Koala Hospital is accepting donations to develop and build watering stations for thirsty koalas.
Where to donate: gofundme.com/f/help-thirsty-koalas-devastated-by-recent-fires
Taken from:
http://www.mygc.com.au/bushfire-relief-where-you-can-donate/
Thank you for your time.
Highlights
• Centenarians maintain intrinsic capacity longer than individuals who display ordinary aging.
• Resilience is a determinant of health, and centenarians maintain it longer.
• Centenarians have specific genetic features.
https://www.sciencedirect.com/science/article/abs/pii/S0047637419302040
Emerging evidence (summarized in Table) indicates that HDL†and apoAâ€I–targeted therapies are a potential option for conserving residual βâ€cell function and improving insulin sensitivity in patients who are progressing toward, or have already developed, T1DM and T2DM. The recent failures of HDLâ€raising agents in cardiovascular clinical outcome trials highlight the need to develop novel and innovative HDLâ€targeted approaches to achieve these goals. Elucidating the mechanism(s) underlying the antidiabetic functions of HDLs and apoAâ€I will also provide opportunities to identify and develop new HDLâ€targeted therapies for diabetes mellitus. Achievement of these goals could be particularly advantageous for patients with T1DM for whom treatment options are currently limited to insulin replacement therapy, and for patients with T2DM that are refractory to currently available therapies.
Table 1.Role of HDL and apoAâ€I in Glycemic Control, Insulin Sensitivity and βâ€Cell Function
Topic Outcome Reference
Association of HDLâ€C and apoAâ€I levels with glycemic control
Subjects with T2DM Serum HDLâ€C, apoAâ€I, and HDLâ€C/apoAâ€I levels are inversely associated with insulin resistance by HOMAâ€IR 9
Subjects with impaired glucose tolerance ApoAâ€I level is an independent risk factor for glucose tolerance 10
HDL and apoAâ€I in glucose disposal/insulin sensitivity
Primary human skeletal muscle cells ApoAâ€I improves insulinâ€dependent and â€independent glucose uptake 27
C2C12 skeletal muscle cells ApoAâ€I increases glucose uptake by phosphorylation of AMPK 35
Highâ€fat–fed C57BL/6 mice ApoAâ€I improves insulin sensitivity by reducing systemic and hepatic inflammation 40
db/db mice Longâ€term HDL infusion improves glucose tolerance by activating GSKâ€3 and AMPK in skeletal muscle 37
Pregnant female Wistar rats ApoAâ€I infusions increase insulin sensitivity, reduces systemic inflammation and protects against pregnancyâ€induced insulin resistance 45
Subjects with T2DM A single rHDL infusion reduces plasma glucose levels by increasing insulin secretion and promoting glucose uptake in skeletal muscle 2
HDL and apoAâ€I in βâ€cell function
Min6 insulinoma cells HDLs isolated from normal human plasma, rHDLs, and apoAâ€I increase Ins1 and Ins2 gene transcription and GSIS 58
Insâ€1E insulinoma cells ApoAâ€I increases Pdx1 gene transcription and GSIS 57
βTC3 insulinoma cells Incubation with HDL protects βTC3 cells against LDLâ€induced apoptosis 70
C57BL/6 mice ApoAâ€I infusions increase insulin secretion and improve glucose tolerance 52
Highâ€fat–fed C57BL/6 mice Shortâ€term apoAâ€I treatment increases GSIS and improves glucose clearance independent of insulin secretion 53
Mice with conditional deletion of ABCA1 and ABCG1 in β cells ApoAâ€I infusions increase GSIS in islets isolated from mice with elevated islet cholesterol levels 54
Healthy subjects and Min6 cells CETP inhibition increases plasma HDLâ€C, apoAâ€I, and insulin levels in normal human subjects. Plasma from these subjects also increases GSIS in Min6 cells pretreated with oxidized LDLs 60
Isolated human islets HDL protects human islets against oxidized LDLâ€induced apoptosis 71
Isolated human and mouse islets HDL protects human and mouse islets from interleukinâ€1β– and glucoseâ€induced apoptosis 72
AMPK indicates adenosine monophosphateâ€activated protein kinase; apoAâ€I, apolipoprotein Aâ€I; CETP, cholesteryl ester transfer protein; GSIS, glucoseâ€stimulated insulin secretion; GSK, glycogen synthase kinaseâ€3; HDL, highâ€density lipoprotein; HDLâ€C, highâ€density lipoprotein cholesterol; HOMAâ€IR, Homeostatic model assessment of insulin resistance; LDL, lowâ€density lipoprotein; rHDL, reconstituted HDL.
