An update on the role of Hippo signaling pathway in ischemia-associated central nervous system diseases - 29/04/23
, Zhigang Mei a, d, ⁎, 3 Abstract |
The most frequent reason of morbidity and mortality in the world, cerebral ischemia sets off a chain of molecular and cellular pathologies that associated with some central nervous system (CNS) disorders mainly including ischemic stroke, Alzheimer's disease (AD), Parkinson's disease (PD), epilepsy and other CNS diseases. In recent times, despite significant advancements in the treatment of the pathological processes underlying various neurological illnesses, effective therapeutic approaches that are specifically targeted to minimizing the damage of such diseases remain absent. Hippo signaling pathway, characterized by enzyme linked reactions between MSTI/2, LAST1/2, and YAP or TAZ proteins, controls cell division, survival, and differentiation, as well as being engaged in a variety of biological activities, such as the development and transformation of the nervous system. Recently, accumulating studies demonstrated that Hippo pathway takes part in the processes of ischemic stroke, AD, PD, etc., including but not limited to oxidative stress, inflammatory response, blood-brain barrier damage, mitochondrial disorders, and neural cells death. Thus, it’s crucial to understand the molecular basis of the Hippo signaling pathway for determining potential new therapeutic targets against ischemia-associated CNS diseases. Here, we discuss latest advances in the deciphering of the Hippo signaling pathway and highlight the therapeutic potential of targeting the pathway in treating ischemia-associated CNS diseases.
Le texte complet de cet article est disponible en PDF.Graphical Abstract |
Highlights |
• | Hippo pathway regulates biological processes in the central nervous system development and diseases. |
• | Hippo pathway plays a pivotal role in ischemia-associated central nervous system diseases. |
• | Hippo pathway exhibits therapeutic potential in treating against ischemia-associated central nervous system diseases. |
Abbreviations : AD, ALS, AMOT, AMPK, Ang-1, APP, ATP, Aβ, Aβ42, BBB, BMP2, C-Abl, Ccnd1, CDK6, cGAS, CHIP, CIRI, Cldn5, CNS, DAMPs, DXM, ECs, EPO, ER, ERK, ET-1, FOXO3, FRMD6, FTLD, FUS, GABA, GDNF, GLUT3, GPCR, HDAC3, HIFs, HK2, Hpo, I/R, IGF-1, IL-6, IPC, IR, IRF3, JNK, LATS1/2, LM511, MAP4K, MAPK, m-CRP, mDA, miRNA, MMP-2/9, MN, MOB1A/B, MPP+, MST1, mtDNA, NFTs, NMDA, NSCs, NTN1, NVU, Ocln, OPA1, PA, PARD3, PD, PI3K, PINK1 − /−, PKB, PTEN, RES, RGP, ROS, RUNX, S1PRs, SASP, SMADs, SOD1, STING, SynGAP, TAOK1/2/3, TAZ, TDP-43, TDP43-CTFs, TEAD, TJs, TLRs, TNF-α, tPA, TRVP1, TSL, TXA2R, VEGF, VEGFR-1, VEVECs, VP, Wts, YAP, Yki, ZO-1
Keywords : Cerebral ischemia, Central nervous system diseases, Stroke, Alzheimer's disease, Parkinson’s disease, Epilepsy, Amyotrophic lateral sclerosis, Dementia
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Vol 162
Article 114619- juin 2023 Retour au numéro
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