Project description:Cellular senescence is a heterogeneous phenotype, driven by diverse effector programs, which result in irreversible growth arrest, DNA damage, production of complex secretome and metabolic reprogramming1,2. Here we show that in liver-specific Setd8-KO mice, after mitogen treatment, a significant number of hepatocytes become senescent, have enlarged nuclei and increased nuclear envelope plasticity. Despite cell cycle arrest, senescent cells in Setd8-deficient mice retain inherent capability to replicate DNA, resulting in endoreduplication-driven chromosomal hyperploidy. Remarkably, the enlarged nuclei had multiple nuclear engulfments progressing to the generation of large intranuclear vesicles surrounded by nuclear lamina. These vesicles had externally-positioned membrane-associated chromatin, contained glycogen, various cytoplasmic proteins, even whole organelles like ER or mitochondria. We term this process “endonucleosis”. Intranuclear vesicles were absent in hepatocytes of Setd8/Atg5 double knockout mice, suggesting that the process requires the canonical autophagy machinery. Endonucleosis and hyperploidization are temporary, early features of senescence. Larger vesicles were split into microvesicles over time and were eventually eliminated, while large nuclei were segregated into smaller ones without mitosis. The results reveal a unique senescence phenotype with several unusual features, such as hyperploidy, endonucleosis and nuclear segregation, all of which are anticipated to function as parts of survival mechanisms to escape necrotic death.

Project description:AP-1 Imprints a Reversible Transcriptional Programme of Senescent Cells

Project description:AP-1 Imprints a Reversible Transcriptional Programme of Senescent Cells

Project description:AP-1 imprints a reversible transcriptional programme of senescent cells

Project description:AP-1 Imprints a Reversible Transcriptional Programme of Senescent Cells

Project description:Functional Antagonism Between CELF and Mbnl Proteins in Cytoplasm and Nucleus

Project description:N6-methyladenosine (m6A) is the most prevalent modification of eukaryotic cells st post-transcriptional level. The goals of this study are to compare the N6-methyladenosine modification of transcripts in normal and senescent nucleus pulposus cells using Me-RIP-seq

Project description:Analysis of nucleus and cytoplasm-specific HNRNPK binding on SINEUP RNA by seCLIP

Project description:IKKα signaling in the nucleus or cytoplasm of keratinocytes leads to opposite skin phenotypes.

Project description:Differential m6A, m6Am, and m1A Demethylation Mediated by FTO in Cell Nucleus and Cytoplasm