Defective transcription elongation in a subset of cancers confers immunotherapy resistance

Vishnu Modur; Navneet Singh; Vakul Mohanty; Eunah Chung; Belal Muhammad; Kwangmin Choi; Xiaoting Chen; Kashish Chetal; Nancy Ratner; Nathan Salomonis; Matthew T. Weirauch; Susan Waltz; Gang Huang; Lisa Privette-Vinnedge; Joo Seop Park; Edith M. Janssen; Kakajan Komurov

doi:10.1038/s41467-018-06810-0

Defective transcription elongation in a subset of cancers confers immunotherapy resistance

Vishnu Modur, Navneet Singh, Vakul Mohanty, Eunah Chung, Belal Muhammad, Kwangmin Choi, Xiaoting Chen, Kashish Chetal, Nancy Ratner, Nathan Salomonis, Matthew T. Weirauch, Susan Waltz, Gang Huang, Lisa Privette-Vinnedge, Joo Seop Park, Edith M. Janssen, Kakajan Komurov^*

^*Corresponding author for this work

Medicine, Nephrology Division

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

14 Scopus citations

Abstract

The nature and role of global transcriptional deregulations in cancers are not fully understood. We report that a large proportion of cancers have widespread defects in mRNA transcription elongation (TE). Cancers with TE defects (TE^deff) display spurious transcription and defective mRNA processing of genes characterized by long genomic length, poised promoters and inducible expression. Signaling pathways regulated by such genes, such as pro-inflammatory response pathways, are consistently suppressed in TE^deff tumors. Remarkably, TE^deff correlates with the poor response and outcome in immunotherapy, but not chemo- or targeted therapy, -treated renal cell carcinoma and metastatic melanoma patients. Forced pharmacologic or genetic induction of TE^deff in tumor cells impairs pro-inflammatory response signaling, and imposes resistance to the innate and adaptive anti-tumor immune responses and checkpoint inhibitor therapy in vivo. Therefore, defective TE is a previously unknown mechanism of tumor immune resistance, and should be assessed in cancer patients undergoing immunotherapy.

Original language	English (US)
Article number	4410
Journal	Nature communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-06810-0
State	Published - Dec 1 2018

ASJC Scopus subject areas

Physics and Astronomy(all)
Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)

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Modur, V., Singh, N., Mohanty, V., Chung, E., Muhammad, B., Choi, K., Chen, X., Chetal, K., Ratner, N., Salomonis, N., Weirauch, M. T., Waltz, S., Huang, G., Privette-Vinnedge, L., Park, J. S., Janssen, E. M., & Komurov, K. (2018). Defective transcription elongation in a subset of cancers confers immunotherapy resistance. Nature communications, 9(1), Article 4410. https://doi.org/10.1038/s41467-018-06810-0

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title = "Defective transcription elongation in a subset of cancers confers immunotherapy resistance",

abstract = "The nature and role of global transcriptional deregulations in cancers are not fully understood. We report that a large proportion of cancers have widespread defects in mRNA transcription elongation (TE). Cancers with TE defects (TEdeff) display spurious transcription and defective mRNA processing of genes characterized by long genomic length, poised promoters and inducible expression. Signaling pathways regulated by such genes, such as pro-inflammatory response pathways, are consistently suppressed in TEdeff tumors. Remarkably, TEdeff correlates with the poor response and outcome in immunotherapy, but not chemo- or targeted therapy, -treated renal cell carcinoma and metastatic melanoma patients. Forced pharmacologic or genetic induction of TEdeff in tumor cells impairs pro-inflammatory response signaling, and imposes resistance to the innate and adaptive anti-tumor immune responses and checkpoint inhibitor therapy in vivo. Therefore, defective TE is a previously unknown mechanism of tumor immune resistance, and should be assessed in cancer patients undergoing immunotherapy.",

author = "Vishnu Modur and Navneet Singh and Vakul Mohanty and Eunah Chung and Belal Muhammad and Kwangmin Choi and Xiaoting Chen and Kashish Chetal and Nancy Ratner and Nathan Salomonis and Weirauch, {Matthew T.} and Susan Waltz and Gang Huang and Lisa Privette-Vinnedge and Park, {Joo Seop} and Janssen, {Edith M.} and Kakajan Komurov",

note = "Funding Information: This work was in part supported by NCI (CA193549) and CCHMC Research Innovation Pilot awards to KK, and Department of Defense (BC150484) award to NS. The genomic sequencing core at the University of Cincinnati is supported by P30-ES006096. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

