If only, wrote an ancient Japanese poet, when one heard that Old Age was coming one could bolt the door.
Science is working on it.
Aging is as much about the physical processes of repair and regeneration and their slow-motion failure as it is the passage of time. And scientists studying stem cell and regenerative biology are making progress understanding those processes, developing treatments for the many diseases whose risks increase as we get older, while at times seeming to draw close to a broader anti-aging breakthrough.
If stem cells offer potential solutions, theyre also part of the problem. Stem cells, which can differentiate into many cell types, are important parts of the bodys repair system, but lose regenerative potency as we age. In addition, their self-renewing ability allows the mutations that affect every cell to accumulate across cellular generations, and some of those mutations lead to disease.
We do think that stem cells are a key player in at least some of the manifestations of age, said Professor of Stem Cell and Regenerative Biology David Scadden, co-director of the Harvard Stem Cell Institute. The hypothesis is that stem cell function deteriorates with age, driving events we know occur with aging, like our limited ability to fully repair or regenerate healthy tissue following injury.
When it comes to aging, certain tissue types seem to lead the charge, according to Professor of Stem Cell and Regenerative Biology Lee Rubin, who directs the Harvard Stem Cell Institutes Therapeutic Screening Center. Particular tissues nerve cells appear to be one somehow signal to others that its time to age. This raises the prospect, Rubin said, that aging might be reversed by treating these key tissue categories, rather than designing individual treatments for the myriad tissue types that make up the body.
The process of aging involves all tissues in your body and, while different things go wrong in each tissue, they go wrong at basically the same rate, Rubin said. We can think of it as a process that is somehow coordinated, or there are fundamental processes in each tissue that play out.
In addition to key tissues, certain chemical pathways like insulin signaling seem to be able to control aging, said Rubin, whose work has received backing from the National Institute of Neurological Disorders and Stroke, as well as private foundations. The insulin signaling pathway is a chemical chain reaction in which the hormone insulin helps the body metabolize glucose. Reducing it has been shown to greatly extend life span in flies and worms, Rubin said. Also, signaling doesnt have to be reduced in all tissues.
If you just reduce it in neurons, the whole fly or worm lives longer, Rubin said. Certain key tissues in those organisms, if you selectively manipulate those tissues, have a positive effect on a number of processes in other tissues.
Because it circulates throughout the body, blood is an obvious place to look for controlling or signaling molecules that prompt or coordinate aging. A key carrier of oxygen and nutrients, blood is also rich with other compounds, some of which appear to play a role in decline linked to age.
Scadden described recent work done separately by Ben Ebert, a professor of medicine working at Harvard-affiliated Brigham and Womens Hospital, and Steve McCarroll, the Dorothy and Milton Flier Associate Professor of Biomedical Science and Genetics, that identified age-related changes in the blood that can increase the risk of diseases we dont typically think of as blood diseases.
Another tantalizing study, published in 2013, used the blood of a young mouse to rejuvenate the organs of an older one. In these parabiotic experiments, conducted by Professor of Stem Cell and Regenerative Biology Richard Lee and Forst Family Professor of Stem Cell and Regenerative Biology Amy Wagers, the circulatory systems of the two mice were joined, allowing the blood of the young to flow through the older ones body. The older mouse showed improvements in muscle tone and heart function. Later, similar experiments done by Rubin also showed improvements in neuronal health and brain functioning.
The young mouses fate depended on the age of the older mouse, Rubin said. If the latter was middle-aged, the young mouse appeared to be fine. If the older mouse was very old, however, the young mouse did worse.
Rubin said the experiments suggest that blood contains both positive and negative factors that influence aging. It may be, he said, that both are always present, but that positive factors outweigh negative in the young and that negative factors increase as we age.
Researchers have identified but not yet confirmed candidate blood factors for the rejuvenating effects. What seems not in doubt is the overall effect of the young blood on the old mouse. Interest is intense enough that a California company, Alkahest, has begun experiments giving Alzheimers patients plasma from young blood in hopes of improving cognition and brain function.
