Wiskott-Aldrich syndrome protein forms nuclear condensates and regulates alternative splicing-Reference-Cited by-全球学者库

Wiskott-Aldrich syndrome protein forms nuclear condensates and regulates alternative splicing

Published:2022-06-25 Issue:1 Volume:13 Page:
ISSN:2041-1723
Container-title:Nature Communications
language:en
Short-container-title:Nat Commun

Author:

Yuan Baolei^ORCID,Zhou Xuan,Suzuki Keiichiro^ORCID,Ramos-Mandujano Gerardo,Wang Mengge,Tehseen Muhammad,Cortés-Medina Lorena V.^ORCID,Moresco James J.^ORCID,Dunn Sarah,Hernandez-Benitez Reyna,Hishida Tomoaki,Kim Na Young,Andijani Manal M.,Bi Chongwei^ORCID,Ku Manching,Takahashi Yuta,Xu Jinna,Qiu Jinsong,Huang Ling,Benner Christopher^ORCID,Aizawa Emi,Qu Jing^ORCID,Liu Guang-Hui^ORCID,Li Zhongwei^ORCID,Yi Fei,Ghosheh Yanal,Shao Changwei^ORCID,Shokhirev Maxim,Comoli Patrizia,Frassoni Francesco,Yates John R.^ORCID,Fu Xiang-Dong^ORCID,Esteban Concepcion Rodriguez,Hamdan Samir^ORCID,Izpisua Belmonte Juan Carlos^ORCID,Li Mo^ORCID

Abstract

AbstractThe diverse functions of WASP, the deficiency of which causes Wiskott-Aldrich syndrome (WAS), remain poorly defined. We generated three isogenic WAS models using patient induced pluripotent stem cells and genome editing. These models recapitulated WAS phenotypes and revealed that WASP deficiency causes an upregulation of numerous RNA splicing factors and widespread altered splicing. Loss of WASP binding to splicing factor gene promoters frequently leads to aberrant epigenetic activation. WASP interacts with dozens of nuclear speckle constituents and constrains SRSF2 mobility. Using an optogenetic system, we showed that WASP forms phase-separated condensates that encompasses SRSF2, nascent RNA and active Pol II. The role of WASP in gene body condensates is corroborated by ChIPseq and RIPseq. Together our data reveal that WASP is a nexus regulator of RNA splicing that controls the transcription of splicing factors epigenetically and the dynamics of the splicing machinery through liquid-liquid phase separation.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

Link

https://www.nature.com/articles/s41467-022-31220-8.pdf

Reference95 articles.

1. Thrasher, A. J. & Burns, S. O. WASP: a key immunological multitasker. Nat. Rev. 10, 182–192 (2010).

2. Padrick, S. B. & Rosen, M. K. Physical mechanisms of signal integration by WASP family proteins. Annu Rev. Biochem 79, 707–735 (2010).

3. Candotti, F. Clinical manifestations and pathophysiological mechanisms of the Wiskott-Aldrich syndrome. J. Clin. Immunol. 38, 13–27 (2018).

4. Sadhukhan, S., Sarkar, K., Taylor, M., Candotti, F. & Vyas, Y. M. Nuclear role of WASp in gene transcription is uncoupled from its ARP2/3-dependent cytoplasmic role in actin polymerization. J. Immunol. 193, 150–160 (2014).

5. Verboon, J. M. et al. Wash interacts with lamin and affects global nuclear organization. Curr. Biol. 25, 804–810 (2015).

Cited by 7 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Proteomic analysis of X-linked dystonia parkinsonism disease striatal neurons reveals altered RNA metabolism and splicing;Neurobiology of Disease;2024-01

2. Wiskott-Aldrich Syndrome Protein Regulates Nucleolar Organization and Function in Innate Immune Response;2023-08-16

3. Correcting inborn errors of immunity: From viral mediated gene addition to gene editing;Seminars in Immunology;2023-03

4. Biomolecular condensates: Formation mechanisms, biological functions, and therapeutic targets;MedComm;2023-02-28

5. Not too little, not too much: the impact of mutation types in Wiskott-Aldrich syndrome and RAC2 patients;Clinical and Experimental Immunology;2023-01-06