Open access · OA via Europe PMC

Partial Reprogramming Is Conserved from Insect to Mammal.

Tolwinski NS, Fong S, Shankar S, Gruber J.

Cells · 2026

Cellular senescence Stem-cell exhaustion Partial reprogramming (OSK) Senolytics Mouse Review

Abstract

As we become older, systems throughout the body gradually decline in function. Contributing factors include the accumulation of senescent cells and the dysfunction and exhaustion of stem and progenitor cells. A promising approach to mitigate these changes and enhance cellular function in aged animals is the discovery that differentiated cells retain plasticity, enabling them to revert to pluripotent states when exposed to Yamanaka factors. This method has shown promise in models of rapid aging, and recent studies have demonstrated notable life extension in both flies and mice. These findings, along with the development of senolytics and aging clocks, could revolutionize aging research and interventions. Here, we review recent discoveries in the field and propose new directions for intervention discovery.

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Provenance

Source: Europe PMC
DOI: 10.3390/cells15020168
Canonical: link ↗
Fetched: 2026-05-31 MST

Cite this

APA

NS, T., S, F., S, S., & J., G. (2026). Partial Reprogramming Is Conserved from Insect to Mammal. <em>Cells</em>. https://doi.org/10.3390/cells15020168

Vancouver

NS T, S F, S S, J. G. Partial Reprogramming Is Conserved from Insect to Mammal. Cells. 2026. doi:10.3390/cells15020168.

BibTeX

@article{tolwinski2026Partia, title = {Partial Reprogramming Is Conserved from Insect to Mammal.}, author = {Tolwinski NS and Fong S and Shankar S and Gruber J.}, journal = {Cells}, year = {2026}, doi = {10.3390/cells15020168}, }