Even if that approach works, Rubin said, there would be practical hurdles to the widespread administration of young peoples blood plasma to older patients. But with an active compound identified, a drug could be made available to restore at least some cognitive function in Alzheimers patients.
In addition to the overall process of aging, researchers at the Harvard Stem Cell Institute, as well as across the University and its affiliated institutions, are investigating an array of diseases whose incidence increases sometimes dramatically with age.
The list includes several of the countrys top causes of death heart disease, stroke, diabetes, and cancer as well as rarer conditions such as the lethal neurodegenerative disorder amyotrophic lateral sclerosis (ALS).
Two decades ago, when stem cell research hit mainstream consciousness, many thought its greatest promise would be in stem cells ability to grow replacement parts: organs and tissues for damage caused by trauma or disease.
The stem cell revolution is still developing, Scadden said, but so far has taken a different form than many expected. The dream of harnessing stem cells to grow replacement hearts, livers, and kidneys remains, but potentially powerful uses have emerged in modeling disease for drug discovery and in targeting treatment for personalized medicine.
Researchers have taken from the sick easily accessible cells, such as skin or blood, and reprogrammed them into the affected tissue type nerve cells in the case of ALS, which most commonly strikes between 55 and 75, according to the National Institutes of Health (NIH).
These tissues are used as models to study the disease and test interventions. Work on ALS in the lab of Professor of Stem Cell and Regenerative Biology Kevin Eggan has identified a drug approved for epilepsy that might be effective against ALS. This application is now entering clinical trials, in collaboration with Harvard-affiliated Massachusetts General Hospital.
In the end, stem cells might have their greatest impact as a drug-discovery tool, Scadden said.
Much of stem cell medicine is ultimately going to be medicine, he said. Even here, we thought stem cells would provide mostly replacement parts. I think thats clearly changed very dramatically. Now we think of them as contributing to our ability to make disease models for drug discovery.
Also evolving is knowledge of stem cell biology. Our previous understanding was that once embryonic stem cells differentiated into stem cells for muscle, blood, skin, and other tissue, those stem cells remained flexible enough to further develop into an array of different cells within the tissue, whenever needed.
Recent work on blood stem cells, however, indicates that this plasticity within a particular tissue type may be more limited than previously thought, Scadden said. Instead of armies of similarly plastic stem cells, it appears there is diversity within populations, with different stem cells having different capabilities.
If thats the case, Scadden said, problems might arise in part from the loss of some of these stem cell subpopulations, a scenario that could explain individual variation in aging. Getting old may be something like the endgame in chess, he said, when players are down to just a few pieces that dictate their ability to defend and attack.
If were graced and happen to have a queen and couple of bishops, were doing OK, said Scadden, whose work is largely funded through the NIH. But if we are left with pawns, we may lose resilience as we age.
Scaddens lab is using fluorescent tags to mark stem cells in different laboratory animals and then following them to see which ones do what work. It might be possible to boost populations of particularly potent players the queens to fight disease.
Were just at the beginning of this, Scadden said. I think that our sense of stem cells as this highly adaptable cell type may or may not be true. What we observe when we look at a population may not be the case with individuals.
The replacement parts scenario for stem cells hasnt gone away. One example is in the work of Harvard Stem Cell Institute co-director and Xander University Professor Douglas Melton, who has made significant progress growing replacement insulin-producing beta cells for treatment of diabetes.
Another is in Lees research. With support from the NIH, Lee is working to make heart muscle cells that can be used to repair damaged hearts.
Trials in this area have already begun, though with cells not genetically matched to the patient. In France, researchers are placing partially differentiated embryonic stem cells on the outside of the heart as a temporary aid to healing. Another trial, planned by researchers in Seattle, would inject fully differentiated heart muscle cells into a patient after a heart attack as a kind of very localized heart transplant.
Lees approach will take longer to develop. He wants to exploit the potential of stem cell biology to grow cells that are genetically matched to the patient. Researchers would reprogram cells taken from the patient into heart cells and, as in the Seattle experiment, inject them into damaged parts of the heart. The advantage of Lees approach is that because the cells would be genetically identical to the patient, he or she could avoid antirejection drugs for life.
