Interaction of nNOS with PSD-95 Negatively Controls Regenerative Repair after Stroke
Chun-Xia Luo,Yu-Hui Lin,Xiao-Dan Qian,Ying Tang,Hai-Hui Zhou,Xing Jin,Huan-Yu Ni,Feng-Yun Zhang,Cheng Qin,Fei Li,Yu Zhang,Hai-Yin Wu,Lei Chang,Dong-Ya Zhu +13 more
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TLDR
It is reported that interaction of neuronal nitric oxide synthase (nNOS) with the protein postsynaptic density-95 (PSD-95) negatively controls regenerative repair after stroke in rats and can serve as a target for regenerative Repair after stroke.Abstract:
Stroke is a major public health concern. The lack of effective therapies heightens the need for new therapeutic targets. Mammalian brain has the ability to rewire itself to restore lost functionalities. Promoting regenerative repair, including neurogenesis and dendritic remodeling, may offer a new therapeutic strategy for the treatment of stroke. Here, we report that interaction of neuronal nitric oxide synthase (nNOS) with the protein postsynaptic density-95 (PSD-95) negatively controls regenerative repair after stroke in rats. Dissociating nNOS–PSD-95 coupling in neurons promotes neuronal differentiation of neural stem cells (NSCs), facilitates the migration of newborn cells into the injured area, and enhances neurite growth of newborn neurons and dendritic spine formation of mature neurons in the ischemic brain of rats. More importantly, blocking nNOS–PSD-95 binding during the recovery stage improves stroke outcome via the promotion of regenerative repair in rats. Histone deacetylase 2 in NSCs may mediate the role of nNOS–PSD-95 association. Thus, nNOS–PSD-95 can serve as a target for regenerative repair after stroke.read more
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Journal ArticleDOI
Neuroinflammation: friend and foe for ischemic stroke
TL;DR: How neuroinflammation has both beneficial as well as detrimental roles and recent therapeutic strategies to combat pathological responses are discussed and the time-dependent role of inflammatory factors could help in developing new diagnostic, prognostic, and therapeutic neuroprotective strategies for post-stroke inflammation.
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AMPA Receptors as Therapeutic Targets for Neurological Disorders.
TL;DR: Recent advances in basic biomedical research are significantly increasing knowledge of AMPA receptor structure, binding sites, and interactions with auxiliary proteins, and the large complex of postsynaptic proteins that interact with AMPAceptor subunits have been shown to control AMPA receptors insertion, location, pharmacology, synaptic transmission, and plasticity.
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Pretreatment of mesenchymal stem cells with angiotensin II enhances paracrine effects, angiogenesis, gap junction formation and therapeutic efficacy for myocardial infarction.
TL;DR: Compared with the MSC group, pretreatment of MSCs with Ang II resulted in better cardiac function, less cardiac fibrosis, smaller infarct size, and higher expression of VEGF and Von Willebrand Factor in ischemic myocardium, but no promotion of cardiomyocyte-like differentiation of M SCs.
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PDZ Domains as Drug Targets.
Nikolaj R. Christensen,Jelena Čalyševa,Jelena Čalyševa,Eduardo Felipe Alves Fernandes,Susanne Lüchow,Louise S. Clemmensen,Linda M. Haugaard-Kedström,Kristian Strømgaard +7 more
TL;DR: Structural and genetic aspects of PDZ‐containing proteins are described and the current status of the development of small‐molecule and peptide modulators ofPDZ domains are discussed.
Journal ArticleDOI
Opening a New Time Window for Treatment of Stroke by Targeting HDAC2
Yu-Hui Lin,Jian Dong,Ying Tang,Huan-Yu Ni,Yu Zhang,Ping Su,Hai-Ying Liang,Meng-Cheng Yao,Hong-Jin Yuan,Dong-Liang Wang,Lei Chang,Hai-Yin Wu,Chun-Xia Luo,Dong-Ya Zhu +13 more
TL;DR: This study indicates that ischemia-induced histone deacetylase 2 upregulation from 5 to 7 d after stroke mediates the secondary functional loss by reducing survival and neuroplasticity of peri-infarct neurons as well as augmenting neuroinflammation.
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