“The vagus nerve, also called the “10th cranial nerve,†is the longest, largest, and most complex of the cranial nerves, and in some ways it’s also the least understood. Experts have linked its activity to symptom changes in people with migraine headaches, inflammatory bowel disease, depression, epilepsy, arthritis, and many other common ailments. The more science learns about the vagus nerve, the more it seems like a better understanding of its function could unlock new doors to treating all manner of human suffering.”
https://elemental.medium.com/science-confirms-that-the-vagus-nerve-is-key-to-well-being-c23fab90e211
“Moreover, results showed that sarcopenia was also associated with reduced levels of enzymes involved in the recycling of NAD+, which acts as a metabolic sensor in the cell and regulates energy production pathways.”
“The lifespan-lengthening association was apparent in both sexes but only after the age of 60. Our results provide further support for the role of mitochondrial genetics in lengthening human lifespan.”
https://www.sciencedirect.com/science/article/abs/pii/S1567724919301047
A new year, and a new decade lay before us as we reach the end of 2019.
You’re inspired to start improving something about your health of life.
Don’t, well, more accurately do, but don’t do it for a new years resolution.
Do it because you are ready, do it because you’re done with the status quo, do it for your happiness, for your family.
Do it for any reason other than an arbitrary date with artificial importance projected upon it.
Changes are hard and habits are strong. It takes time and conviction to change so you need to be truly ready and you need to do it as soon as you can.
If you set yourself a new years resolution and fail you are likely to give up completely or revert back to comfort to relive the disappointment and depression that may follow a failed new years resolution.
Know that you have it in you to change without an arbitrary date. You can do it!
from:
“Evidence is accumulating that eating in a 6-hour period and fasting for 18 hours can trigger a metabolic switch from glucose-based to ketone-based energy, with increased stress resistance, increased longevity, and a decreased incidence of diseases, including cancer and obesity.”
“Fatty liver, or hepatic steatosis, which develops when the body produces too much fat or doesn’t metabolize fat efficiently enough, affects around 25% of the global population. Excess fat is stored in liver cells, where it accumulates and can cause fatty liver and other diseases.
In a study just published in the journal Cell Reports, researchers reveal for the first time that SIRT6, a protein involved in regulating many biological processes such as aging, obesity, insulin resistance, inflammation and metabolism, also plays a crucial role in burning and regulating liver fat metabolism.”
“The identification of genes and interventions that slow or reverse aging is hampered by the lack of non-invasive metrics that can predict life expectancy of pre-clinical models. Frailty Indices (FIs) in mice are composite measures of health that are cost-effective and non-invasive, but whether they can accurately predict health and lifespan is not known. Here, mouse FIs were scored longitudinally until death and machine learning was employed to develop two clocks. ”
The Evidence-Based Eating Guide: A Healthy Living Resource from Dr. Greger & NutritionFacts.org is a tool designed to help make the switch to a healthier lifestyle more simple. It’s an easy to understand guide with applicable information for eating healthier, including a breakdown of Dr. Greger’s Traffic Light Eating, tips for using Dr. Greger’s Daily Dozen checklist, sample menus, and more.
How prepared is society for our longer lives? Our new report, ‘The State of Ageing in 2019’, uses publicly available data to give a snapshot of what life is like for people aged 65 and older today. It also investigates the prospects for people currently in their 50s and 60s looking across four crucial areas: work and finances, housing, health and communities.
The State of Ageing in 2019: Adding life to our years
https://www.ageing-better.org.uk/publications/state-of-ageing-2019
“The pilot study, published online in the December 5, 2019 edition of Cell Metabolism, found that when participants restricted their eating to 10 hours or less over a period of 12 weeks, they lost weight, reduced abdominal fat, lowered blood pressure and cholesterol and enjoyed more stable blood sugar and insulin levels.”
https://www.eurekalert.org/pub_releases/2019-12/uoc–wfi120519.php
NESTE is a nutritious food ingredient with potential anti-inflammatory and analgesic effects.
https://bmccomplementalternmed.biomedcentral.com/articles/10.1186/s12906-019-2791-2
Highlights
•
From meta-analysis of RCTs in Alzheimer’s disease and Mild Cognitive Impairment, oral Medium Chain Triglycerides administration induced mild peripheral ketosis
•
From meta-analysis of RCTs in Alzheimer’s disease and Mild Cognitive Impairment, oral Medium Chain Triglycerides administration improved cognition on a combined scale of ADAS-Cog and MMSE.