What were thinking about is longer-term but more ambitious, Lee said. Avoiding immune suppression could change the way we think about things, because it opens the door to many decades of potential benefit.
Change has been a constant in Lees career, and he says theres no reason to think that will slow. Patient populations are older and more complex, disease profiles are changing, and the tools physicians have at their disposal are more powerful and more targeted.
Many of our patients today wouldnt be alive if not for the benefit of research advances, he said. Cardiology has completely changed in the last 25 years. If you think its not going to change even more in the next 25 years, youre probably wrong.
When Lee envisions the full potential of stem cell science, he sees treatments and replacement organs with the power to transform how we develop and grow old.
It may not be there for you and me, but for our children or their children, ultimately, regenerative biology and stem cell biology have that kind of potential, he said. We imagine a world where it doesnt matter what mutations or other things youre born with, because we can give you a good life.
Lees not guessing at future longevity. Hes not even sure extending life span beyond the current record, 122, is possible. Instead, he cites surveys that suggest that most Americans target 90 as their expectation for a long, healthy life.
Thats about a decade more than we get now in America, Lee said. We have work to do.
Go here to see the original:
How Old Can We Get? It Might be Written in Stem Cells - Bioscience Technology
- Bristol researcher awarded Women in Cell Biology Early Career Medal 2025 - University of Bristol - December 23rd, 2024 [December 23rd, 2024]
- Simple and effective embedding model for single-cell biology built from ChatGPT - Nature.com - December 9th, 2024 [December 9th, 2024]
- Distinguished investigator brings expertise in genetics and cell biology to Texas A&M AgriLife - AgriLife Today - October 26th, 2024 [October 26th, 2024]
- Institute of Molecular and Cell Biology (IMCB) - Agency for Science, Technology and Research (A*STAR) - October 13th, 2024 [October 13th, 2024]
- Joseph Gall, father of modern cell biology, dead at 96 - Carnegie Institution for Science - September 15th, 2024 [September 15th, 2024]
- A dual role of ERGIC-localized Rabs in TMED10-mediated unconventional protein secretion - Nature.com - June 27th, 2024 [June 27th, 2024]
- Yoshihiro Yoneda Appointed President of the International Human Frontier Science Program Organization - PR Newswire - June 27th, 2024 [June 27th, 2024]
- A new way to measure ageing and disease risk with the protein aggregation clock - EurekAlert - June 18th, 2024 [June 18th, 2024]
- How Flow Cytometry Spurred Cell Biology - The Scientist - June 18th, 2024 [June 18th, 2024]
- Building Cells from the Bottom Up - The Scientist - June 18th, 2024 [June 18th, 2024]
- From Code to Creature - The Scientist - June 18th, 2024 [June 18th, 2024]
- Adding intrinsically disordered proteins to biological ageing clocks - Nature.com - May 24th, 2024 [May 24th, 2024]
- Advancing Cell Biology and Cancer Research via Cell Culture and Microscopy Imaging Techniques - Lab Manager Magazine - May 24th, 2024 [May 24th, 2024]
- Study explores how different modes of cell division evolved in close relatives of fungi and animals - News-Medical.Net - May 24th, 2024 [May 24th, 2024]
- Solving the Wnt nuclear puzzle - Nature.com - May 24th, 2024 [May 24th, 2024]
- Prof. Jay Shendure Joins Somite Therapeutics as Scientific Co-founder - BioSpace - May 24th, 2024 [May 24th, 2024]
- One essential step for a germ cell, one giant leap for the future of reproductive medicine - EurekAlert - May 24th, 2024 [May 24th, 2024]
- May: academy-medical-sciences | News and features - University of Bristol - May 24th, 2024 [May 24th, 2024]
