AI Article Synopsis
- - The identification of gasdermin as a key player in pyroptosis has expanded research from primarily immune cells to its roles in various biological processes, including cancer.
- - Cancer cell pyroptosis (CCP) has emerged as an important area of study in oncology, showing potential to enhance anti-tumor immunity and improve treatments by heating the tumor microenvironment (TME).
- - Despite its promising implications, CCP research is still new, and the understanding of how gasdermins are expressed, regulated, and activated remains incomplete; the effects of immune cell pyroptosis (ICP) and CCP on tumor suppression depend on factors like duration and cell type.
Article Abstract
The identification of gasdermin as the executor of pyroptosis has opened new avenues for the study of this process. Although pyroptosis research has mainly focused on immune cells since it was discovered three decades ago, accumulating evidence suggests that pyroptosis plays crucial roles in many biological processes. One example is the discovery of gasdermin-mediated cancer cell pyroptosis (CCP) which has become an important and frontier field in oncology. Recent studies have shown that CCP induction can heat tumor microenvironment (TME) and thereby elicit the robust anti-tumor immunity to suppress tumor growth. As a newly discovered form of tumor cell death, CCP offers promising opportunities for improving tumor treatment and developing new drugs. Nevertheless, the research on CCP is still in its infancy, and the molecular mechanisms underlying the expression, regulation and activation of gasdermins are not yet fully understood. In this review, we summarize the recent progress of gasdermin research in cancer area, and propose that the anti-tumor effect of immune cell pyroptosis (ICP) and CCP depends on their duration, intensity, and the type of cells undergoing pyroptosis within TME.
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| http://dx.doi.org/10.1016/j.smim.2023.101833 | DOI Listing |
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