•
Risk of bias of existing studies of RCTs in Alzheimer’s disease and Mild Cognitive Impairment necessitates future trials.
https://www.sciencedirect.com/science/article/pii/S156816371930131X
”
” Exercise is known to improve many aspects of human health, including modulation of the immune system and inflammatory status. It is generally understood that exercise reduces inflammation, but there are missing links in terms of understanding the mechanisms as well as the differences between exercise modalities. N-glycosylation of immunoglobulin G (IgG) and total plasma proteins was previously shown to reflect changes in inflammatory pathways, which could provide valuable information to further clarify exercise effects. In order to further expand the understanding of the relationship between physical activity and inflammation, we examined the effect of intense exercise, in the form of repeated sprint training (RST), on IgG and total plasma proteins N-glycosylation in combination with traditionally used inflammation markers: C-reactive protein (CRP), interleukin 6 (IL-6), and leukocyte count.
”
Highlights
•Potassium (K+) channels are key regulators of cell excitability in several tissues.
•A dysregulation of K+ channels is associated with Alzheimer’s disease (AD).
•The role of K+ channels in AD is not completely elucidated.
•Understanding their functions will be helpful for clarifying AD pathogenesis.
•Modulating K+ channel expression should be useful for developing novel drugs.
Potassium channels in the neuronal homeostasis and neurodegenerative pathways underlying Alzheimer’s Disease: an update – ScienceDirect
“Objective. The purpose of present study was to investigate the potential mechanism underlying the protective effect of Shenling Baizhu San (SLBZS) on nonalcoholic fatty liver disease (NAFLD) by microRNA (miRNA) sequencing. Methods. Thirty male Wistar rats were randomly divided into a normal control (NC) group, a high-fat diet (HFD) group, and an SLBZS group. After 12 weeks, the biochemical parameters and liver histologies of the rats were assessed. The Illumina HiSeq 2500 sequencing platform was used to analyse the hepatic miRNA expression profiles. Representative differentially expressed miRNAs were further validated by qRT-PCR. The functions of the differentially expressed miRNAs were analysed by bioinformatics. Results. Our results identified 102 miRNAs that were differentially expressed in the HFD group compared with the NC group. Among those differentially expressed miRNAs, the expression levels of 28 miRNAs were reversed by SLBZS administration, suggesting the modulation effect of SLBZS on hepatic miRNA expression profiles. The qRT-PCR results confirmed that the expression levels of miR-155-5p, miR-146b-5p, miR-132-3p, and miR-34a-5p were consistent with those detected by sequencing. Bioinformatics analyses indicated that the target genes of the differentially expressed miRNAs reversed by SLBZS were mainly related to metabolic pathways. Conclusion. This study provides novel insights into the mechanism of SLBZS in protecting against NAFLD; this mechanism may be partly related to the modulation of hepatic miRNA expression and their target pathways.”
Chinese Herbal Medicine Formula Shenling Baizhu San Ameliorates High-Fat Diet-Induced NAFLD in Rats by Modulating Hepatic MicroRNA Expression Profiles
Have you considered getting your DNA sequenced? Wonder what kind of information you could expect out of it?
I recently got my DNA sequenced at Self Decode and the results are in! Let’s take a look at whats in there and how I might be able to use it to improve my health and lifespan.
Now, what does this mean and what can I do about it?
Along with the report are sources to NIH publications to back the assertions. You also get deeper reports on each of those subject areas including MTFHR, APOE, Mood, Cognitive, Essential Minerals, Vitamins, Sleep, Cardiovascular, Inflammation and Fitness. You also get a personalised blog that shows you articles related to SNPs in your results.
I’m not saying that this is the best DNA service but it’s the one I chose and this is what I got. It seems quite comprehensive and does a good job at explaining what it all means and how I can adjust my diet and lifestyle to account for deficiencies caused by gene mutations. If this is something you are interested in then it might be an option for you.
What a great project and initiative from a group of school girls. Looking at indoor plants to help with mental health.
“PP2A inhibition by LB100 significantly ameliorates hepatic steatosis by regulating hepatic lipogenesis and fatty acid oxidation via the AMPK/Sirt1 pathway. LB100 may be a potential therapeutic agent for NAFLD.”