- Universal tool for tracking cell-to-cell interactions - ASBMB Today - May 24th, 2024 [May 24th, 2024]
- Close Encounters of Skin and Nerve Cells - The Scientist - April 15th, 2024 [April 15th, 2024]
- OrthoID: Decoding Cellular Conversations with Cutting-Edge Technology - yTech - April 15th, 2024 [April 15th, 2024]
- Impact of aldehydes on DNA damage and aging - EurekAlert - April 15th, 2024 [April 15th, 2024]
- Redefining Cell Biology: Nondestructive Genetic Insights With Raman Spectroscopy - SciTechDaily - March 29th, 2024 [March 29th, 2024]
- Scientists Unravel the Unusual Cell Biology Behind Toxic Algal Blooms - SciTechDaily - March 19th, 2024 [March 19th, 2024]
- Ancient retroviruses played a key role in the evolution of vertebrate brains - EurekAlert - February 21st, 2024 [February 21st, 2024]
- Singapore scientists uncover a crucial link between cholesterol synthesis and cancer progression - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Scientists uncover a way to "hack" neurons' internal clocks to speed up brain cell development - News-Medical.Net - February 4th, 2024 [February 4th, 2024]
- First atomic-scale 'movie' of microtubules under construction, a key process for cell division - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Small RNAs take on the big task of helping skin wounds heal better and faster with minimal scarring - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Shengjie Feng channels the powers of cryogenic electron microscopy - Newswise - January 19th, 2024 [January 19th, 2024]
- Study pinpoints breast cancer cells-of-origi - EurekAlert - January 19th, 2024 [January 19th, 2024]
- New analysis of cancer cells identifies 370 targets for smarter, personalized treatments - News-Medical.Net - January 19th, 2024 [January 19th, 2024]
- EU funding for pioneering research on the treatment of gliomas - EurekAlert - January 19th, 2024 [January 19th, 2024]
- The future of mRNA biology and AI convergence - Drug Target Review - December 22nd, 2023 [December 22nd, 2023]
- The future of artificial breast milk, according to one lab - Quartz - December 22nd, 2023 [December 22nd, 2023]
- Shedding new light on the hidden organization of the cytoplasm - News-Medical.Net - December 22nd, 2023 [December 22nd, 2023]
- Bugs that help bugs: How environmental microbes boost fruit fly reproduction - EurekAlert - December 22nd, 2023 [December 22nd, 2023]
- Cells Move in Groups Differently Than They Do When Alone - NYU Langone Health - December 14th, 2023 [December 14th, 2023]
- Cells move in groups differently than they do when alone - EurekAlert - December 14th, 2023 [December 14th, 2023]
- Seattle Hub for Synthetic Biology plans to transform cells into tiny recording devices - GeekWire - December 14th, 2023 [December 14th, 2023]
- Virginia Tech and Weizmann Institute of Science tackle cell ... - Virginia Tech - October 16th, 2023 [October 16th, 2023]
- Vast diversity of human brain cell types revealed in trove of new ... - Spectrum - Autism Research News - October 16th, 2023 [October 16th, 2023]
- Singamaneni to develop advanced protein imaging method - The ... - Washington University in St. Louis - October 16th, 2023 [October 16th, 2023]
- Researchers find certain cancers can activate 'enhancer' in the ... - University of Toronto - October 16th, 2023 [October 16th, 2023]
- 2023 Hettleman Prizes awarded to five exceptional early-career ... - UNC Research - October 16th, 2023 [October 16th, 2023]
- Faeth Therapeutics Announces National Academy of Medicine ... - BioSpace - October 16th, 2023 [October 16th, 2023]
- From Migrant Farm Worker to Duke Scientist, Everardo Macias ... - Duke University School of Medicine - October 16th, 2023 [October 16th, 2023]
- Finding the golden ticket? Cyclin T1 is required for HIV-1 latency ... - Fred Hutch News Service - October 16th, 2023 [October 16th, 2023]
- Spermidine May Improve Egg Health and Fertility - Lifespan.io News - October 16th, 2023 [October 16th, 2023]
