What Is Apoptosis and Why Is It Inhibited by the Most Important Tumor Suppressor (p53)?
Razmik Mirzayans

TL;DR
This paper challenges the assumption that apoptosis is a tumor suppression mechanism and clarifies p53's role in inhibiting apoptosis to prevent tumor repopulation.
Contribution
It corrects long-standing misconceptions about apoptosis and p53's role in cancer therapy.
Findings
Apoptosis in solid tumors can lead to anastasis and tumor repopulation.
p53 inhibits apoptosis by upregulating anti-apoptotic proteins.
Increased apoptosis in tumors is linked to cancer aggressiveness.
Abstract
Anticancer strategies targeting the DNA damage response are largely centered on a number of false hypotheses. For example, engaging apoptosis in solid tumors is universally assumed to represent a tumor suppression response. But what is “apoptosis”, really? Time-lapse microscopy and other single-cell assays have revealed that engaging apoptosis in solid tumor cells is accompanied by anastasis, the homeostatic process of cell recovery from late stages of apoptosis, even after the formation of apoptotic bodies. Furthermore, apoptotic cells secrete a variety of prosurvival factors that contribute to overall tumor repopulation. Not surprisingly, numerous clinical studies reported since the 1990s have demonstrated that increased apoptosis in solid tumors is associated with cancer aggressiveness rather than representing a favorable clinical outcome. Another major false hypothesis pertains to…
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Taxonomy
TopicsCell death mechanisms and regulation · Cancer-related Molecular Pathways · NF-κB Signaling Pathways
