HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness

Jessica Sy Ho; Federico Di Tullio; Megan Schwarz; Diana Low; Danny Incarnato; Florence Gay; Tommaso Tabaglio; JingXian Zhang; Heike Wollmann; Leilei Chen; Omer An; Tim Hon Man Chan; Alexander Hall Hickman; Simin Zheng; Vladimir Roudko; Sujun Chen; Alcida Karz; Musaddeque Ahmed; Housheng Hansen He; Benjamin D Greenbaum; Salvatore Oliviero; Michela Serresi; Gaetano Gargiulo; Karen M Mann; Eva Hernando; David Mulholland; Ivan Marazzi; Dave Keng Boon Wee; Ernesto Guccione

doi:10.7554/eLife.59654

HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness

Jessica Sy Ho
, Federico Di Tullio
, Megan Schwarz
, Diana Low
, Danny Incarnato
, Florence Gay
, Tommaso Tabaglio
, JingXian Zhang
, Heike Wollmann
, Leilei Chen
, Omer An
, Tim Hon Man Chan
, Alexander Hall Hickman
, Simin Zheng
, Vladimir Roudko
, Sujun Chen
, Alcida Karz
, Musaddeque Ahmed
, Housheng Hansen He
, Benjamin D Greenbaum

Salvatore Oliviero, Michela Serresi, Gaetano Gargiulo, Karen M Mann, Eva Hernando, David Mulholland, Ivan Marazzi, Dave Keng Boon Wee, Ernesto Guccione^*

^*Corresponding author for this work

Molecular Genetics

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

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Abstract

High spliceosome activity is a dependency for cancer cells, making them more vulnerable to perturbation of the splicing machinery compared to normal cells. To identify splicing factors important for prostate cancer (PCa) fitness, we performed pooled shRNA screens in vitro and in vivo. Our screens identified HNRNPM as a regulator of PCa cell growth. RNA- and eCLIP-sequencing identified HNRNPM binding to transcripts of key homeostatic genes. HNRNPM binding to its targets prevents aberrant exon inclusion and back-splicing events. In both linear and circular mis-spliced transcripts, HNRNPM preferentially binds to GU-rich elements in long flanking proximal introns. Mimicry of HNRNPM dependent linear splicing events using splice-switching-antisense-oligonucleotides (SSOs) was sufficient to inhibit PCa cell growth. This suggests that PCa dependence on HNRNPM is likely a result of mis-splicing of key homeostatic coding and non-coding genes. Our results have further been confirmed in other solid tumors. Taken together, our data reveal a role for HNRNPM in supporting cancer cell fitness. Inhibition of HNRNPM activity is therefore a potential therapeutic strategy in suppressing growth of PCa and other solid tumors.

Original language	English
Article number	e59654
Number of pages	32
Journal	eLife
Volume	10
Early online date	2-Jun-2021
DOIs	https://doi.org/10.7554/eLife.59654
Publication status	Published - Aug-2021

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HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitnessFinal publisher's version, 4.31 MBLicence: CC BY

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Ho, J. S., Di Tullio, F., Schwarz, M., Low, D., Incarnato, D., Gay, F., Tabaglio, T., Zhang, J., Wollmann, H., Chen, L., An, O., Chan, T. H. M., Hall Hickman, A., Zheng, S., Roudko, V., Chen, S., Karz, A., Ahmed, M., He, H. H., ... Guccione, E. (2021). HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness. eLife, 10, Article e59654. https://doi.org/10.7554/eLife.59654

@article{bfd6236e81f24d1c875ac703636bb6af,

title = "HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness",

abstract = "High spliceosome activity is a dependency for cancer cells, making them more vulnerable to perturbation of the splicing machinery compared to normal cells. To identify splicing factors important for prostate cancer (PCa) fitness, we performed pooled shRNA screens in vitro and in vivo. Our screens identified HNRNPM as a regulator of PCa cell growth. RNA- and eCLIP-sequencing identified HNRNPM binding to transcripts of key homeostatic genes. HNRNPM binding to its targets prevents aberrant exon inclusion and back-splicing events. In both linear and circular mis-spliced transcripts, HNRNPM preferentially binds to GU-rich elements in long flanking proximal introns. Mimicry of HNRNPM dependent linear splicing events using splice-switching-antisense-oligonucleotides (SSOs) was sufficient to inhibit PCa cell growth. This suggests that PCa dependence on HNRNPM is likely a result of mis-splicing of key homeostatic coding and non-coding genes. Our results have further been confirmed in other solid tumors. Taken together, our data reveal a role for HNRNPM in supporting cancer cell fitness. Inhibition of HNRNPM activity is therefore a potential therapeutic strategy in suppressing growth of PCa and other solid tumors.",