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doi = "10.1038/s41467-018-06810-0",

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Modur, V, Singh, N, Mohanty, V, Chung, E, Muhammad, B, Choi, K, Chen, X, Chetal, K, Ratner, N, Salomonis, N, Weirauch, MT, Waltz, S, Huang, G, Privette-Vinnedge, L, Park, JS, Janssen, EM & Komurov, K 2018, 'Defective transcription elongation in a subset of cancers confers immunotherapy resistance', Nature communications, vol. 9, no. 1, 4410. https://doi.org/10.1038/s41467-018-06810-0

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T1 - Defective transcription elongation in a subset of cancers confers immunotherapy resistance

AU - Modur, Vishnu

AU - Singh, Navneet

AU - Mohanty, Vakul

AU - Chung, Eunah

AU - Muhammad, Belal

AU - Choi, Kwangmin

AU - Chen, Xiaoting

AU - Chetal, Kashish

AU - Ratner, Nancy

AU - Salomonis, Nathan

AU - Weirauch, Matthew T.

AU - Waltz, Susan

AU - Huang, Gang

AU - Privette-Vinnedge, Lisa

AU - Park, Joo Seop

AU - Janssen, Edith M.

AU - Komurov, Kakajan

N1 - Funding Information: This work was in part supported by NCI (CA193549) and CCHMC Research Innovation Pilot awards to KK, and Department of Defense (BC150484) award to NS. The genomic sequencing core at the University of Cincinnati is supported by P30-ES006096. Publisher Copyright: © 2018, The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - The nature and role of global transcriptional deregulations in cancers are not fully understood. We report that a large proportion of cancers have widespread defects in mRNA transcription elongation (TE). Cancers with TE defects (TEdeff) display spurious transcription and defective mRNA processing of genes characterized by long genomic length, poised promoters and inducible expression. Signaling pathways regulated by such genes, such as pro-inflammatory response pathways, are consistently suppressed in TEdeff tumors. Remarkably, TEdeff correlates with the poor response and outcome in immunotherapy, but not chemo- or targeted therapy, -treated renal cell carcinoma and metastatic melanoma patients. Forced pharmacologic or genetic induction of TEdeff in tumor cells impairs pro-inflammatory response signaling, and imposes resistance to the innate and adaptive anti-tumor immune responses and checkpoint inhibitor therapy in vivo. Therefore, defective TE is a previously unknown mechanism of tumor immune resistance, and should be assessed in cancer patients undergoing immunotherapy.

AB - The nature and role of global transcriptional deregulations in cancers are not fully understood. We report that a large proportion of cancers have widespread defects in mRNA transcription elongation (TE). Cancers with TE defects (TEdeff) display spurious transcription and defective mRNA processing of genes characterized by long genomic length, poised promoters and inducible expression. Signaling pathways regulated by such genes, such as pro-inflammatory response pathways, are consistently suppressed in TEdeff tumors. Remarkably, TEdeff correlates with the poor response and outcome in immunotherapy, but not chemo- or targeted therapy, -treated renal cell carcinoma and metastatic melanoma patients. Forced pharmacologic or genetic induction of TEdeff in tumor cells impairs pro-inflammatory response signaling, and imposes resistance to the innate and adaptive anti-tumor immune responses and checkpoint inhibitor therapy in vivo. Therefore, defective TE is a previously unknown mechanism of tumor immune resistance, and should be assessed in cancer patients undergoing immunotherapy.

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Defective transcription elongation in a subset of cancers confers immunotherapy resistance

Abstract

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