PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression

Yi Fei Lee; Cheryl Zi Jin Phua; Ju Yuan; Bin Zhang; May Yin Lee; Srinivasaraghavan Kannan; Yui Hei Jasper Chiu; Casslynn Wei Qian Koh; Choon Kong Yap; Edwin Kok Hao Lim; Jianbin Chen; Yuhua Lim; Jane Jia Hui Lee; Anders Jacobsen Skanderup; Zhenxun Wang; Weiwei Zhai; Nguan Soon Tan; Chandra S. Verma; Yvonne Tay; Daniel Shao Weng Tan; Wai Leong Tam

doi:10.1186/s13073-024-01328-1

PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression

Yi Fei Lee, Cheryl Zi Jin Phua, Ju Yuan, Bin Zhang, May Yin Lee, Srinivasaraghavan Kannan, Yui Hei Jasper Chiu, Casslynn Wei Qian Koh, Choon Kong Yap, Edwin Kok Hao Lim, Jianbin Chen, Yuhua Lim, Jane Jia Hui Lee, Anders Jacobsen Skanderup, Zhenxun Wang, Weiwei Zhai, Nguan Soon Tan, Chandra S. Verma, Yvonne Tay, Daniel Shao Weng TanWai Leong Tam^*

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

Background: The identification of cancer driver genes from sequencing data has been crucial in deepening our understanding of tumor biology and expanding targeted therapy options. However, apart from the most commonly altered genes, the mechanisms underlying the contribution of other mutations to cancer acquisition remain understudied. Leveraging on our whole-exome sequencing of the largest Asian lung adenocarcinoma (LUAD) cohort (n = 302), we now functionally assess the mechanistic role of a novel driver, PARP4. Methods: In vitro and in vivo tumorigenicity assays were used to study the functional effects of PARP4 loss and mutation in multiple lung cancer cell lines. Interactomics analysis by quantitative mass spectrometry was conducted to identify PARP4’s interaction partners. Transcriptomic data from cell lines and patient tumors were used to investigate splicing alterations. Results: PARP4 depletion or mutation (I1039T) promotes the tumorigenicity of KRAS- or EGFR-driven lung cancer cells. Disruption of the vault complex, with which PARP4 is commonly associated, did not alter tumorigenicity, indicating that PARP4’s tumor suppressive activity is mediated independently. The splicing regulator hnRNPM is a potentially novel PARP4 interaction partner, the loss of which likewise promotes tumor formation. hnRNPM loss results in splicing perturbations, with a propensity for dysregulated intronic splicing that was similarly observed in PARP4 knockdown cells and in LUAD cohort patients with PARP4 copy number loss. Conclusions: PARP4 is a novel modulator of lung adenocarcinoma, where its tumor suppressive activity is mediated not through the vault complex—unlike conventionally thought, but in association with its novel interaction partner hnRNPM, thus suggesting a role for splicing dysregulation in LUAD tumorigenesis.

Original language	English
Article number	91
Journal	Genome Medicine
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s13073-024-01328-1
Publication status	Published - Dec 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

ASJC Scopus Subject Areas

Molecular Medicine
Molecular Biology
Genetics
Genetics(clinical)

Keywords

Functional genomics
Mechanisms of disease
Non-small-cell lung cancer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/s13073-024-01328-1

Cite this

Lee, Y. F., Phua, C. Z. J., Yuan, J., Zhang, B., Lee, M. Y., Kannan, S., Chiu, Y. H. J., Koh, C. W. Q., Yap, C. K., Lim, E. K. H., Chen, J., Lim, Y., Lee, J. J. H., Skanderup, A. J., Wang, Z., Zhai, W., Tan, N. S., Verma, C. S., Tay, Y., ... Tam, W. L. (2024). PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression. Genome Medicine, 16(1), Article 91. https://doi.org/10.1186/s13073-024-01328-1