” We reviewed and discussed underlying mechanisms of CR from an aspect of CR genes. It should be stressed that the isoform specificity of FoxO transcription factors for longevity becomes apparent under CR conditions but not AL conditions. Npy and FoxO1 both play pleiotropic roles in aging and related disorders, depending on the nutritional state. As briefly described in Section 1 and Section 2, the life-extending effects of CR and reduced IGF-1 signaling are also sexually dimorphic. Genes associated with regulation of the aging process should be investigated carefully in a context-dependent manner, i.e., abilities of physiological adaptation for individuals against environmental challenges, particularly food shortage. “
“High protein intake, partly mediated by energy intake, may delay incident frailty in very old adults. Frailty prevention strategies in this age group should consider adequate provision of protein and energy.”
“Ageing is closely associated with and influenced by energy metabolism, and C/EBPβ is emerging as a key regulator of energy metabolism and longevity.”
https://www.cell.com/trends/genetics/fulltext/S0168-9525(19)30245-8?dgcid=raven_jbs_aip_email
“The amount of time we live is called lifespan. The length of time that a person is healthy and functional—not just alive—is called healthspan. Scientific understanding in these areas is advancing rapidly. Below are 12 things the collective thinks will help on your journey to a longer healthier you.Â
1. BOOST NAD+ LEVELS
2. POWER UP WITH ATP
3. CREATE FIT MITOCHONDRIA
4. ACTIVATE AMPK
5. CALORIE RESTRICTION AND CALORIE RESTRICTION MIMETICS
6. EXERCISE AND EXERCISE MIMETICS
7. BODY CLOCKÂ
8. FOLLOW A HEALTHY AGING EXPERT“
“In each of our cells are small energy generators called mitochondria. The health of our mitochondria determines the amount of adenosine triphosphate (ATP) they can produce from the calories we eat and oxygen we consume. Without robust mitochondria, cells cannot do as much work as they’re capable of and we need them to do so we can stay healthy. To achieve higher levels of performance we must optimize our mitochondria, the powerhouse of our cells, to produce energy. Cell function isn’t always the first place biohackers and nootropics enthusiasts start because it is challenging to notice a subjective boost in our mitochondrial function. Whether we can detect enhanced mitochondria subjectively or not, the science is pretty clear that healthy mitochondria play a role in supporting all indicators of cognition, physical performance, and aging. In a series of comprehensive posts, we will introduce scientifically-backed lifestyle changes and nootropics that up-regulate your mitochondrial function. In our last post, we went over how to use light and temperature to boost mitochondria. Now let’s tackle 5 more lifestyle habits we can implement to achieve healthier mitochondria.“
Mitochondria: Exploring 5 Lifestyle Habits to Benefit Cell Health
“Fundamental cellular mechanisms such as nutrient sensing, DNA damage response pathways, and cell cycle regulation influence the aging process. Studies have shown that the nutrient sensory kinase, mTOR (TOR in yeast), regulates lifespan in response to nutrient availability. The mTOR kinase forms two distinct protein complexes: TORC1 and TORC2. TORC1, which is inhibited by rapamycin, regulates cell growth, proliferation, and metabolism. It is well established that TORC1 promotes protein translation via phosphorylation of ribosomal protein S6 kinase and the eIF4Eâ€binding protein (BP; Zoncu, Efeyan, & Sabatini, 2011). The TORC2 branch is less studied; however, TORC2 also plays important roles in metabolism, cell survival, and proliferation (Zoncu et al., 2011). Although the involvement of the TORC1 pathway in lifespan regulation is conserved among many species (i.e., TORC1 inhibition extends lifespan), it is still unclear how this pathway affects multiple downstream stress and damage response mechanisms.”
“The global population of individuals over the age of 65 is growing at an unprecedented rate and is expected to reach 1.6 billion by 2050. Most older individuals are affected by multiple chronic diseases, leading to complex drug treatments and increased risk of physical and cognitive disability. Improving or preserving the health and quality of life of these individuals is challenging due to a lack of wellâ€established clinical guidelines. Physicians are often forced to engage in cycles of “trial and error†that are centered on palliative treatment of symptoms rather than the root cause, often resulting in dubious outcomes. Recently, geroscience challenged this view, proposing that the underlying biological mechanisms of aging are central to the global increase in susceptibility to disease and disability that occurs with aging. In fact, strong correlations have recently been revealed between health dimensions and phenotypes that are typical of aging, especially with autophagy, mitochondrial function, cellular senescence, and DNA methylation. Current research focuses on measuring the pace of aging to identify individuals who are “aging faster†to test and develop interventions that could prevent or delay the progression of multimorbidity and disability with aging. Understanding how the underlying biological mechanisms of aging connect to and impact longitudinal changes in health trajectories offers a unique opportunity to identify resilience mechanisms, their dynamic changes, and their impact on stress responses. Harnessing how to evoke and control resilience mechanisms in individuals with successful aging could lead to writing a new chapter in human medicine.”
