A 2023 rodent study investigated Nrf2’s capacity to cause cell senescence:

“The KEAP1-NRF2 pathway is a stress response pathway which has been maintained by natural selection due to its ability to benefit survival of the host organism. One important distinction between this pathway and other stress response pathways such as p53, is that chronic activation of NRF2 has not been associated directly with a mechanism to promote cell death if survival of the cell becomes deleterious to the host.

Some unexplained observations suggest that NRF2 activation has additional physiological outputs which have yet to be described. For example, despite the fact that oxidative stress plays an important role in etiology of many aging-related diseases, genetic activation of Nrf2 in mice is associated with decreased lifespan.

We found that NRF2 functions to prime cells to become senescent in response to irreparable damage. In diseased states, NRF2 promotes transcriptional activation of a specific subset of the senescence-associated secretory phenotype (SASP) gene program, which we have named the NRF2-induced secretory phenotype (NISP).

As Nrf2 also promotes monocyte and macrophage invasion in mouse disease models of steatohepatitis, colitis, pancreatitis, and autoimmune nephritis, we would posit that it represents a central component of the Nrf2 response in damaged epithelial tissues, and that the NRF2-NISP-Immune recruitment model represents a framework through which these disease phenotypes can be understood.

This pathway represents the final stage of the oxidative stress response, as it allows cells to be safely removed if macromolecular damage caused by the original stressor is so extensive that it is beyond the repair capacity of the cell.”

https://www.sciencedirect.com/science/article/pii/S221323172300246X “A NRF2-induced secretory phenotype activates immune surveillance to remove irreparably damaged cells”

Continued in Part 2.

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Ripe wild grapes