The Role of γH2AX in Replication Stress-induced Carcinogenesis: Possible Links and Recent Developments

FRAGKOS, MICHALIS; CHOLEZA, MARIA; PAPADOPOULOU, PARASKEVI

doi:10.21873/cdp.10266

CDP

2023

DOI: 10.21873/cdp.10266

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The Role of γH2AX in Replication Stress-induced Carcinogenesis: Possible Links and Recent Developments

MICHALIS FRAGKOS,

MARIA CHOLEZA,

PARASKEVI PAPADOPOULOU

Abstract: Cancer is a condition characterized by genomic instability and gross chromosomal aberrations. The inability of the cell to timely and efficiently complete its replication cycle before entering mitosis is one of the most common causes of DNA damage and carcinogenesis. Phosphorylation of histone 2AX (H2AX) on S139 (γH2AX) is an indispensable step in the response to DNA damage, as it is required for the assembly of repair factors at the sites of damage. γH2AX is also a marker of DNA replication stress, mainly due… Show more

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The existing literature on neurodegenerative diseases (NDDs) reveals a common pathological feature: the accumulation of misfolded proteins. However, the heterogeneity in disease onset mechanisms and the specific brain regions affected complicates the understanding of the diverse clinical manifestations of individual NDDs. Dementia, a hallmark symptom across various NDDs, serves as a multifaceted denominator, contributing to the clinical manifestations of these disorders. There is a compelling hypothesis that therapeutic strategies capable of mitigating misfolded protein accumulation and disrupting ongoing pathogenic processes may slow or even halt disease progression. Recent research has linked disease‐associated microglia to their transition into a senescent state—characterized by irreversible cell cycle arrest—in aging populations and NDDs. Although senescent microglia are consistently observed in NDDs, few studies have utilized animal models to explore their role in disease pathology. Emerging evidence from experimental rat models suggests that disease‐associated microglia exhibit characteristics of senescence, indicating that deeper exploration of microglial senescence could enhance our understanding of NDD pathogenesis and reveal novel therapeutic targets. This review underscores the importance of investigating microglial senescence and its potential contributions to the pathophysiology of NDDs, including Alzheimer's disease, Parkinson's disease, Huntington's disease, and amyotrophic lateral sclerosis. Additionally, it highlights the potential of targeting microglial senescence through iron chelation and senolytic therapies as innovative approaches for treating age‐related NDDs.

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The Role of γH2AX in Replication Stress-induced Carcinogenesis: Possible Links and Recent Developments

Cited by 5 publications

References 71 publications

Microglial senescence in neurodegeneration: Insights, implications, and therapeutic opportunities

Microglial senescence in neurodegeneration: Insights, implications, and therapeutic opportunities

NSC-3852 synergistically enhances the cytotoxicity of olaparib in oral squamous cell carcinoma

Targeting bromodomian-containing protein 8 (BRD8): An advanced tool to interrogate BRD8

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