“The AMP-activated protein kinase (AMPK) acts as a cellular energy sensor. Once switched on by increases in cellular AMP : ATP ratios, it acts to restore energy homeostasis by switching on catabolic pathways while switching off cell growth and proliferation. The canonical AMP-dependent mechanism of activation requires the upstream kinase LKB1, which was identified genetically to be a tumour suppressor. AMPK can also be switched on by increases in intracellular Ca2+, by glucose starvation and by DNA damage via non-canonical, AMP-independent pathways. Genetic studies of the role of AMPK in mouse cancer suggest that, before disease arises, AMPK acts as a tumour suppressor that protects against cancer, with this protection being further enhanced by AMPK activators such as the biguanide phenformin. However, once cancer has occurred, AMPK switches to being a tumour promoter instead, enhancing cancer cell survival by protecting against metabolic, oxidative and genotoxic stresses. Studies of genetic changes in human cancer also suggest diverging roles for genes encoding subunit isoforms, with some being frequently amplified, while others are mutated.”
“Obesity and being overweight have become a worldwide epidemic affecting more than 1.9 billion adults and 340 million children. Efforts to curb this global health burden by developing effective long-term non-surgical weight loss interventions continue to fail due to weight regain after weight loss. Weight cycling, often referred to as Yoyo dieting, is driven by physiological counter-regulatory mechanisms that aim at preserving energy, i.e. decreased energy expenditure, increased energy intake, and impaired brain-periphery communication. Models based on genetically determined set points explained some of the weight control mechanisms, but exact molecular underpinnings remained elusive. Today, gene–environment interactions begin to emerge as likely drivers for the obesogenic memory effect associated with weight cycling. Here, epigenetic mechanisms, including histone modifications and DNA methylation, appear as likely factors that underpin long-lasting deleterious adaptations or an imprinted obesogenic memory to prevent weight loss maintenance.”
“Higher Dietary Inflammatory Index (DII®) scores are associated with increased morbidity and mortality. However, little is known about the effects of DII on mortality in Mediterranean countries. Therefore, in the present study, we aimed to investigate the potential association between DII scores and overall, cancer and cardiovascular disease (CVD) mortality in people living in a Mediterranean area.”
“Higher DII scores were associated with a significantly higher mortality risk, whereas the association with causeâ€specific mortality was less clear. These findings highlight the potential importance of diet in modulating inflammation and preventing death. ”
“Mild cognitive impairment or cognitive impairment without dementia (CIND) is a health condition elderly people suffer from.
The condition causes memory loss and in extreme cases, it can progress to Alzheimer’s disease.
A new study shows that exercise may help elevate symptoms of the condition.”
https://conductscience.com/exercise-intervention-helps-slow-down-memory-loss/
No referral or benefit, I just found this super useful and it allows me to bring my fitbit weight and oura sleep into Samsung health and Google fit.
It also supports Suunto, Garmin and many others.
https://play.google.com/store/apps/details?id=nl.appyhapps.healthsync
” In mouse models of Alzheimer’s disease, the investigational drug candidates known as CMS121 and J147 improve memory and slow the degeneration of brain cells. Now, researchers have shown how these compounds can also slow aging in healthy older mice, blocking the damage to brain cells that normally occurs during aging and restoring the levels of specific molecules to those seen in younger brains.”
https://www.sciencedaily.com/releases/2019/12/191210134028.htm
Risk-Benefit Analysis
Forever Healthy Foundation gGmbH
Amalienbadstraße 41
D-76227 Karlsruhe, Germany
Low-level light therapy (LLLT) is the use of low incident levels of photon energy at a particular wavelength, targeting tissue to achieve a clinically useful local or systemic effect without the creation of heat (athermal) or damage (atraumatic) (Calderhead & Tanaka, 2017). LLLT has shown dramatic effects when used for wound healing, pain management, and various musculoskeletal conditions.
This review focuses on its potential use in skin rejuvenation. It has been shown that upon exposure to light, chromophores in the skin (mitochondrial cytochrome C, melanin, and protoporphyrins) absorb photons which lead to downstream alterations in physiology such as changes in cell proliferation, differentiation, migration, inflammatory mediators, and collagen production. It is supposed that these photobiomodulative effects have beneficial effects on the skin, leading to a more youthful appearance through increased collagen and elastin production, and a reduction in age spots and wrinkles.