author = "Ho, \{Jessica Sy\} and \{Di Tullio\}, Federico and Megan Schwarz and Diana Low and Danny Incarnato and Florence Gay and Tommaso Tabaglio and JingXian Zhang and Heike Wollmann and Leilei Chen and Omer An and Chan, \{Tim Hon Man\} and \{Hall Hickman\}, Alexander and Simin Zheng and Vladimir Roudko and Sujun Chen and Alcida Karz and Musaddeque Ahmed and He, \{Housheng Hansen\} and Greenbaum, \{Benjamin D\} and Salvatore Oliviero and Michela Serresi and Gaetano Gargiulo and Mann, \{Karen M\} and Eva Hernando and David Mulholland and Ivan Marazzi and Wee, \{Dave Keng Boon\} and Ernesto Guccione",

note = "{\textcopyright} 2021, Ho et al.",

year = "2021",

month = aug,

doi = "10.7554/eLife.59654",

language = "English",

volume = "10",

journal = "eLife",

issn = "2050-084X",

publisher = "ELIFE SCIENCES PUBLICATIONS LTD",

}

Ho, JS, Di Tullio, F, Schwarz, M, Low, D, Incarnato, D, Gay, F, Tabaglio, T, Zhang, J, Wollmann, H, Chen, L, An, O, Chan, THM, Hall Hickman, A, Zheng, S, Roudko, V, Chen, S, Karz, A, Ahmed, M, He, HH, Greenbaum, BD, Oliviero, S, Serresi, M, Gargiulo, G, Mann, KM, Hernando, E, Mulholland, D, Marazzi, I, Wee, DKB & Guccione, E 2021, 'HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness', eLife, vol. 10, e59654. https://doi.org/10.7554/eLife.59654

TY - JOUR

T1 - HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness

AU - Ho, Jessica Sy

AU - Di Tullio, Federico

AU - Schwarz, Megan

AU - Low, Diana

AU - Incarnato, Danny

AU - Gay, Florence

AU - Tabaglio, Tommaso

AU - Zhang, JingXian

AU - Wollmann, Heike

AU - Chen, Leilei

AU - An, Omer

AU - Chan, Tim Hon Man

AU - Hall Hickman, Alexander

AU - Zheng, Simin

AU - Roudko, Vladimir

AU - Chen, Sujun

AU - Karz, Alcida

AU - Ahmed, Musaddeque

AU - He, Housheng Hansen

AU - Greenbaum, Benjamin D

AU - Oliviero, Salvatore

AU - Serresi, Michela

AU - Gargiulo, Gaetano

AU - Mann, Karen M

AU - Hernando, Eva

AU - Mulholland, David

AU - Marazzi, Ivan

AU - Wee, Dave Keng Boon

AU - Guccione, Ernesto

PY - 2021/8

Y1 - 2021/8

N2 - High spliceosome activity is a dependency for cancer cells, making them more vulnerable to perturbation of the splicing machinery compared to normal cells. To identify splicing factors important for prostate cancer (PCa) fitness, we performed pooled shRNA screens in vitro and in vivo. Our screens identified HNRNPM as a regulator of PCa cell growth. RNA- and eCLIP-sequencing identified HNRNPM binding to transcripts of key homeostatic genes. HNRNPM binding to its targets prevents aberrant exon inclusion and back-splicing events. In both linear and circular mis-spliced transcripts, HNRNPM preferentially binds to GU-rich elements in long flanking proximal introns. Mimicry of HNRNPM dependent linear splicing events using splice-switching-antisense-oligonucleotides (SSOs) was sufficient to inhibit PCa cell growth. This suggests that PCa dependence on HNRNPM is likely a result of mis-splicing of key homeostatic coding and non-coding genes. Our results have further been confirmed in other solid tumors. Taken together, our data reveal a role for HNRNPM in supporting cancer cell fitness. Inhibition of HNRNPM activity is therefore a potential therapeutic strategy in suppressing growth of PCa and other solid tumors.

AB - High spliceosome activity is a dependency for cancer cells, making them more vulnerable to perturbation of the splicing machinery compared to normal cells. To identify splicing factors important for prostate cancer (PCa) fitness, we performed pooled shRNA screens in vitro and in vivo. Our screens identified HNRNPM as a regulator of PCa cell growth. RNA- and eCLIP-sequencing identified HNRNPM binding to transcripts of key homeostatic genes. HNRNPM binding to its targets prevents aberrant exon inclusion and back-splicing events. In both linear and circular mis-spliced transcripts, HNRNPM preferentially binds to GU-rich elements in long flanking proximal introns. Mimicry of HNRNPM dependent linear splicing events using splice-switching-antisense-oligonucleotides (SSOs) was sufficient to inhibit PCa cell growth. This suggests that PCa dependence on HNRNPM is likely a result of mis-splicing of key homeostatic coding and non-coding genes. Our results have further been confirmed in other solid tumors. Taken together, our data reveal a role for HNRNPM in supporting cancer cell fitness. Inhibition of HNRNPM activity is therefore a potential therapeutic strategy in suppressing growth of PCa and other solid tumors.

U2 - 10.7554/eLife.59654

DO - 10.7554/eLife.59654

M3 - Article

C2 - 34075878

SN - 2050-084X

VL - 10

JO - eLife

JF - eLife

M1 - e59654

ER -

HNRNPM controls circRNA biogenesis and splicing fidelity to sustain cancer cell fitness

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