- Molecule discovered that grows bigger and stronger muscles - Earth.com - October 16th, 2023 [October 16th, 2023]
- SGIOY: 3 Biotech Stocks With Potential Future Gains - StockNews.com - October 16th, 2023 [October 16th, 2023]
- Association for Molecular Pathology Publishes Best Practice ... - Technology Networks - October 16th, 2023 [October 16th, 2023]
- A new cell type with links to gastric cancer steps up for its mugshot - Fred Hutch News Service - October 16th, 2023 [October 16th, 2023]
- Programmed cell death may be 1.8 billion year - EurekAlert - October 16th, 2023 [October 16th, 2023]
- New study confirms presence of flesh-eating and illness-causing ... - Science Daily - October 16th, 2023 [October 16th, 2023]
- New Institute for Immunologic Intervention (3i) at the Hackensack ... - Hackensack Meridian Health - October 16th, 2023 [October 16th, 2023]
- Post-doctoral Fellow in Cancer Biology in the Department of ... - Times Higher Education - October 16th, 2023 [October 16th, 2023]
- Scientists uncover key enzymes involved in bacterial pathogenicity - News-Medical.Net - October 16th, 2023 [October 16th, 2023]
- B cell response after influenza vaccine in young and older adults - EurekAlert - October 16th, 2023 [October 16th, 2023]
- Post-doctoral researcher in yeast cell biology job with UNIVERSITY ... - Times Higher Education - April 8th, 2023 [April 8th, 2023]
- expert reaction to study looking at creating embryo-like structures ... - Science Media Centre - April 8th, 2023 [April 8th, 2023]
- UCF Bone Researcher Receives National Recognition - UCF - April 8th, 2023 [April 8th, 2023]
- PhenomeX to Participate in American Association of Cancer ... - BioSpace - April 8th, 2023 [April 8th, 2023]
- Inland Empire stem-cell therapy gets $2.9 million booster - UC Riverside - April 8th, 2023 [April 8th, 2023]
- New finding in roundworms upends classical thinking about animal cell differentiation - News-Medical.Net - April 8th, 2023 [April 8th, 2023]
- Biology's unsolved chicken-or-egg problem: Where did life come from? - Big Think - April 8th, 2023 [April 8th, 2023]
- Azacitidine in Combination With Trametinib May Be Effective for ... - The ASCO Post - April 8th, 2023 [April 8th, 2023]
- Researchers clear the way for well-rounded view of cellular defects - Phys.org - April 8th, 2023 [April 8th, 2023]
- We were dancing around the lab cellular identity discovery has potential to impact cancer treatments - Newswise - April 8th, 2023 [April 8th, 2023]
- Environmental stressors' effect on gene expression explored in lecture - Environmental Factor Newsletter - April 8th, 2023 [April 8th, 2023]
- RNA therapy restores gene function in monkeys modeling ... - Spectrum - Autism Research News - April 8th, 2023 [April 8th, 2023]
- Traumatic brain injury interferes with immune system cells' recycling ... - Science Daily - April 8th, 2023 [April 8th, 2023]
- Lab-grown fat could give cultured meat real flavor and texture - EurekAlert - April 8th, 2023 [April 8th, 2023]
- Researchers reveal mechanism of polarized cortex assembly in migrating cells - Phys.org - April 8th, 2023 [April 8th, 2023]
- Probing Selfish Centromeres Unveils an Evolutionary Arms Race - The Scientist - April 8th, 2023 [April 8th, 2023]
- Meet the 2023 Outstanding Graduating Students - UMaine News ... - University of Maine - April 8th, 2023 [April 8th, 2023]
- The Worlds Sexiest Fragrance Unveiled, But Its Not For You - Revyuh - April 8th, 2023 [April 8th, 2023]
- City of Hope appoints John D. Carpten, Ph.D., as director of its ... - BioSpace - April 8th, 2023 [April 8th, 2023]
- Modernized Algorithm Predicts Drug Targets for SARS-CoV-2, Other ... - GenomeWeb - April 8th, 2023 [April 8th, 2023]
- BU researcher wins $3.9 million NIH grant to develop novel therapeutic modalities for Alzheimer's - News-Medical.Net - April 8th, 2023 [April 8th, 2023]