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Ca2+ homeostasis maintained by TMCO1 underlies corpus callosum development via ERK signaling

Keyan Yang, Song Zhao, Haiping Feng, Jiaqi Shen, Yu‐Wei Chen, Si-Tong Wang, Sijia Wang, Yuxin Zhang, Yun Wang, Caixia Guo, Hongmei Liu, Tie-Shan Tang

2022Cell Death and Disease18 citationsDOIOpen Access PDF

Abstract

Abstract Transmembrane of coiled-coil domains 1 (TMCO1) plays an important role in maintaining homeostasis of calcium (Ca 2+ ) stores in the endoplasmic reticulum (ER). TMCO1-defect syndrome shares multiple features with human cerebro-facio-thoracic (CFT) dysplasia, including abnormal corpus callosum (CC). Here, we report that TMCO1 is required for the normal development of CC through sustaining Ca 2+ homeostasis. Tmco1 −/− mice exhibit severe agenesis of CC with stalled white matter fiber bundles failing to pass across the midline. Mechanistically, the excessive Ca 2+ signals caused by TMCO1 deficiency result in upregulation of FGFs and over-activation of ERK, leading to an excess of glial cell migration and overpopulated midline glia cells in the indusium griseum which secretes Slit2 to repulse extension of the neural fiber bundles before crossing the midline. Supportingly, using the clinical MEK inhibitors to attenuate the over-activated FGF/ERK signaling can significantly improve the CC formation in Tmco1 −/− brains. Our findings not only unravel the underlying mechanism of abnormal CC in TMCO1 defect syndrome, but also offer an attractive prevention strategy to relieve the related agenesis of CC in patients.

Topics & Concepts

Cell biologyHomeostasisCorpus callosumBiologyDownregulation and upregulationMAPK/ERK pathwayEndoplasmic reticulumNeural developmentAgenesis of the corpus callosumZebrafishFibroblast growth factorNeuroscienceSignal transductionEndocrinologyInternal medicineAnatomyMedicineGeneticsReceptorGeneFetal and Pediatric Neurological DisordersGenetics and Neurodevelopmental DisordersNeurogenesis and neuroplasticity mechanisms
Ca2+ homeostasis maintained by TMCO1 underlies corpus callosum development via ERK signaling | Litcius