Filtered By:
Therapy: Stem Cell Therapy

This page shows you your search results in order of date. This is page number 5.

Order by Relevance | Date

Total 1175 results found since Jan 2013.

Fight Aging! Newsletter, December 19th 2022
In conclusion, p16 deletion or p16 positive cell clearance could be a novel strategy preventing long term HFD-induced skin aging. Association of LDL-Cholesterol with Mortality https://www.fightaging.org/archives/2022/12/association-of-ldl-cholesterol-with-mortality/ Researchers here report on a study of LDL-cholesterol and mortality risk in older people. As they note, data on this topic is conflicted once one moves beyond the matter of cardiovascular disease. Over a lifetime, higher LDL-cholesterol makes it easier to reach the tipping point at which cholesterol deposited in blood vessel walls produces en...
Source: Fight Aging! - December 18, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Reviewing the Role of SIRT6 in Aging
While much the history of work on sirtuins is one of disappointing results, the majority of that work involved SIRT1. Both SIRT3 and SIRT6 may be more interesting, based on animal studies conducted since the SIRT1 era. SIRT3 localizes to the mitochondria, and mitochondrial function is important in the context of aging. Researchers have shown that SIRT3 upregulation in mice improves hematopoietic stem cell function. SIRT6 upregulation, however, has been shown to modestly extend life in mice, there is a larger body of work surrounding its effects on metabolism than is the case for SIRT3, and at least one group is attempting ...
Source: Fight Aging! - December 12, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs

Fight Aging! Newsletter, December 12th 2022
In conclusion, selective removal of senescent dermal fibroblasts can improve the skin aging phenotype, indicating that BPTES may be an effective novel therapeutic agent for skin aging. Non-Dividing Neurons Do In Fact Become Senescent, Impairing Brain Function https://www.fightaging.org/archives/2022/12/non-dividing-neurons-do-in-fact-become-senescent-impairing-brain-function/ Cellular senescence is generally thought of as a characteristic of replicating cells; it is an end state reached when telomeres, reduced in length with each cell division, become too short. This is followed by programmed cell death ...
Source: Fight Aging! - December 11, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, December 5th 2022
In conclusion, the PAAIs examined (i.e. mTOR loss of function, Ghrhr loss of function, intermittent fasting-based version of dietary restriction) often influenced age-sensitive traits in a direct way and not by slowing age-dependent change. Previous studies often failed to include young animals subjected to PAAI to account for age-independent PAAI effects. However, any study not accounting for such age-independent intervention effects will be prone to overestimate the extent to which an intervention delays the effects of aging on the phenotypes studied. This can result in a considerable bias of our view on how modifiable a...
Source: Fight Aging! - December 4, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Reviewing the State of Gene Editing to Make Cells Compatible Between Donor and Recipient
A sizable level of funding in academia and industry is devoted to the goal of enabling cell transplants between different individuals, with large and well funded pharma companies such as Astellas, Sana, and others involved. This would allow for the creation of cost-effective cell therapies of all sorts, in which the donor cells used in every patient originate from the same few well-vetted and well-controlled cell lines. Logistics is everything in the realm of cell therapies, and the reason why autologous cell therapies, such as CAR-T treatments for cancer, are so expensive is that every treatment site must have the ...
Source: Fight Aging! - November 29, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs

Fight Aging! Newsletter, November 28th 2022
This study explored whether determining the gain or loss of specific taxa represent a more precise metric of healthy/unhealthy aging than summary microbiome statistics, such as diversity and uniqueness. We analyzed microbiome diversity and four measures of microbiome uniqueness in 21,000 gut microbiomes for their relationship with aging and health. We show that diversity and uniqueness measures are not synonymous; uniqueness is not a uniformly desirable feature of the aging microbiome, nor is it an accurate biomarker of healthy aging. Different measures of uniqueness show different associations with diversity and with mark...
Source: Fight Aging! - November 27, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, November 21st 2022
In this study researchers added new insight, showing that high-intensity aerobic exercise, which derives its energy from sugar, can reduce the risk of metastatic cancer by as much as 72%. If so far the general message to the public has been 'be active, be healthy', now researchers can explain how aerobic activity can maximize the prevention of the most aggressive and metastatic types of cancer. The study combined an animal model in which mice were trained under a strict exercise regimen, with data from healthy human volunteers examined before and after running. The human data, obtained from an epidemiological study ...
Source: Fight Aging! - November 20, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Reprogramming Alone is Not Sufficient
Epigenetic reprogramming is a process of exposing cells to the Yamanaka factors for a long enough period of time to shift their epigenome towards that found in youthful tissues, but not for so long as to cause any meaningful number of them to change state into pluripotent stem cells. It is an attempt to reproduce aspects of the cellular rejuvenation that occurs in the initial stages of embryogenesis, without harming the functional specialization of the cells so altered. It works surprisingly well in animal studies, considering all of the very reasonable a priori objections as to why we should believe that such an embryonic...
Source: Fight Aging! - November 18, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs

