Main menu

Cytoplasmic polyadenylation by TENT5A is required for proper bone formation


Osteoblasts orchestrate bone formation by secreting dense, highly cross-linked type I collagen and other proteins involved in osteogenesis. Mutations in Col1α1, Col1α2, or collagen biogenesis factors lead to the human genetic disease, osteogenesis imperfecta (OI). Herein, we show that the TENT5A gene, whose mutation is responsible for poorly characterized type XVIII OI, encodes an active cytoplasmic poly(A) polymerase regulating osteogenesis.

TENT5A is induced during osteoblast differentiation and TENT5A KO osteoblasts are defective in mineralization. The TENT5A KO mouse recapitulates OI disease symptoms such as bone fragility and hypomineralization. Direct RNA sequencing revealed that TENT5A polyadenylates and increases expression of Col1α1 and Col1α2 RNAs, as well as those of other genes mutated in OI, resulting in lower production and improper folding of collagen chains.

Thus, we have identified the specific pathomechanism of XVIII OI and report for the first time a biologically relevant post-transcriptional regulator of collagen production. We further postulate that TENT5A, possibly together with its paralogue TENT5C, is responsible for the wave of cytoplasmic polyadenylation of mRNAs encoding secreted proteins occurring during bone mineralization.

Authors: Olga Gewartowska, Goretti Aranaz Novaliches, Paweł S Krawczyk, Seweryn Mroczek, Monika Kusio-Kobiałka, Bartosz Tarkowski, Frantisek Spoutil, Oldrich Benada, Olga Kofroňová, Piotr Szwedziak, Dominik Cysewski, Jakub Gruchota, Marcin Szpila, , Aleksander Chlebowski, Radislav Sedlacek, Jan Prochazka, Andrzej Dziembowski

入门指南

购买 MinION 启动包 Nanopore 商城 测序服务提供商 全球代理商

纳米孔技术

订阅 Nanopore 更新 资源库及发表刊物 什么是 Nanopore 社区

关于 Oxford Nanopore

新闻 公司历程 可持续发展 领导团队 媒体资源和联系方式 投资者 合作者 在 Oxford Nanopore 工作 职位空缺 商业信息 BSI 27001 accreditationBSI 90001 accreditationBSI mark of trust
Chinese flag