This analysis seeks to answer the following questions:
https://brain.forever-healthy.org/display/EN/Skin+Rejuvenation+by+Low-Level+Light+Therapy
Risk-Benefit Analysis
Forever Healthy Foundation gGmbH
Amalienbadstraße 41
D-76227 Karlsruhe, Germany
Senolytics are agents that selectively induce apoptosis of senescent cells. Fisetin is a flavonoid polyphenol found in many types of fruits and vegetables (Arai et al., 2000) that is believed to act as a senolytic in addition to its numerous other known benefits. Although natural senolytics are less potent, compared to the targeted senolytics, they have lower toxicity and are thus, likely to be more readily translatable to clinical medicine. This RBA focuses on the risks and benefits of using fisetin as a senolytic rather than its more common use as a supplement.
This RBA seeks to answer the following questions:
https://brain.forever-healthy.org/display/EN/Fisetin+Senolytic+Therapy
Risk-Benefit Analysis
Forever Healthy Foundation gGmbH
Amalienbadstraße 41
D-76227 Karlsruhe, Germany
NAD+ is a pyridine nucleotide found in all living cells. It plays an important role in energy metabolism and is a substrate for several enzymes (including those involved in DNA repair). NAD+ levels may decline markedly with age (Massudi et al., 2012; Clement et al., 2019; Zhu et al., 2011) and restoring those levels to a youthful state is believed to have beneficial effects on health and longevity.
This analysis seeks to answer the following questions:
https://brain.forever-healthy.org/display/EN/NAD+Restoration+Therapy
“Key Learning Objectives:
– Understand the importance of a gut-brain communication system
– Learn about signaling pathways in the gut-brain axisLearn how the gut microbiota influences brain function
– Discover how the gut microbiota can be targeted to influence brain function
WHAT IS THE GUT-BRAIN AXIS?
The gut, its microbes, and the brain are connected by a complex communication and regulation system called the gut-brain axis. The gut-brain axis (also known as brain-gut axis, microbiota-gut-brain axis, gut-brain connection) is a bidirectional signaling network made up of neurons, hormones, immune cells, and microbial molecules.[1,2] It is part of a larger system that informs the brain of the internal state and health of our body. This sense is called interoception and it’s crucial for the maintenance of physiological balance in our body, a state known as homeostasis.[3] “
What is The Gut-Brain Axis? An Exploration of The Communication Pathways Between The Brain, The Gut, And The Microbiota
“Probiotic bacteria are increasingly gaining importance in human nutrition owing to their multifaceted health beneficial effects. Studies have also shown that probiotic supplementation is useful in mitigating age-associated oxi-inflammatory stress, immunosenescence, and gut dysbiosis thereby promoting health and longevity. However, our current understanding of the process of aging suggests a strong interrelationship between the accumulation of senescent cells and the development of aging phenotype, including the predisposition to age-related disorders. The present review studies the documented pro-longevity effects of probiotics and highlights how these beneficial attributes of probiotics could be related to the mitigation of cellular senescence. ”
“These studies demonstrate an important link between the [pathological] accelerated ageing process and normal aging, and also expose the CSB protein as a key factor against cellular ageing” concludes Dr. Ricchetti.
https://medicalxpress.com/news/2019-12-identification-key-protein-linked-ageing.html
“Hericium erinaceus was used in traditional Chinese medicine for physiologically beneficial medicines. Recently, it has become a candidate in causing positive brain health-related activities. We previously reported that Hericium erinaceus mycelium ameliorates Alzheimer’s disease (AD)-related pathologies.”
“Aging is an important risk factor for several human diseases such as cancer, cardiovascular disease and neurodegenerative disorders, resulting from a combination of genetic and environmental factors (e.g., diet, smoking, obesity and stress), which, at molecular level, cause changes in gene expression underlying the decline of physiological function. Epigenetics, which include mechanisms regulating gene expression independently of changes to DNA sequence, regulate gene expression by modulating the structure of chromatin or by regulating the binding of transcriptional machinery to DNA. Several studies showed that an impairment of epigenetic mechanisms promotes alteration of gene expression underlying several aging-related diseases. Alteration of these mechanisms is also linked with changes of gene expression that occurs during aging processes of different tissues. In this review, we will outline the potential role of epigenetics in the onset of two age-related pathologies, cancer and cardiovascular diseases.”
