"Blagosklonny's work remains an enduring inspiration, paving the way toward treating aging as a modifiable condition."
BUFFALO, NY- January 15, 2025 – A new priority review was published in Aging (listed by MEDLINE/PubMed as "Aging (Albany NY)" and "Aging-US" by Web of Science) on January 12, 2025, entitled " Mikhail 'Misha' Blagosklonny's enduring legacy in geroscience: the hyperfunction theory and the therapeutic potential of rapamycin ."
This review, written by Dr. David A. Barzilai, from Geneva College of Longevity Science and Healthspan Coaching LLC , summarizes the outstanding scientific contributions of the late Dr. Mikhail "Misha" Blagosklonny , Founding Editor-in-Chief of Aging . Dr. Blagosklonny's research changed how researchers and scientists think about aging by introducing a new theory and promoting the use of rapamycin, an mTOR inhibitor, to slow aging and extend healthy life. Published shortly after his passing, this review honors Dr. Blagosklonny's work and highlights how it challenged the traditional belief that aging is caused mainly by accumulated damage in the body.
Instead of describing aging as an accumulation of cellular damage, Dr. Blagosklonny's Hyperfunction Theory redefined it as an ongoing biological process that goes into "overdrive" and leads to age-related diseases such as cancer, cardiovascular problems, and memory loss.
He identified the mTOR pathway—an important growth signal in the body—as a key driver of this process. His research showed that by using rapamycin, which slows down mTOR activity, it is possible to reduce aging-related diseases and promote longer, healthier lives.
Research supports many of Dr. Blagosklonny's predictions about rapamycin's benefits. Studies show that it can improve immune responses in older adults, making vaccines more effective. Other studies suggest rapamycin may help protect the heart, reduce harmful brain inflammation, and prevent the buildup of proteins linked to Alzheimer's disease. Dr. Blagosklonny also proposed that rapamycin could reduce cancer risk by preventing excessive growth signals that contribute to tumor development.
Believing in rapamycin's potential as a "longevity drug," Dr. Blagosklonny advocated for its careful use with medical supervision and precise dosing. He called for further research and even envisioned "longevity clinics" where personalized anti-aging treatments could be provided. The review also highlights ongoing scientific efforts to refine rapamycin therapies and explore new options with fewer side effects.
In conclusion, Dr. Blagosklonny has inspired a global shift toward viewing aging as a condition that can be managed rather than an inevitable decline. His research has left a legacy in the fields of geroscience, aging, and cancer prevention.
"This contribution will undoubtedly be remembered in the coming decades and beyond as an innovative contribution to our theoretical grasp of the aging process and a foundation for exploring effective therapeutic approaches."
Read the full paper: DOI: https://doi.org/10.18632/aging.206189
