Unleashing endogenous regeneration by senolytics
Navneet K. Boddu, Santosh Kesari, Brandy A. Chavez, Anil Bajnath, Maxim D. Wheatley, Qianyi Zhang, Yiqiao Wang, Joseph Ellis, Emma Lin, Jorge Genovese, Maria Fatima N. Robles

TL;DR
This paper explores how removing senescent cells with senolytics can boost the body's natural ability to regenerate tissues, offering new hope for treating chronic diseases.
Contribution
The paper introduces a novel perspective on aging-related regeneration decline, linking it to senescent cells and proposing senolytics as a way to enhance tissue repair.
Findings
Senescent cells secrete factors that inhibit endogenous regeneration.
Senolytic therapies may restore progenitor cell function by removing these cells.
Combining senolytics with regenerative interventions could enhance tissue repair.
Abstract
Regenerative medicine holds significant promise for the treatment of chronic diseases by harnessing the body’s innate capacity to repair and restore physiological function. However, regenerative activity declines markedly with age, a phenomenon traditionally attributed to depletion/exhaustion of progenitor cell pools. We propose an alternative, complementary mechanism: that age-associated accumulation of senescent cells contributes to impaired regeneration through the secretion of “anti-regenerative” factors. Senolytic therapies, which selectively eliminate senescent cells, may therefore exert therapeutic effects in part by de-repressing endogenous regenerative pathways. If senolytics restore progenitor cell function, their use in combination with interventions known to stimulate endogenous progenitor activity, yet not fully optimized for clinical translation, may provide a powerful…
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Taxonomy
TopicsTelomeres, Telomerase, and Senescence · Pluripotent Stem Cells Research · Mesenchymal stem cell research