@article{03571e423bec4a6585caab013ce866e9,

title = "PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression",

abstract = "Background: The identification of cancer driver genes from sequencing data has been crucial in deepening our understanding of tumor biology and expanding targeted therapy options. However, apart from the most commonly altered genes, the mechanisms underlying the contribution of other mutations to cancer acquisition remain understudied. Leveraging on our whole-exome sequencing of the largest Asian lung adenocarcinoma (LUAD) cohort (n = 302), we now functionally assess the mechanistic role of a novel driver, PARP4. Methods: In vitro and in vivo tumorigenicity assays were used to study the functional effects of PARP4 loss and mutation in multiple lung cancer cell lines. Interactomics analysis by quantitative mass spectrometry was conducted to identify PARP4{\textquoteright}s interaction partners. Transcriptomic data from cell lines and patient tumors were used to investigate splicing alterations. Results: PARP4 depletion or mutation (I1039T) promotes the tumorigenicity of KRAS- or EGFR-driven lung cancer cells. Disruption of the vault complex, with which PARP4 is commonly associated, did not alter tumorigenicity, indicating that PARP4{\textquoteright}s tumor suppressive activity is mediated independently. The splicing regulator hnRNPM is a potentially novel PARP4 interaction partner, the loss of which likewise promotes tumor formation. hnRNPM loss results in splicing perturbations, with a propensity for dysregulated intronic splicing that was similarly observed in PARP4 knockdown cells and in LUAD cohort patients with PARP4 copy number loss. Conclusions: PARP4 is a novel modulator of lung adenocarcinoma, where its tumor suppressive activity is mediated not through the vault complex—unlike conventionally thought, but in association with its novel interaction partner hnRNPM, thus suggesting a role for splicing dysregulation in LUAD tumorigenesis.",

keywords = "Functional genomics, Mechanisms of disease, Non-small-cell lung cancer",

author = "Lee, {Yi Fei} and Phua, {Cheryl Zi Jin} and Ju Yuan and Bin Zhang and Lee, {May Yin} and Srinivasaraghavan Kannan and Chiu, {Yui Hei Jasper} and Koh, {Casslynn Wei Qian} and Yap, {Choon Kong} and Lim, {Edwin Kok Hao} and Jianbin Chen and Yuhua Lim and Lee, {Jane Jia Hui} and Skanderup, {Anders Jacobsen} and Zhenxun Wang and Weiwei Zhai and Tan, {Nguan Soon} and Verma, {Chandra S.} and Yvonne Tay and Tan, {Daniel Shao Weng} and Tam, {Wai Leong}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s13073-024-01328-1",

language = "English",

volume = "16",

journal = "Genome Medicine",

issn = "1756-994X",

publisher = "BioMed Central",

number = "1",

}

Lee, YF, Phua, CZJ, Yuan, J, Zhang, B, Lee, MY, Kannan, S, Chiu, YHJ, Koh, CWQ, Yap, CK, Lim, EKH, Chen, J, Lim, Y, Lee, JJH, Skanderup, AJ, Wang, Z, Zhai, W, Tan, NS, Verma, CS, Tay, Y, Tan, DSW & Tam, WL 2024, 'PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression', Genome Medicine, vol. 16, no. 1, 91. https://doi.org/10.1186/s13073-024-01328-1

TY - JOUR

T1 - PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression

AU - Lee, Yi Fei

AU - Phua, Cheryl Zi Jin

AU - Yuan, Ju

AU - Zhang, Bin

AU - Lee, May Yin

AU - Kannan, Srinivasaraghavan

AU - Chiu, Yui Hei Jasper

AU - Koh, Casslynn Wei Qian

AU - Yap, Choon Kong

AU - Lim, Edwin Kok Hao

AU - Chen, Jianbin

AU - Lim, Yuhua

AU - Lee, Jane Jia Hui

AU - Skanderup, Anders Jacobsen

AU - Wang, Zhenxun

AU - Zhai, Weiwei

AU - Tan, Nguan Soon

AU - Verma, Chandra S.