“Although intermittent increases in inflammation are critical for survival during physical injury and infection, recent research has revealed that certain social, environmental and lifestyle factors can promote systemic chronic inflammation (SCI) that can, in turn, lead to several diseases that collectively represent the leading causes of disability and mortality worldwide, such as cardiovascular disease, cancer, diabetes mellitus, chronic kidney disease, non-alcoholic fatty liver disease and autoimmune and neurodegenerative disorders. In the present Perspective we describe the multi-level mechanisms underlying SCI and several risk factors that promote this health-damaging phenotype, including infections, physical inactivity, poor diet, environmental and industrial toxicants and psychological stress. Furthermore, we suggest potential strategies for advancing the early diagnosis, prevention and treatment of SCI.”
“The unprecedented resolution of genome-wide interaction maps shows functional consequences that extend the initial thought of an efficient DNA packaging mechanism: gene regulation, DNA repair, chromosomal translocations and evolutionary rearrangements seem to be only the peak of the iceberg. One key concept emerging from this research is the topologically associating domains (TADs) whose functional role in gene regulation and their association with disease is not fully untangled.”
https://epigeneticsandchromatin.biomedcentral.com/articles/10.1186/s13072-019-0317-2
Risks: this risk is low (less than 10 cases for 100,000 patient years), but the risk of metformin-induced lactic acidosis (MALA) increases in certain situations where both the plasma levels of metformin are increased and lactate clearance is impaired.[6]
“Previously, the only biochemical pathway that was known to be activated by metformin was the AMPK pathway, which Shaw discovered stalls cell growth and changes metabolism when nutrients are scarce, as can occur in cancer. But the scientists believed more pathways than AMPK might be involved.
The scientists developed a novel screening platform to examine kinases, the proteins that transfer phosphate groups, which are critical on/off switches in cells and can be rapidly flipped by metformin. Using this technology, the researchers were able to decode hundreds of regulatory “switch-flipping” events that could affect healthy aging.”
https://medicalxpress.com/news/2019-12-diabetes-drug-unexpected-broad-implications.html
“Ageing and many diseases are partly driven by the accumulation of damaged cells that no longer divide. It emerges that these senescent cells can be eradicated in mice using a drug that interferes with the activity of the protein FOXO4.
If cells incur too much damage, they undergo either a self-elimination process known as apoptosis or a self-disabling process called senescence. Senescent cells can be long-lived, and so accumulate in aged and damaged organs1. The elimination of senescent cells is known2,3,4,5,6 to increase healthy lifespan and reduce the severity of age-related diseases in mice. Writing in Cell, Baar et al.7 expand our understanding of this phenomenon. They report that senescent cells depend on the transcription factor forkhead box protein O4 (FOXO4) for their survival, and show in mouse models that both age-associated defects and tissue dysfunction caused by chemotherapy can be reversed by pharmacologically perturbing the function of this protein.
Senescent cells forcibly block their own capacity to proliferate while programming themselves to secrete signalling molecules — a phenomenon known as the senescence-associated secretory phenotype (SASP). It has been proposed8,9 that the normal function of the SASP is to restore tissue function in two ways: first, by stimulating less-damaged neighbouring cells to engage in tissue repair; and second, by attracting inflammatory cells to eliminate senescent cells and turn off SASP-mediated signals. However, this restorative process may fail when the extent, duration or frequency of damage exceeds repair capacity, or when reparative and inflammatory cells become unresponsive to the effects of the SASP. The end result is an aberrant accumulation of senescent cells that, contrary to their initial purpose, aggravate tissue dysfunction.” Serrano, M. Tools to eliminate senescent cells. Nature545, 294–295 (2017) doi:10.1038/nature22493
“The VegeSafe program run by Macquarie University has been sampling backyard soil and household dust on behalf of homeowners across Sydney for several years.
They have now teamed up with researchers from seven countries across the globe to launch Map My Environment, an interactive tool allowing people to check levels of lead, arsenic and heavy metals in their suburb, based on more than 15,000 samples.” SMH Dec 1 2019
“The culinary and medicinal mushroom Hericium erinaceus is widely consumed in Asian countries, but apparently not in the United States, for its nutritional and health benefits. To stimulate broader interest in the reported beneficial properties, this overview surveys and consolidates the widely scattered literature on the chemistry (isolation and structural characterization) of polysaccharides and secondary metabolites such as erinacines, hericerins, hericenones, resorcinols, steroids, mono- and diterpenes, and volatile aroma compounds, nutritional composition, food and industrial uses, and exceptional nutritional and health-promoting aspects of H. erinaceus. The reported health-promoting properties of the mushroom fruit bodies, mycelia, and bioactive pure compounds include antibiotic, anticarcinogenic, antidiabetic, antifatigue, antihypertensive, antihyperlipodemic, antisenescence, cardioprotective, hepatoprotective, nephroprotective, and neuroprotective properties and improvement of anxiety, cognitive function, and depression. The described anti-inflammatory, antioxidative, and immunostimulating properties in cells, animals, and humans seem to be responsible for the multiple health-promoting properties. A wide range of research advances and techniques are described and evaluated. The collated information and suggestion for further research might facilitate and guide further studies to optimize the use of the whole mushrooms and about 70 characterized actual and potential bioactive secondary metabolites to help prevent or treat human chronic, cognitive, and neurological diseases.”
