Unknown

Dataset Information

0

Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia.


ABSTRACT: Splicing alterations are common in diseases such as cancer, where mutations in splicing factor genes are frequently responsible for aberrant splicing. Here we present an alternative mechanism for splicing regulation in T-cell acute lymphoblastic leukemia (T-ALL) that involves posttranslational stabilization of the splicing machinery via deubiquitination. We demonstrate there are extensive exon skipping changes in disease, affecting proteasomal subunits, cell-cycle regulators, and the RNA machinery. We present that the serine/arginine-rich splicing factors (SRSF), controlling exon skipping, are critical for leukemia cell survival. The ubiquitin-specific peptidase 7 (USP7) regulates SRSF6 protein levels via active deubiquitination, and USP7 inhibition alters the exon skipping pattern and blocks T-ALL growth. The splicing inhibitor H3B-8800 affects splicing of proteasomal transcripts and proteasome activity and acts synergistically with proteasome inhibitors in inhibiting T-ALL growth. Our study provides the proof-of-principle for regulation of splicing factors via deubiquitination and suggests new therapeutic modalities in T-ALL. SIGNIFICANCE: Our study provides a new proof-of-principle for posttranslational regulation of splicing factors independently of mutations in aggressive T-cell leukemia. It further suggests a new drug combination of splicing and proteasomal inhibitors, a concept that might apply to other diseases with or without mutations affecting the splicing machinery.This article is highlighted in the In This Issue feature, p. 1241.

SUBMITTER: Zhou Y 

PROVIDER: S-EPMC7483384 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

altmetric image

Publications

Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia.

Zhou Yalu Y   Han Cuijuan C   Wang Eric E   Lorch Adam H AH   Serafin Valentina V   Cho Byoung-Kyu BK   Gutierrez Diaz Blanca T BT   Calvo Julien J   Fang Celestia C   Khodadadi-Jamayran Alireza A   Tabaglio Tommaso T   Marier Christian C   Kuchmiy Anna A   Sun Limin L   Yacu George G   Filip Szymon K SK   Jin Qi Q   Jin Qi Q   Takahashi Yoh-Hei YH   Amici David R DR   Rendleman Emily J EJ   Rawat Radhika R   Bresolin Silvia S   Paganin Maddalena M   Zhang Cheng C   Li Hu H   Kandela Irawati I   Politanska Yuliya Y   Abdala-Valencia Hiam H   Mendillo Marc L ML   Zhu Ping P   Palhais Bruno B   Van Vlierberghe Pieter P   Taghon Tom T   Aifantis Iannis I   Goo Young Ah YA   Guccione Ernesto E   Heguy Adriana A   Tsirigos Aristotelis A   Wee Keng Boon KB   Mishra Rama K RK   Pflumio Francoise F   Accordi Benedetta B   Basso Giuseppe G   Ntziachristos Panagiotis P  

Cancer discovery 20200522 9


Splicing alterations are common in diseases such as cancer, where mutations in splicing factor genes are frequently responsible for aberrant splicing. Here we present an alternative mechanism for splicing regulation in T-cell acute lymphoblastic leukemia (T-ALL) that involves posttranslational stabilization of the splicing machinery via deubiquitination. We demonstrate there are extensive exon skipping changes in disease, affecting proteasomal subunits, cell-cycle regulators, and the RNA machine  ...[more]

Similar Datasets

2020-06-01 | GSE139622 | GEO
| MSV000084383 | MassIVE
2020-06-01 | GSE149624 | GEO
2020-06-01 | GSE139621 | GEO
2020-06-01 | GSE139620 | GEO
2020-06-01 | GSE139619 | GEO
2020-06-01 | GSE139616 | GEO
2020-06-01 | GSE139614 | GEO
2020-06-01 | GSE139613 | GEO
2020-06-01 | GSE139618 | GEO