LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs

Jun Yan Kang; Ze Wen; Duo Pan; Yuhan Zhang; Qing Li; Ai Zhong; Xinghai Yu; Yi Chen Wu; Yu Chen; Xiangzheng Zhang; Peng Cheng Kou; Junlan Geng; Ying Yi Wang; Min Min Hua; Ruiting Zong; Biao Li; Hui Juan Shi; Dangsheng Li; Xiang Dong Fu; Jinsong Li; David L. Nelson; Xuejiang Guo; Yu Zhou; Lan Tao Gou; Ying Huang; Mo Fang Liu

doi:10.1126/science.abj6647

LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs

Jun Yan Kang, Ze Wen, Duo Pan, Yuhan Zhang, Qing Li, Ai Zhong, Xinghai Yu, Yi Chen Wu, Yu Chen, Xiangzheng Zhang, Peng Cheng Kou, Junlan Geng, Ying Yi Wang, Min Min Hua, Ruiting Zong, Biao Li, Hui Juan Shi, Dangsheng Li, Xiang Dong Fu, Jinsong LiDavid L. Nelson, Xuejiang Guo, Yu Zhou, Lan Tao Gou, Ying Huang, Mo Fang Liu

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

Postmeiotic spermatids use a unique strategy to coordinate gene expression with morphological transformation, in which transcription and translation take place at separate developmental stages, but how mRNAs stored as translationally inert messenger ribonucleoproteins in developing spermatids become activated remains largely unknown. Here, we report that the RNA binding protein FXR1, a member of the fragile X–related (FXR) family, is highly expressed in late spermatids and undergoes liquid-liquid phase separation (LLPS) to merge messenger ribonucleoprotein granules with the translation machinery to convert stored mRNAs into a translationally activated state. Germline-specific Fxr1 ablation in mice impaired the translation of target mRNAs and caused defective spermatid development and male infertility, and a phase separation–deficient FXR1^L351P mutation in Fxr1 knock-in mice produced the same developmental defect. These findings uncover a mechanism for translational reprogramming with LLPS as a key driver in spermiogenesis.

Original language	English (US)
Article number	eabj6647
Journal	Science
Volume	377
Issue number	6607
DOIs	https://doi.org/10.1126/science.abj6647
State	Published - Aug 12 2022
Externally published	Yes

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Kang, J. Y., Wen, Z., Pan, D., Zhang, Y., Li, Q., Zhong, A., Yu, X., Wu, Y. C., Chen, Y., Zhang, X., Kou, P. C., Geng, J., Wang, Y. Y., Hua, M. M., Zong, R., Li, B., Shi, H. J., Li, D., Fu, X. D., ... Liu, M. F. (2022). LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs. Science, 377(6607), Article eabj6647. https://doi.org/10.1126/science.abj6647

Kang, JY, Wen, Z, Pan, D, Zhang, Y, Li, Q, Zhong, A, Yu, X, Wu, YC, Chen, Y, Zhang, X, Kou, PC, Geng, J, Wang, YY, Hua, MM, Zong, R, Li, B, Shi, HJ, Li, D, Fu, XD, Li, J, Nelson, DL, Guo, X, Zhou, Y, Gou, LT, Huang, Y & Liu, MF 2022, 'LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs', Science, vol. 377, no. 6607, eabj6647. https://doi.org/10.1126/science.abj6647

