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中间代谢对肾单位祖细胞自我更新的调控

Regulation of Nephron Progenitor Cell Self-Renewal by Intermediary Metabolism.

作者信息

Liu Jiao, Edgington-Giordano Francesca, Dugas Courtney, Abrams Anna, Katakam Prasad, Satou Ryousuke, Saifudeen Zubaida

机构信息

Department of Pediatrics, Section of Nephrology.

Department of Physiology, and.

出版信息

J Am Soc Nephrol. 2017 Nov;28(11):3323-3335. doi: 10.1681/ASN.2016111246. Epub 2017 Jul 28.

DOI:10.1681/ASN.2016111246
PMID:28754792
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5661282/
Abstract

Nephron progenitor cells (NPCs) show an age-dependent capacity to balance self-renewal with differentiation. Older NPCs (postnatal day 0) exit the progenitor niche at a higher rate than younger (embryonic day 13.5) NPCs do. This behavior is reflected in the transcript profiles of young and old NPCs. Bioenergetic pathways have emerged as important regulators of stem cell fate. Here, we investigated the mechanisms underlying this regulation in murine NPCs. Upon isolation and culture in NPC renewal medium, younger NPCs displayed a higher glycolysis rate than older NPCs. Inhibition of glycolysis enhanced nephrogenesis in cultured embryonic kidneys, without increasing ureteric tree branching, and promoted mesenchymal-to-epithelial transition in cultured isolated metanephric mesenchyme. Cotreatment with a canonical Wnt signaling inhibitor attenuated but did not entirely block the increase in nephrogenesis observed after glycolysis inhibition. Furthermore, inhibition of the phosphatidylinositol 3-kinase/Akt self-renewal signaling pathway or stimulation of differentiation pathways in the NPC decreased glycolytic flux. Our findings suggest that glycolysis is a pivotal, cell-intrinsic determinant of NPC fate, with a high glycolytic flux supporting self-renewal and inhibition of glycolysis stimulating differentiation.

摘要

肾单位祖细胞(NPCs)表现出一种随年龄变化的能力,能够平衡自我更新与分化。较老的NPCs(出生后第0天)比年轻的(胚胎第13.5天)NPCs以更高的速率离开祖细胞龛。这种行为反映在年轻和老年NPCs的转录谱中。生物能量途径已成为干细胞命运的重要调节因子。在这里,我们研究了小鼠NPCs中这种调节的潜在机制。在NPC更新培养基中分离和培养后,年轻的NPCs比年老的NPCs表现出更高的糖酵解速率。糖酵解的抑制增强了培养的胚胎肾脏中的肾发生,而不增加输尿管树分支,并促进了培养的分离后肾间充质中的间充质-上皮转化。用经典Wnt信号抑制剂共同处理可减弱但不能完全阻断糖酵解抑制后观察到的肾发生增加。此外,抑制磷脂酰肌醇3-激酶/Akt自我更新信号通路或刺激NPC中的分化通路会降低糖酵解通量。我们的研究结果表明,糖酵解是NPC命运的关键细胞内在决定因素,高糖酵解通量支持自我更新,而糖酵解的抑制刺激分化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd72/5661282/2db95a64eb54/ASN.2016111246absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd72/5661282/2db95a64eb54/ASN.2016111246absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd72/5661282/2db95a64eb54/ASN.2016111246absf1.jpg

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Spatiotemporal Analysis of a Glycolytic Activity Gradient Linked to Mouse Embryo Mesoderm Development.与小鼠胚胎中胚层发育相关的糖酵解活性梯度的时空分析
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Sirtuins in kidney health and disease.沉默信息调节因子 2 相关酶在肾脏健康和疾病中的作用。
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Acetyl-CoA is a key molecule for nephron progenitor cell pool maintenance.乙酰辅酶 A 是维持肾祖细胞库的关键分子。
Nat Commun. 2023 Nov 25;14(1):7733. doi: 10.1038/s41467-023-43513-7.
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Netrin 1 directs vascular patterning and maturity in the developing kidney.神经导向因子 1 指导发育肾脏中的血管模式形成和成熟。
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