AU - Tay, Yvonne

AU - Tan, Daniel Shao Weng

AU - Tam, Wai Leong

PY - 2024/12

Y1 - 2024/12

N2 - Background: The identification of cancer driver genes from sequencing data has been crucial in deepening our understanding of tumor biology and expanding targeted therapy options. However, apart from the most commonly altered genes, the mechanisms underlying the contribution of other mutations to cancer acquisition remain understudied. Leveraging on our whole-exome sequencing of the largest Asian lung adenocarcinoma (LUAD) cohort (n = 302), we now functionally assess the mechanistic role of a novel driver, PARP4. Methods: In vitro and in vivo tumorigenicity assays were used to study the functional effects of PARP4 loss and mutation in multiple lung cancer cell lines. Interactomics analysis by quantitative mass spectrometry was conducted to identify PARP4’s interaction partners. Transcriptomic data from cell lines and patient tumors were used to investigate splicing alterations. Results: PARP4 depletion or mutation (I1039T) promotes the tumorigenicity of KRAS- or EGFR-driven lung cancer cells. Disruption of the vault complex, with which PARP4 is commonly associated, did not alter tumorigenicity, indicating that PARP4’s tumor suppressive activity is mediated independently. The splicing regulator hnRNPM is a potentially novel PARP4 interaction partner, the loss of which likewise promotes tumor formation. hnRNPM loss results in splicing perturbations, with a propensity for dysregulated intronic splicing that was similarly observed in PARP4 knockdown cells and in LUAD cohort patients with PARP4 copy number loss. Conclusions: PARP4 is a novel modulator of lung adenocarcinoma, where its tumor suppressive activity is mediated not through the vault complex—unlike conventionally thought, but in association with its novel interaction partner hnRNPM, thus suggesting a role for splicing dysregulation in LUAD tumorigenesis.

AB - Background: The identification of cancer driver genes from sequencing data has been crucial in deepening our understanding of tumor biology and expanding targeted therapy options. However, apart from the most commonly altered genes, the mechanisms underlying the contribution of other mutations to cancer acquisition remain understudied. Leveraging on our whole-exome sequencing of the largest Asian lung adenocarcinoma (LUAD) cohort (n = 302), we now functionally assess the mechanistic role of a novel driver, PARP4. Methods: In vitro and in vivo tumorigenicity assays were used to study the functional effects of PARP4 loss and mutation in multiple lung cancer cell lines. Interactomics analysis by quantitative mass spectrometry was conducted to identify PARP4’s interaction partners. Transcriptomic data from cell lines and patient tumors were used to investigate splicing alterations. Results: PARP4 depletion or mutation (I1039T) promotes the tumorigenicity of KRAS- or EGFR-driven lung cancer cells. Disruption of the vault complex, with which PARP4 is commonly associated, did not alter tumorigenicity, indicating that PARP4’s tumor suppressive activity is mediated independently. The splicing regulator hnRNPM is a potentially novel PARP4 interaction partner, the loss of which likewise promotes tumor formation. hnRNPM loss results in splicing perturbations, with a propensity for dysregulated intronic splicing that was similarly observed in PARP4 knockdown cells and in LUAD cohort patients with PARP4 copy number loss. Conclusions: PARP4 is a novel modulator of lung adenocarcinoma, where its tumor suppressive activity is mediated not through the vault complex—unlike conventionally thought, but in association with its novel interaction partner hnRNPM, thus suggesting a role for splicing dysregulation in LUAD tumorigenesis.

KW - Functional genomics

KW - Mechanisms of disease

KW - Non-small-cell lung cancer

UR - http://www.scopus.com/inward/record.url?scp=85199155067&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85199155067&partnerID=8YFLogxK

U2 - 10.1186/s13073-024-01328-1

DO - 10.1186/s13073-024-01328-1

M3 - Article

C2 - 39034402

AN - SCOPUS:85199155067

SN - 1756-994X

VL - 16

JO - Genome Medicine

JF - Genome Medicine

IS - 1

M1 - 91

ER -

PARP4 interacts with hnRNPM to regulate splicing during lung cancer progression

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this