The Critical Role of YAP/BMP/ID1 Axis on Simulated Microgravity-Induced Neural Tube Defects in Human Brain Organoids

Overview

Journal Adv Sci (Weinh)

Specialty Biomedical Engineering

Date 2024 Dec 10

PMID 39656892

Authors

Di Guo

Bin Yao

Wen-Wei Shao

Jia-Chen Zuo

Zhe-Han Chang

Jian-Xin Shi

Nan Hu

Shuang-Qing Bao

Meng-Meng Chen

Xiu Fan

Xiao-Hong Li

Affiliations

Soon will be listed here.

Abstract

Integrated biochemical and biophysical signals regulate embryonic development. Correct neural tube formation is critical for the development of central nervous system. However, the role of microgravity in neurodevelopment and its underlying molecular mechanisms remain unclear. In this study, the effects of stimulated microgravity (SMG) on the development of human brain organoids are investigated. SMG impairs N-cadherin-based adherens junction formation, leading to neural tube defects associated with dysregulated self-renewal capacity and neuroepithelial disorganization in human brain organoids. Bulk gene expression analyses reveal that SMG alters Hippo and BMP signaling in brain organoids. The neuropathological deficits in SMG-treated organoids can be rescued by regulating YAP/BMP/ID1 axis. Furthermore, sing-cell RNA sequencing data show that SMG results in perturbations in the number and function of neural stem and progenitor cell subpopulations. One of these subpopulations senses SMG cues and transmits BMP signals to the subpopulation responsible for tube morphogenesis, ultimately affecting the proliferating cell population. Finally, SMG intervention leads to persistent neurologic damage even after returning to normal gravity conditions. Collectively, this study reveals molecular and cellular abnormalities associated with SMG during human brain development, providing opportunities for countermeasures to maintain normal neurodevelopment in space.

Citing Articles

The Critical Role of YAP/BMP/ID1 Axis on Simulated Microgravity-Induced Neural Tube Defects in Human Brain Organoids.

Guo D, Yao B, Shao W, Zuo J, Chang Z, Shi J Adv Sci (Weinh). 2024; 12(5):e2410188.

PMID: 39656892 PMC: 11792043. DOI: 10.1002/advs.202410188.

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