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title = "LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs",

abstract = "Postmeiotic spermatids use a unique strategy to coordinate gene expression with morphological transformation, in which transcription and translation take place at separate developmental stages, but how mRNAs stored as translationally inert messenger ribonucleoproteins in developing spermatids become activated remains largely unknown. Here, we report that the RNA binding protein FXR1, a member of the fragile X–related (FXR) family, is highly expressed in late spermatids and undergoes liquid-liquid phase separation (LLPS) to merge messenger ribonucleoprotein granules with the translation machinery to convert stored mRNAs into a translationally activated state. Germline-specific Fxr1 ablation in mice impaired the translation of target mRNAs and caused defective spermatid development and male infertility, and a phase separation–deficient FXR1L351P mutation in Fxr1 knock-in mice produced the same developmental defect. These findings uncover a mechanism for translational reprogramming with LLPS as a key driver in spermiogenesis.",

author = "Kang, {Jun Yan} and Ze Wen and Duo Pan and Yuhan Zhang and Qing Li and Ai Zhong and Xinghai Yu and Wu, {Yi Chen} and Yu Chen and Xiangzheng Zhang and Kou, {Peng Cheng} and Junlan Geng and Wang, {Ying Yi} and Hua, {Min Min} and Ruiting Zong and Biao Li and Shi, {Hui Juan} and Dangsheng Li and Fu, {Xiang Dong} and Jinsong Li and Nelson, {David L.} and Xuejiang Guo and Yu Zhou and Gou, {Lan Tao} and Ying Huang and Liu, {Mo Fang}",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 The Authors, some rights reserved.",

year = "2022",

month = aug,

day = "12",

doi = "10.1126/science.abj6647",

language = "English (US)",

volume = "377",

journal = "Science",

issn = "0036-8075",

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AU - Kang, Jun Yan

AU - Wen, Ze

AU - Pan, Duo

AU - Zhang, Yuhan

AU - Li, Qing

AU - Zhong, Ai

AU - Yu, Xinghai

AU - Wu, Yi Chen

AU - Chen, Yu

AU - Zhang, Xiangzheng

AU - Kou, Peng Cheng

AU - Geng, Junlan

AU - Wang, Ying Yi

AU - Hua, Min Min

AU - Zong, Ruiting

AU - Li, Biao

AU - Shi, Hui Juan

AU - Li, Dangsheng

AU - Fu, Xiang Dong

AU - Li, Jinsong

AU - Nelson, David L.

AU - Guo, Xuejiang

AU - Zhou, Yu

AU - Gou, Lan Tao

AU - Huang, Ying

AU - Liu, Mo Fang

PY - 2022/8/12

Y1 - 2022/8/12

N2 - Postmeiotic spermatids use a unique strategy to coordinate gene expression with morphological transformation, in which transcription and translation take place at separate developmental stages, but how mRNAs stored as translationally inert messenger ribonucleoproteins in developing spermatids become activated remains largely unknown. Here, we report that the RNA binding protein FXR1, a member of the fragile X–related (FXR) family, is highly expressed in late spermatids and undergoes liquid-liquid phase separation (LLPS) to merge messenger ribonucleoprotein granules with the translation machinery to convert stored mRNAs into a translationally activated state. Germline-specific Fxr1 ablation in mice impaired the translation of target mRNAs and caused defective spermatid development and male infertility, and a phase separation–deficient FXR1L351P mutation in Fxr1 knock-in mice produced the same developmental defect. These findings uncover a mechanism for translational reprogramming with LLPS as a key driver in spermiogenesis.

AB - Postmeiotic spermatids use a unique strategy to coordinate gene expression with morphological transformation, in which transcription and translation take place at separate developmental stages, but how mRNAs stored as translationally inert messenger ribonucleoproteins in developing spermatids become activated remains largely unknown. Here, we report that the RNA binding protein FXR1, a member of the fragile X–related (FXR) family, is highly expressed in late spermatids and undergoes liquid-liquid phase separation (LLPS) to merge messenger ribonucleoprotein granules with the translation machinery to convert stored mRNAs into a translationally activated state. Germline-specific Fxr1 ablation in mice impaired the translation of target mRNAs and caused defective spermatid development and male infertility, and a phase separation–deficient FXR1L351P mutation in Fxr1 knock-in mice produced the same developmental defect. These findings uncover a mechanism for translational reprogramming with LLPS as a key driver in spermiogenesis.

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LLPS of FXR1 drives spermiogenesis by activating translation of stored mRNAs

Abstract

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