Multiomics analysis of serial PARP inhibitor treated metastatic TNBC inform on rational combination therapies

Marilyne Labrie; Allen Li; Allison Creason; Courtney Betts; Jamie Keck; Brett Johnson; Shamilene Sivagnanam; Christopher Boniface; Hongli Ma; Aurora Blucher; Young Hwan Chang; Koei Chin; Jacqueline Vuky; Alexander R. Guimaraes; Molly Downey; Jeong Youn Lim; Lina Gao; Kiara Siex; Swapnil Parmar; Annette Kolodzie; Paul T. Spellman; Jeremy Goecks; Lisa M. Coussens; Christopher L. Corless; Raymond Bergan; Joe W. Gray; Gordon B. Mills; Zahi I. Mitri

doi:10.1038/s41698-021-00232-w

npj Precision Oncology (Oct 2021)

Multiomics analysis of serial PARP inhibitor treated metastatic TNBC inform on rational combination therapies

Marilyne Labrie,
Allen Li,
Allison Creason,
Courtney Betts,
Jamie Keck,
Brett Johnson,
Shamilene Sivagnanam,
Christopher Boniface,
Hongli Ma,
Aurora Blucher,
Young Hwan Chang,
Koei Chin,
Jacqueline Vuky,
Alexander R. Guimaraes,
Molly Downey,
Jeong Youn Lim,
Lina Gao,
Kiara Siex,
Swapnil Parmar,
Annette Kolodzie,
Paul T. Spellman,
Jeremy Goecks,
Lisa M. Coussens,
Christopher L. Corless,
Raymond Bergan,
Joe W. Gray,
Gordon B. Mills,
Zahi I. Mitri

Affiliations

Marilyne Labrie: Knight Cancer Institute, Oregon Health and Science University
Allen Li: Knight Cancer Institute, Oregon Health and Science University
Allison Creason: Computational Biology Program, Oregon Health and Science University
Courtney Betts: Department of Cell, Developmental & Cancer Biology, Oregon Health and Science University
Jamie Keck: Knight Cancer Institute, Oregon Health and Science University
Brett Johnson: Knight Cancer Institute, Oregon Health and Science University
Shamilene Sivagnanam: Knight Cancer Institute, Oregon Health and Science University
Christopher Boniface: Department of Molecular and Medical Genetics, Oregon Health and Science University
Hongli Ma: Knight Cancer Institute, Oregon Health and Science University
Aurora Blucher: Knight Cancer Institute, Oregon Health and Science University
Young Hwan Chang: Computational Biology Program, Oregon Health and Science University
Koei Chin: Center for Spatial Systems Biomedicine (OCSSB), Oregon Health and Science University
Jacqueline Vuky: Knight Cancer Institute, Oregon Health and Science University
Alexander R. Guimaraes: Knight Cancer Institute, Oregon Health and Science University
Molly Downey: Department of Diagnostic Radiology, Oregon Health and Science University
Jeong Youn Lim: Knight Cancer Institute, Oregon Health and Science University
Lina Gao: Knight Cancer Institute, Oregon Health and Science University
Kiara Siex: Knight Cancer Institute, Oregon Health and Science University
Swapnil Parmar: Knight Cancer Institute, Oregon Health and Science University
Annette Kolodzie: Knight Cancer Institute, Oregon Health and Science University
Paul T. Spellman: Knight Cancer Institute, Oregon Health and Science University
Jeremy Goecks: Computational Biology Program, Oregon Health and Science University
Lisa M. Coussens: Knight Cancer Institute, Oregon Health and Science University
Christopher L. Corless: Knight Cancer Institute, Oregon Health and Science University
Raymond Bergan: Knight Cancer Institute, Oregon Health and Science University
Joe W. Gray: Knight Cancer Institute, Oregon Health and Science University
Gordon B. Mills: Knight Cancer Institute, Oregon Health and Science University
Zahi I. Mitri: Knight Cancer Institute, Oregon Health and Science University

DOI: https://doi.org/10.1038/s41698-021-00232-w
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 11

Abstract

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Abstract In a pilot study, we evaluated the feasibility of real-time deep analysis of serial tumor samples from triple negative breast cancer patients to identify mechanisms of resistance and treatment opportunities as they emerge under therapeutic stress engendered by poly-ADP-ribose polymerase (PARP) inhibitors (PARPi). In a BRCA-mutant basal breast cancer exceptional long-term survivor, a striking tumor destruction was accompanied by a marked infiltration of immune cells containing CD8 effector cells, consistent with pre-clinical evidence for association between STING mediated immune activation and benefit from PARPi and immunotherapy. Tumor cells in the exceptional responder underwent extensive protein network rewiring in response to PARP inhibition. In contrast, there were minimal changes in the ecosystem of a luminal androgen receptor rapid progressor, likely due to indifference to the effects of PARP inhibition. Together, identification of PARPi-induced emergent changes could be used to select patient specific combination therapies, based on tumor and immune state changes.

Published in npj Precision Oncology

ISSN: 2397-768X (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://www.nature.com/npjprecisiononcology/

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