Better Understanding the Outcome of Destroying and Rebuilding the Immune System
The use of chemotherapy to destroy as much of the peripheral immune system as possible, followed by some form of stem cell transplant to rebuild it, has been used for some years as a way to treat multiple sclerosis. In this autoimmune condition, the problem resides in the immune memory, and getting rid of that memory is the solution. The only approach currently demonstrated to work is this somewhat drastic treatment, and the balance of risk and cost means that it is only used for severe diseases such as multiple sclerosis. But in principle, clearance and restoration of the immune system could solve a great many of the issu...
Source: Fight Aging! - November 17, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs

Fight Aging! Newsletter, November 14th 2022
In this study, we show that TXNIP is vital for the cell fate choice when cells are challenged by various stress signals. Furthermore, prolonged IGF1 treatment leads to the establishment of a premature senescence phenotype characterized by a unique senescence network signature. Combined IGF1/TXNIP-induced premature senescence can be associated with a typical secretory inflammatory phenotype that is mediated by STAT3/IL-1A signaling. Finally, these mechanistic insights might help with the understanding of basic aspects of IGF1-related pathologies in the clinical setting. Investigating the Ability of Type 2 Diabetes...
Source: Fight Aging! - November 13, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, November 7th 2022
In conclusion, the national prevalence of dementia and MCI in 2016 found in this cross-sectional study was similar to that of other US-based studies. Clearing Microglia Reverses Age-Related Disruption of Sleeping Patterns in Mice https://www.fightaging.org/archives/2022/11/clearing-microglia-reverses-age-related-disruption-of-sleeping-patterns-in-mice/ Microglia are innate immune cells of the central nervous system. They are analogous to macrophages in the rest of the body, but undertake additional duties relating to the function of neurons and in brain tissue. Microglia become overly active and inflamma...
Source: Fight Aging! - November 6, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Reprogramming as an Approach to Reduce T Cell Exhaustion
T cell exhaustion occurs following repeated stimulation, such as when faced with a growing cancer or persistent viral infection. It manifests as a progressive loss of function, the T cells no longer attacking pathogens or errant cells. Finding a way to minimize this phenomenon would assist in a range of conditions, such as by improving the outcome of T cell immunotherapies targeting cancer, and might help improve the aged immune system, in which T cell exhaustion is also observed. Here, the use of partial reprogramming is suggested as an approach to achieve this goal. In partial reprogramming, cells are exposed to the fact...
Source: Fight Aging! - October 31, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs

Fight Aging! Newsletter, October 31st 2022
This study used mice to evaluate how their lifestyles - eating fatty foods vs. healthy and exercising vs. not - affected the metabolites of their offspring. Metabolites are substances made or used when the body breaks down food, drugs or chemicals, or its own fat or muscle tissue. "We have previously shown that maternal and paternal exercise improve health of offspring. Tissue and serum metabolites play a fundamental role in the health of an organism, but how parental exercise affects offspring tissue and serum metabolites has not yet been investigated." Researchers used targeted metabolomics - the study of metaboli...
Source: Fight Aging! - October 30, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

The Burden of Somatic Mutation with Age
Mutational damage occurs constantly to nuclear DNA throughout life. Little of that damage goes unrepaired, and little of the lasting breakage occurs in active parts of the genome. Where mutations go unrepaired in active parts of the genome, little of that occurs in important genes. Where it does occur in important genes, that only matters to the extent that (a) the mutation can spread, and (b) the mutation is potentially cancerous. Comparatively few cells in the body have the capacity to create many descendant cells through replication, as the Hayflick limit ensures that near all cells are limited in the number of times th...
Source: Fight Aging! - October 24, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs

Fight Aging! Newsletter, October 24th 2022
This study shows the uncoupling of lifespan and healthspan parameters (aerobic fitness and spontaneous activity) and provides new insights into SIRT3 function in CR adaptation, fuel utilization, and aging. HDL Level, Age, and Smoking are the Largest Determinants of Mortality Risk in Old People https://www.fightaging.org/archives/2022/10/hdl-level-age-and-smoking-are-the-largest-determinants-of-mortality-risk-in-old-people/ An interesting epidemiological study here stratifies the contributions of various metrics to mortality in later life, age 70 and older. The authors find that the largest effects arise ...
Source: Fight Aging! - October 23, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs