SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220837403> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4220837403 endingPage "909" @default.
W4220837403 startingPage "897" @default.
W4220837403 abstract "It is well known that aging induces a progressive decline in the proliferation and neural differentiation of radial glial cells (RGCs) in the hippocampal dentate gyrus (DG). The function of miR-144/451 is to activate stress-regulated molecular gene expression switches for cell proliferation and differentiation. We found that the miR-144/451 expression in the hippocampus was significantly reduced in aged mice compared to adult mice. Furthermore, the proliferation and neural differentiation of RGCs in the mouse hippocampal DG was decreased by miR-144/451 knockout (miR-144/451-/-). Antioxidant agents, superoxide dismutases (SODs) and catalase, and the expression of melatonin's receptor in the hippocampus were decreased in the miR-144/451-/- mice. In addition, the (protein kinase B) AKT/(glycogen synthase kinase 3β) GSK3β/(catenin beta-1) β-catenin signaling pathway was weakly activated in the hippocampus of miR-144/451-/- mice, which was related to brain neurogenesis. Melatonin treatment improved the expression of miR-144/451 and antioxidant enzymes and activated the AKT/GSK3β/β-catenin pathway in the hippocampus of miR-144/451-/- mice. When the AKT pathway was inhibited by LY294002, the neurogenerative and antioxidant effects of melatonin were significantly limited in the hippocampus of miR-144/451-/- mice. In brief, our results indicated that miR-144/451 plays crucial roles in the proliferation and neural differentiation of RGCs via the regulation of the antioxidant and AKT/GSK3β/β-catenin pathways." @default.
W4220837403 created "2022-04-03" @default.
W4220837403 creator A5004943689 @default.
W4220837403 creator A5012278873 @default.
W4220837403 creator A5020519119 @default.
W4220837403 creator A5021432664 @default.
W4220837403 creator A5023402945 @default.
W4220837403 creator A5028900936 @default.
W4220837403 creator A5044482137 @default.
W4220837403 creator A5045569881 @default.
W4220837403 creator A5073501391 @default.
W4220837403 creator A5075877965 @default.
W4220837403 date "2022-03-09" @default.
W4220837403 modified "2023-09-22" @default.
W4220837403 title "Targeting MicroRNA-144/451-AKT-GSK3β Axis Affects the Proliferation and Differentiation of Radial Glial Cells in the Mouse Hippocampal Dentate Gyrus" @default.
W4220837403 cites W1968737620 @default.
W4220837403 cites W1973559709 @default.
W4220837403 cites W1974407486 @default.
W4220837403 cites W1978650811 @default.
W4220837403 cites W1992958009 @default.
W4220837403 cites W2009228902 @default.
W4220837403 cites W2013122369 @default.
W4220837403 cites W2013551886 @default.
W4220837403 cites W2016836206 @default.
W4220837403 cites W2026669761 @default.
W4220837403 cites W2045314069 @default.
W4220837403 cites W2047730749 @default.
W4220837403 cites W2067594167 @default.
W4220837403 cites W2071290346 @default.
W4220837403 cites W2075367242 @default.
W4220837403 cites W2102111081 @default.
W4220837403 cites W2125939997 @default.
W4220837403 cites W2143185170 @default.
W4220837403 cites W2145796722 @default.
W4220837403 cites W2169465106 @default.
W4220837403 cites W2178863034 @default.
W4220837403 cites W2254521523 @default.
W4220837403 cites W2462857475 @default.
W4220837403 cites W2479394673 @default.
W4220837403 cites W2481924707 @default.
W4220837403 cites W2527412351 @default.
W4220837403 cites W2549552700 @default.
W4220837403 cites W2563398409 @default.
W4220837403 cites W2566927390 @default.
W4220837403 cites W2587001685 @default.
W4220837403 cites W2593385935 @default.
W4220837403 cites W2614053129 @default.
W4220837403 cites W2616846414 @default.
W4220837403 cites W2626029845 @default.
W4220837403 cites W2626293361 @default.
W4220837403 cites W2740549244 @default.
W4220837403 cites W2761624970 @default.
W4220837403 cites W2763684162 @default.
W4220837403 cites W2766936425 @default.
W4220837403 cites W2767835469 @default.
W4220837403 cites W2778795276 @default.
W4220837403 cites W2779296524 @default.
W4220837403 cites W2795440037 @default.
W4220837403 cites W2796418566 @default.
W4220837403 cites W2808092314 @default.
W4220837403 cites W2808340851 @default.
W4220837403 cites W2890103700 @default.
W4220837403 cites W2892098973 @default.
W4220837403 cites W2893327061 @default.
W4220837403 cites W2911821114 @default.
W4220837403 cites W2994919485 @default.
W4220837403 cites W3011303090 @default.
W4220837403 cites W3015317176 @default.
W4220837403 cites W3044381297 @default.
W4220837403 cites W3047541999 @default.
W4220837403 cites W3081050175 @default.
W4220837403 cites W3089412477 @default.
W4220837403 cites W3098227688 @default.
W4220837403 cites W3114702471 @default.
W4220837403 cites W3122324184 @default.
W4220837403 cites W3123230899 @default.
W4220837403 cites W3138111704 @default.
W4220837403 cites W3165521805 @default.
W4220837403 cites W3177517027 @default.
W4220837403 cites W3193618086 @default.
W4220837403 cites W4247544731 @default.
W4220837403 cites W56507309 @default.
W4220837403 cites W618142807 @default.
W4220837403 cites W824993761 @default.
W4220837403 doi "https://doi.org/10.1021/acschemneuro.1c00636" @default.
W4220837403 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35261236" @default.
W4220837403 hasPublicationYear "2022" @default.
W4220837403 type Work @default.
W4220837403 citedByCount "3" @default.
W4220837403 countsByYear W42208374032023 @default.
W4220837403 crossrefType "journal-article" @default.
W4220837403 hasAuthorship W4220837403A5004943689 @default.
W4220837403 hasAuthorship W4220837403A5012278873 @default.
W4220837403 hasAuthorship W4220837403A5020519119 @default.
W4220837403 hasAuthorship W4220837403A5021432664 @default.
W4220837403 hasAuthorship W4220837403A5023402945 @default.
W4220837403 hasAuthorship W4220837403A5028900936 @default.
W4220837403 hasAuthorship W4220837403A5044482137 @default.