Chi-Yuan Chen scite author profile

Summary The mechanisms whereby chromatin structure and cell cycle progression are restored after DNA repair are largely unknown. We show that chromatin is reassembled following double-strand break (DSB) repair and that this requires the histone chaperone Asf1. Absence of Asf1 causes persistent activation of the DNA damage checkpoint after DSB repair as a consequence of defective checkpoint recovery, leading to cell death. The contribution of Asf1 towards chromatin assembly after DSB repair is due to its role in promoting acetylation of free histone H3 on lysine 56 (K56) by the histone acetyl transferase Rtt109, because mimicking acetylation of K56 bypasses the requirement for Asf1 for chromatin reassembly and checkpoint recovery after repair, while mutations that prevent K56 acetylation block chromatin reassembly after repair. These results indicate that restoration of the chromatin following DSB repair is driven by acetylated H3 K56 and that this is a signal for the completion of repair.

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Nucleosome loss leads to global transcriptional up-regulation and genomic instability during yeast aging

Hu¹,

et al. 2014

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All eukaryotic cells divide a finite number of times, although the mechanistic basis of this replicative aging remains unclear. Replicative aging is accompanied by a reduction in histone protein levels, and this is a cause of aging in budding yeast. Here we show that nucleosome occupancy decreased by 50% across the whole genome during replicative aging using spike-in controlled micrococcal nuclease digestion followed by sequencing. Furthermore, nucleosomes became less well positioned or moved to sequences predicted to better accommodate histone octamers. The loss of histones during aging led to transcriptional induction of all yeast genes. Genes that are normally repressed by promoter nucleosomes were most induced, accompanied by preferential nucleosome loss from their promoters. We also found elevated levels of DNA strand breaks, mitochondrial DNA transfer to the nuclear genome, large-scale chromosomal alterations, translocations, and retrotransposition during aging.

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GSK3β controls epithelial–mesenchymal transition and tumor metastasis by CHIP-mediated degradation of Slug

et al. 2013

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Glycogen synthase kinase 3 beta (GSK3β) is highly inactivated in epithelial cancers and is known to inhibit tumor migration and invasion. The zinc-finger-containing transcriptional repressor, Slug, represses E-cadherin transcription and enhances epithelial-mesenchymal transition (EMT). In this study, we find that the GSK3β-pSer9 level is associated with the expression of Slug in non-small cell lung cancer (NSCLC). GSK3β-mediated phosphorylation of Slug facilitates Slug protein turnover. Proteomic analysis reveals that the C-terminus of Hsc70-interacting protein (CHIP) interacts with wild-type Slug (wtSlug). Knockdown of CHIP stabilizes the wtSlug protein and reduces Slug ubiquitylation and degradation. In contrast, nonphosphorylatable Slug-4SA is not degraded by CHIP. The accumulation of nondegradable Slug may further lead to the repression of E-cadherin expression and promote cancer cell migration, invasion, and metastasis. Our findings provide evidence of a de novo GSK3β-CHIP-Slug pathway that may be involved in the progression of metastasis in lung cancer.

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Baculovirus as a gene delivery vector: Recent understandings of molecular alterations in transduced cells and latest applications

Chen

Lin

Chen

et al. 2011

Biotechnology Advances

128

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Baculovirus infects insects in nature and is non-pathogenic to humans, but can transduce a broad range of mammalian and avian cells. Thanks to the biosafety, large cloning capacity, low cytotoxicity and non-replication nature in the transduced cells as well as the ease of manipulation and production, baculovirus has gained explosive popularity as a gene delivery vector for a wide variety of applications. This article extensively reviews the recent understandings of the molecular mechanisms pertinent to baculovirus entry and cellular responses, and covers the latest advances in the vector improvements and applications, with special emphasis on antiviral therapy, cancer therapy, regenerative medicine and vaccine.

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Chi-Yuan Chen

Acetylated Lysine 56 on Histone H3 Drives Chromatin Assembly after Repair and Signals for the Completion of Repair

Nucleosome loss leads to global transcriptional up-regulation and genomic instability during yeast aging

GSK3β controls epithelial–mesenchymal transition and tumor metastasis by CHIP-mediated degradation of Slug

Baculovirus as a gene delivery vector: Recent understandings of molecular alterations in transduced cells and latest applications

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