PO.MCB04.02 · 分子与细胞生物学
Senescence-associated secretory phenotype ​drives PGCC‘s lifecycles and blastomere-like reprogramming to promote therapeutic resistance
作者与单位
摘要 Abstract
Background: Polyploid giant cancer cells (PGCCs) are stress-responsive tumor subpopulations linked to treatment resistance and poor prognosis. While prior studies have characterized their senescent-like phenotypes and capacity for developmental reprogramming, two core questions remain poorly understood, including the temporal dynamics governing PGCC's lifecycle progression and the precise mechanistic role of senescence in shaping their biology.
Methods: We induced PGCC formation using vincristine (VCR), a mitotic destabilizer, and tracked their lifecycle via live-cell fluorescence imaging. We assessed proliferative activity, EMT, blastomere-like features, and differentiation potential in vitro , alongside tumorigenicity in vivo . Mechanistically, we interrogated SASP cytokines using genetic silencing and pharmacologic inhibition.
Results: VCR activated an endoreplication-based lifecycle in PGCCs, replacing canonical mitosis. PGCCs progressively exhibited reduced proliferation but enhanced EMT, progressive blastomere-like stemness, and multilineage differentiation. Both PGCC populations and their progeny acquired time/dose-dependent malignant traits and tumorigenic capacity. PGCCs partially adopted senescence, marked by elevated SASP cytokines. Silencing IL1beta/IL6/IL8 or inhibiting their receptors suppressed PGCC formation, budding, EMT, and stemness, thus identifying SASP as critical for PGCC homeostasis and fate.
Conclusion: Our work delineates PGCCs' lifecycle evolution and establishes SASP as a key driver of their lifecycle and the emergence of aggressive, therapy-resistant progeny, bridging senescence, developmental reprogramming, and cancer progression.
利益披露 Disclosure
Z. Zhang, None..
X. Li, None..
X. Tian, None..
L. Deng, None..
J. Dong, None..
J. Liu, None.