Ling Pan scite author profile

SUMMARY Neuronal activity causes the rapid expression of immediate early genes that are crucial for experience-driven changes to synapses, learning, and memory. Here, using both molecular and genome-wide next-generation sequencing methods, we report that neuronal activity stimulation triggers the formation of DNA double strand breaks (DSBs) in the promoters of a subset of early-response genes, including Fos, Npas4, and Egr1. Generation of targeted DNA DSBs within Fos and Npas4 promoters is sufficient to induce their expression even in the absence of an external stimulus. Activity-dependent DSB formation is likely mediated by the type II topoisomerase, Topoisomerase IIβ (Topo IIβ), and knockdown of Topo IIβ attenuates both DSB formation and early-response gene expression following neuronal stimulation. Our results suggest that DSB formation is a physiological event that rapidly resolves topological constraints to early-response gene expression in neurons.

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A novel pathway regulates memory and plasticity via SIRT1 and miR-134

Gao

Wang

Mao

et al. 2010

Nature

857

691

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The NAD-dependent deacetylase Sir2 was initially identified as a mediator of replicative lifespan in budding yeast and was subsequently shown to modulate longevity in worms and flies1,2. Its mammalian homologue, SIRT1, appears to have evolved complex systemic roles in cardiac function, DNA repair, and genomic stability. Recent studies suggest a functional relevance of SIRT1 in normal brain physiology and neurological disorders. However, it is unknown if SIRT1 plays a role in higher-order brain functions. We report that SIRT1 modulates synaptic plasticity and memory formation via a microRNA-mediated mechanism. Activation of SIRT1 enhances, while its loss-of-function impairs, synaptic plasticity. Surprisingly, these effects were mediated via post-transcriptional regulation of CREB expression by a brain-specific microRNA, miR-134. SIRT1 normally functions to limit expression of miR-134 via a repressor complex containing the transcription factor YY1, and unchecked miR-134 expression following SIRT1 deficiency results in the down-regulated expression of CREB and BDNF, thereby impairing synaptic plasticity. These findings demonstrate a novel role for SIRT1 in cognition and a previously unknown microRNA-based mechanism by which SIRT1 regulates these processes. Furthermore, these results describe a separate branch of SIRT1 signaling, in which SIRT1 has a direct role in regulating normal brain function in a manner that is disparate from its cell survival functions, demonstrating its value as a potential therapeutic target for the treatment of CNS disorders.

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Interaction of FUS and HDAC1 regulates DNA damage response and repair in neurons

et al. 2013

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SUMMARY Defects in DNA repair have been extensively linked to neurodegenerative diseases, but the exact mechanisms remain poorly understood. Here, we report that FUS, a RNA/DNA binding protein linked to amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD), plays a pivotal role in DNA damage response (DDR). We show that the function of FUS in DDR involves a direct interaction with histone deacetylase 1 (HDAC1), and that the recruitment of FUS to double stranded break (DSB) sites is important for proper DDR signaling. Remarkably, FUS proteins carrying familial ALS (fALS) mutations are defective in DDR and DNA repair, and show a diminished interaction with HDAC1. Moreover, increased DNA damage was also observed in human ALS patients harboring FUS mutations. Our findings suggest that an impaired DDR and DNA repair may contribute to the pathogenesis of neurodegenerative diseases linked to FUS mutations.

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DNA Damage and Its Links to Neurodegeneration

Madabhushi

Pan

Tsai

2014

Neuron

495

426

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The integrity of our genetic material is under constant attack from numerous endogenous and exogenous agents. The consequences of a defective DNA damage response are well studied in proliferating cells, especially with regards to the development of cancer, yet its precise roles in the nervous system are relatively poorly understood. Here we attempt to provide a comprehensive overview of the consequences of genomic instability in the nervous system. We highlight the neuropathology of congenital syndromes that result from mutations in DNA repair factors and underscore the importance of the DNA damage response in neural development. In addition, we describe the findings of recent studies, which reveal that a robust DNA damage response is also intimately connected to aging and the manifestation of age-related neurodegenerative disorders such as Alzheimer’s disease and amyotrophic lateral sclerosis.

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The prevalence, awareness, treatment and control of dyslipidemia among adults in China

et al. 2016

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SIRT1 collaborates with ATM and HDAC1 to maintain genomic stability in neurons

et al. 2013

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Summary Defects in DNA repair have been linked to cognitive decline with age and neurodegenerative disease. Yet the mechanisms that protect neurons from genotoxic stress remain largely obscure. In this report, we characterize the roles of the NAD+-dependent deacetylase, SIRT1, in the neuronal response to DNA double-strand breaks (DSBs). We show that SIRT1 is rapidly recruited to DSBs in postmitotic neurons, where it exhibits a synergistic relationship with ATM. SIRT1 recruitment to breaks is ATM-dependent; however, SIRT1 also stimulates ATM auto-phosphorylation and activity and stabilizes ATM at DSB sites. Upon DSB induction, SIRT1 also binds the neuroprotective class I histone deacetylase, HDAC1. We show that SIRT1 deacetylates HDAC1 and stimulates its enzymatic activity, which is necessary for DSB repair through the nonhomologous end-joining (NHEJ) pathway. HDAC1 mutants that mimic a constitutively acetylated state render neurons more susceptible to DNA damage, whereas pharmacological SIRT1 activators that promote HDAC1 deacetylation also reduce DNA damage in two mouse models of neurodegeneration. We propose that SIRT1 is an apical transducer of the DSB response and that SIRT1 activation offers an important therapeutic avenue in neurodegeneration.

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Excessive miR-25-3p maturation via N6-methyladenosine stimulated by cigarette smoke promotes pancreatic cancer progression

et al. 2019

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N 6 -methyladenosine (m 6 A) modification is an important mechanism in miRNA processing and maturation, but the role of its aberrant regulation in human diseases remained unclear. Here, we demonstrate that oncogenic primary microRNA-25 (miR-25) in pancreatic duct epithelial cells can be excessively maturated by cigarette smoke condensate (CSC) via enhanced m 6 A modification that is mediated by NF-κB associated protein (NKAP). This modification is catalyzed by overexpressed methyltransferase-like 3 (METTL3) due to hypomethylation of the METTL3 promoter also caused by CSC. Mature miR-25, miR-25-3p, suppresses PH domain leucine-rich repeat protein phosphatase 2 (PHLPP2), resulting in the activation of oncogenic AKT-p70S6K signaling, which provokes malignant phenotypes of pancreatic cancer cells. High levels of miR-25-3p are detected in smokers and in pancreatic cancers tissues that are correlated with poor prognosis of pancreatic cancer patients. These results collectively indicate that cigarette smoke-induced miR-25-3p excessive maturation via m 6 A modification promotes the development and progression of pancreatic cancer.

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Ling Pan

Prevalence of chronic kidney disease in China: a cross-sectional survey

Activity-Induced DNA Breaks Govern the Expression of Neuronal Early-Response Genes

A novel pathway regulates memory and plasticity via SIRT1 and miR-134

Interaction of FUS and HDAC1 regulates DNA damage response and repair in neurons

DNA Damage and Its Links to Neurodegeneration

The prevalence, awareness, treatment and control of dyslipidemia among adults in China

SIRT1 collaborates with ATM and HDAC1 to maintain genomic stability in neurons

Excessive miR-25-3p maturation via N6-methyladenosine stimulated by cigarette smoke promotes pancreatic cancer progression

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