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These findings connect hepatocyte and circulatory glycoprotein sialylation to the regulation of metabolism and inflammation, potentially identifying the glycome as a new target for liver-driven disease.
Modulation of hepatocyte sialylation drives spontaneous fatty liver disease and inflammation | Glycobiology | Oxford Academic
So you have a bunch of information on things that can help you live healthier and longer. What next?
Typically what a biohacker does is builds a stack. A stack is a collection of supplements that is aimed at a certain goal.
I’m going to give you some insight into my “pet rabbit” stack 😉 My rabbit is 104kgs and around 40 years old (Super Rabbit 😉 My rabbit is wanting to live healthier and longer as well as improve cognetive function and avoid cognitive decline. She wants to grow her hair and keep it a healthy colour and improve general health and fitness.
Firstly a dosing routine showing morning and evening dosing and which to take at what time of day for the desirable outcome.
Continue reading “What is a stack and whats in one? – Opinion”
Nicotinamide adenine dinucleotide (NAD), the cell’s hydrogen carrier for redox enzymes, is well known for its role in redox reactions. More recently, it has emerged as a signaling molecule. By modulating NAD+-sensing enzymes, NAD+ controls hundreds of key processes from energy metabolism to cell survival, rising and falling depending on food intake, exercise, and the time of day. NAD+ levels steadily decline with age, resulting in altered metabolism and increased disease susceptibility. Restoration of NAD+ levels in old or diseased animals can promote health and extend lifespan, prompting a search for safe and efficacious NAD-boosting molecules that hold the promise of increasing the body’s resilience, not just to one disease, but to many, thereby extending healthy human lifespan.
Therapeutic Potential of NAD-Boosting Molecules: The In Vivo Evidence. – PubMed – NCBI
NAD+ is a pivotal metabolite involved in cellular bioenergetics, genomic stability, mitochondrial homeostasis, adaptive stress responses, and cell survival. Multiple NAD+-dependent enzymes are involved in synaptic plasticity and neuronal stress resistance. Here, we review emerging findings that reveal key roles for NAD+ and related metabolites in the adaptation of neurons to a wide range of physiological stressors and in counteracting processes in neurodegenerative diseases, such as those occurring in Alzheimer’s, Parkinson’s, and Huntington diseases, and amyotrophic lateral sclerosis. Advances in understanding the molecular and cellular mechanisms of NAD+-based neuronal resilience will lead to novel approaches for facilitating healthy brain aging and for the treatment of a range of neurological disorders.
NAD+ in Brain Aging and Neurodegenerative Disorders. – PubMed – NCBI
” In the past three decades, total fat and saturated fat intake as a percentage of total calories has continuously decreased in Western diets, while the intake of omega-6 fatty acid increased and the omega-3 fatty acid decreased, resulting in a large increase in the omega-6/omega-3 ratio from 1:1 during evolution to 20:1 today or even higher. This change in the composition of fatty acids parallels a significant increase in the prevalence of overweight and obesity. Experimental studies have suggested that omega-6 and omega-3 fatty acids elicit divergent effects on body fat gain through mechanisms of adipogenesis, browning of adipose tissue, lipid homeostasis, brain-gut-adipose tissue axis, and most importantly systemic inflammation. Prospective studies clearly show an increase in the risk of obesity as the level of omega-6 fatty acids and the omega-6/omega-3 ratio increase in red blood cell (RBC) membrane phospholipids, whereas high omega-3 RBC membrane phospholipids decrease the risk of obesity. Recent studies in humans show that in addition to absolute amounts of omega-6 and omega-3 fatty acid intake, the omega-6/omega-3 ratio plays an important role in increasing the development of obesity via both AA eicosanoid metabolites and hyperactivity of the cannabinoid system, which can be reversed with increased intake of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). A balanced omega-6/omega-3 ratio is important for health and in the prevention and management of obesity. ”
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4808858/
