The genetic heterogeneity and drug resistance mechanisms of relapsed refractory multiple myeloma

Josh N. Vo; Yi‐Mi Wu; Jeanmarie Mishler; Sarah E. Hall; Rahul Mannan; Lisha Wang; Ning Yu; Jin Zhou; Alexander C. Hopkins; James C. Estill; Wallace Chan; Jennifer Yesil; Xuhong Cao; Arvind Rao; Alexander Tsodikov; Moshe Talpaz; Craig E. Cole; Jing C. Ye; Sikander Ailawadhi; Jesús G. Berdeja; Craig C. Hofmeister; Sundar Jagannath; Andrzej Jakubowiak; Amrita Krishnan; Shaji Kumar; Moshe Levy; Sagar Lonial; Gregory Orloff; David S. Siegel; Suzanne Trudel; Saad Z. Usmani; Ravi Vij; Jeffrey L. Wolf; Jeffrey A. Zonder; P. Leif Bergsagel; Daniel Auclair; Hearn Jay Cho; Dan R. Robinson; Arul M. Chinnaiyan

doi:10.1038/s41467-022-31430-0

The genetic heterogeneity and drug resistance mechanisms of relapsed refractory multiple myeloma

Josh N. Vo(University of Michigan), Yi‐Mi Wu(University of Michigan), Jeanmarie Mishler(University of Michigan), Sarah E. Hall(University of Michigan), Rahul Mannan(University of Michigan), Lisha Wang(University of Michigan), Ning Yu(University of Michigan), Jin Zhou(University of Michigan), Alexander C. Hopkins(University of Michigan), James C. Estill(University of Michigan), Wallace Chan(University of Michigan), Jennifer Yesil(Multiple Myeloma Research Foundation), Xuhong Cao(Howard Hughes Medical Institute), Arvind Rao(University of Michigan), Alexander Tsodikov(University of Michigan), Moshe Talpaz(University of Michigan), Craig E. Cole(Michigan State University), Jing C. Ye(University of Michigan), Sikander Ailawadhi(Mayo Clinic in Florida), Jesús G. Berdeja(Sarah Cannon), Craig C. Hofmeister(Emory University), Sundar Jagannath(Icahn School of Medicine at Mount Sinai), Andrzej Jakubowiak(University of Chicago Medical Center), Amrita Krishnan(City of Hope), Shaji Kumar(Mayo Clinic in Arizona), Moshe Levy(Baylor University Medical Center), Sagar Lonial(Emory University), Gregory Orloff(Virginia Cancer Specialists), David S. Siegel(Hackensack University Medical Center), Suzanne Trudel(Princess Margaret Cancer Centre), Saad Z. Usmani(Memorial Sloan Kettering Cancer Center), Ravi Vij(Washington University in St. Louis), Jeffrey L. Wolf(University of California, San Francisco), Jeffrey A. Zonder(The Barbara Ann Karmanos Cancer Institute), P. Leif Bergsagel(WinnMed), Daniel Auclair(Multiple Myeloma Research Foundation), Hearn Jay Cho(Multiple Myeloma Research Foundation), Dan R. Robinson(University of Michigan), Arul M. Chinnaiyan(Howard Hughes Medical Institute)

Nature Communications

June 29, 2022

10.1038/s41467-022-31430-0

Cited by 90Open Access

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Abstract

Multiple myeloma is the second most common hematological malignancy. Despite significant advances in treatment, relapse is common and carries a poor prognosis. Thus, it is critical to elucidate the genetic factors contributing to disease progression and drug resistance. Here, we carry out integrative clinical sequencing of 511 relapsed, refractory multiple myeloma (RRMM) patients to define the disease's molecular alterations landscape. The NF-κB and RAS/MAPK pathways are more commonly altered than previously reported, with a prevalence of 45-65% each. In the RAS/MAPK pathway, there is a long tail of variants associated with the RASopathies. By comparing our RRMM cases with untreated patients, we identify a diverse set of alterations conferring resistance to three main classes of targeted therapy in 22% of our cohort. Activating mutations in IL6ST are also enriched in RRMM. Taken together, our study serves as a resource for future investigations of RRMM biology and potentially informs clinical management.

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