Cells, Vol. 14, Pages 1240: CREB5 Promotes the Proliferation of Neural Stem/Progenitor Cells in the Rat Subventricular Zone via the Regulation of NFIX Expression

Cells doi: 10.3390/cells14161240

Authors:
Tao Yu
Hanyue Zhang
Chuang Zhang
Guorui Ma
Tu Shen
Yan Luan
Zhichao Zhang

Neural stem/progenitor cells (NSPCs) in the subventricular zone (SVZ) of the central nervous system (CNS) are critical for tissue repair following injury or disease. These cells retain the capacity to proliferate, migrate, and differentiate into neurons, astrocytes, and oligodendrocytes, making them a promising therapeutic target for neurodegenerative disorders and traumatic injuries. However, the molecular mechanisms regulating their proliferation remain incompletely understood. This study investigates the role of cAMP responsive element-binding protein 5 (CREB5) in the proliferation of rat SVZ-derived NSPCs and elucidates its regulatory mechanism. Using RNA interference, we demonstrated that CREB5 knockdown significantly reduced cell viability, neurosphere formation capacity, and the number of proliferating cells (BrdU- and Ki-67-positive cells) both in vitro and in vivo. In contrast, CREB5 overexpression played opposing roles in cell proliferation. Additionally, alteration of CREB5 expression did not affect apoptosis, as assessed by TUNEL staining, indicating a specific role in proliferation rather than in cell death. Mechanistically, we identified Nuclear Factor One X (NFIX) as a transcriptional target of CREB5. CREB5 binds to the AP-1 site in the NFIX promoter, enhancing its expression. CREB5 knockdown inhibited NFIX expression, while CREB5 overexpression exerted the opposite function. ChIP and luciferase reporter assays further confirmed that CREB5 directly regulates NFIX promoter activity. More importantly, alteration of NFIX expression could reverse the effect of CREB5 on NSPC proliferation. These findings highlight CREB5 as a key regulator of NSPC proliferation through its interaction with NFIX, providing a potential therapeutic target for stem cell-based treatments of CNS disorders.

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Tao Yu www.mdpi.com