在缺氧条件下，神经干细胞/祖细胞通过自分泌血管内皮生长因子A（VEGF-A）在发育过程中构建自身有利的生态位。

Organization of self-advantageous niche by neural stem/progenitor cells during development via autocrine VEGF-A under hypoxia.

作者信息

Kashiwagi Taichi, Takazawa Yuuki, Kagawa Tetsushi, Taga Tetsuya

机构信息

Department of Histology and Neuroanatomy, Tokyo Medical University, Tokyo, 160-8402, Japan.

Department of Stem Cell Regulation, Medical Research Institute, Tokyo Medical and Dental University (TMDU), Tokyo, 113-8510, Japan.

出版信息

Inflamm Regen. 2023 Feb 1;43(1):8. doi: 10.1186/s41232-022-00254-2.

DOI:10.1186/s41232-022-00254-2

PMID:36726165

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9893632/

Abstract

BACKGROUND

Tissue stem cells are confined within a special microenvironment called niche. Stem cells in such a niche are supplied with nutrients and contacted by other cells to maintain their characters and also to keep or expand their population size. Besides, oxygen concentration is a key factor for stem cell niche. Adult neural stem/progenitor cells (NSPCs) are known to reside in a hypoxic niche. Oxygen concentration levels are lower in fetal organs including brain than maternal organs. However, how fetal NSPCs adapt to the hypoxic environment during brain development, particularly before pial and periventricular vessels start to invade the telencephalon, has not fully been elucidated.

METHODS

NSPCs were prepared from cerebral cortices of embryonic day (E) 11.5 or E14.5 mouse embryos and were enriched by 4-day incubation with FGF2. To evaluate NSPC numbers, neurosphere formation assay was performed. Sparsely plated NSPCs were cultured to form neurospheres under the hypoxic (1% O) or normoxic condition. VEGF-A secreted from NSPCs in the culture medium was measured by ELISA. VEGF-A expression and Hif-1a in the developing brain was investigated by in situ hybridization and immunohistochemistry.

RESULTS

Here we show that neurosphere formation of embryonic NSPCs is dramatically increased under hypoxia compared to normoxia. Vegf-A gene expression and its protein secretion were both up-regulated in the NSPCs under hypoxia. Either recombinant VEGF-A or conditioned medium of the hypoxic NSPC culture enhanced the neurosphere forming ability of normoxic NSPCs, which was attenuated by a VEGF-A signaling inhibitor. Furthermore, in the developing brain, VEGF-A was strongly expressed in the VZ where NSPCs are confined.

CONCLUSIONS

We show that NSPCs secret VEGF-A in an autocrine fashion to efficiently maintain themselves under hypoxic developmental environment. Our results suggest that NSPCs have adaptive potential to respond to hypoxia to organize self-advantageous niche involving VEGF-A when the vascular system is immature.

摘要

背景

组织干细胞局限于一种称为龛的特殊微环境中。处于这种龛中的干细胞被提供营养物质，并与其他细胞接触以维持其特性，同时保持或扩大其群体规模。此外，氧浓度是干细胞龛的关键因素。已知成体神经干细胞/祖细胞（NSPCs）存在于低氧龛中。包括脑在内的胎儿器官中的氧浓度水平低于母体器官。然而，胎儿NSPCs在脑发育过程中，特别是在软脑膜和脑室周围血管开始侵入端脑之前，如何适应低氧环境尚未完全阐明。

方法

从胚胎第11.5天（E）或E14.5天的小鼠胚胎大脑皮层制备NSPCs，并通过与FGF2孵育4天进行富集。为了评估NSPC数量，进行了神经球形成测定。将稀疏接种的NSPCs在低氧（1% O）或常氧条件下培养以形成神经球。通过ELISA测量培养基中NSPCs分泌的VEGF-A。通过原位杂交和免疫组织化学研究发育中脑内VEGF-A的表达和Hif-1a。

结果

我们在此表明，与常氧相比，胚胎NSPCs在低氧条件下神经球形成显著增加。低氧条件下NSPCs中Vegf-A基因表达及其蛋白分泌均上调。重组VEGF-A或低氧NSPC培养的条件培养基均可增强常氧NSPCs的神经球形成能力，而VEGF-A信号抑制剂可减弱这种能力。此外，在发育中的脑中，VEGF-A在NSPCs所在的脑室下区强烈表达。

结论

我们表明，NSPCs以自分泌方式分泌VEGF-A，以便在低氧发育环境中有效地维持自身。我们的结果表明，当血管系统未成熟时，NSPCs具有适应低氧的潜力，以组织涉及VEGF-A的自身有利龛。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0f52/9893632/7f646ae5edf6/41232_2022_254_Fig1_HTML.jpg

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在缺氧条件下，神经干细胞/祖细胞通过自分泌血管内皮生长因子A（VEGF-A）在发育过程中构建自身有利的生态位。

Organization of self-advantageous niche by neural stem/progenitor cells during development via autocrine VEGF-A under hypoxia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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