Preprint / Version 1

Matrix Stiffness Induces Midnolin-dependent Lamin B1 Degradation to Control Myoblast Differentiation

This article is a preprint and has not been certified by peer review.

Authors

    Liping Guo,   Yanjing Zhao,   Zhe Zhang,   Chang Sun,   Yafan Xie,   Qin Dai,   Yan Yan,   Yaoqi Zhou,   Yang Zhang,   Quhuan Li,   Juhui Qiu,   Qin Peng
    Qin Peng
Categories
Cell Biology
Keywords
Matrix stiffness; Lamin B1 degradation; midnolin-proteasome pathway; myoblast differentiation

Abstract

Cells decode mechanical cues to direct fate decisions through nuclear remodeling, yet nuclear adaptors to mechanical signals remain elusive. Here, we show that soft matrix suppresses myoblast differentiation and induces nuclear abnormality within 30 minutes, accompanied by a >60% reduction in lamin B1 proteins levels. Mechanistically, midnolin interacts with lamin B1 and mediates ubiquitination-independent degradation of lamin B1 on soft matrix, through the Catch domain of midnolin engaging a b-strand within lamin B1’s Ig-like domain. Functionally, moderate lamin B1 expression is essential for myoblast differentiation initiation, as its depletion either by siRNA or CRISPR knockout abolishes myogenic capacity. Our findings reveal that the midnolin-proteasome axis directly converts mechanical inputs into lineage commitment by triggering lamin B1 degradation, defining a novel nuclear mechano-adaptation pathway.

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DOI:

https://doi.org/10.65215/t801en93

Submission ID:

11

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Posted

2025-11-19

How to Cite

Guo, L., Zhao, Y., Zhang, Z., Sun, C., Xie, Y., Dai, Q., Yan, Y., Zhou, Y., Zhang, Y., Li, Q., Qiu, J., & Peng, Q. (2025). Matrix Stiffness Induces Midnolin-dependent Lamin B1 Degradation to Control Myoblast Differentiation. LangTaoSha Preprint Server. https://doi.org/10.65215/t801en93

Declaration of Competing Interests

The authors declare no competing interests to disclose.

Copyright

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