Clonal selection and double-hit events involving tumor suppressor genes underlie relapse in myeloma

Niels Weinhold; Cody Ashby; Leo Rasche; Shweta S. Chavan; Caleb Stein; Owen Stephens; Ruslana G. Tytarenko; Michael Bauer; Tobias Meißner; Shayu Deshpande; Purvi H. Patel; Tímea Buzder; Gábor Molnár; Erich A. Peterson; Frits van Rhee; Maurizio Zangari; Sharmilan Thanendrarajan; Carolina Schinke; Erming Tian; Joshua Epstein; Bart Barlogie; Faith E. Davies; Christoph Heuck; Brian A. Walker; Gareth J. Morgan

doi:10.1182/blood-2016-06-723007

Clonal selection and double-hit events involving tumor suppressor genes underlie relapse in myeloma

Niels Weinhold(University of Arkansas for Medical Sciences), Cody Ashby(University of Arkansas for Medical Sciences), Leo Rasche(University of Arkansas for Medical Sciences), Shweta S. Chavan(University of Arkansas for Medical Sciences), Caleb Stein(University of Arkansas for Medical Sciences), Owen Stephens(University of Arkansas for Medical Sciences), Ruslana G. Tytarenko(University of Arkansas for Medical Sciences), Michael Bauer(University of Arkansas for Medical Sciences), Tobias Meißner, Shayu Deshpande(University of Arkansas for Medical Sciences), Purvi H. Patel(University of Arkansas for Medical Sciences), Tímea Buzder(University of Arkansas for Medical Sciences), Gábor Molnár(University of Arkansas for Medical Sciences), Erich A. Peterson(University of Arkansas for Medical Sciences), Frits van Rhee(University of Arkansas for Medical Sciences), Maurizio Zangari(University of Arkansas for Medical Sciences), Sharmilan Thanendrarajan(University of Arkansas for Medical Sciences), Carolina Schinke(University of Arkansas for Medical Sciences), Erming Tian(University of Arkansas for Medical Sciences), Joshua Epstein(University of Arkansas for Medical Sciences), Bart Barlogie(University of Arkansas for Medical Sciences), Faith E. Davies(University of Arkansas for Medical Sciences), Christoph Heuck(University of Arkansas for Medical Sciences), Brian A. Walker(University of Arkansas for Medical Sciences), Gareth J. Morgan(University of Arkansas for Medical Sciences)

Blood

August 12, 2016

10.1182/blood-2016-06-723007

Cited by 213Open Access

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Abstract

To elucidate the mechanisms underlying relapse from chemotherapy in multiple myeloma, we performed a longitudinal study of 33 patients entered into Total Therapy protocols investigating them using gene expression profiling, high-resolution copy number arrays, and whole-exome sequencing. The study illustrates the mechanistic importance of acquired mutations in known myeloma driver genes and the critical nature of biallelic inactivation events affecting tumor suppressor genes, especially TP53, the end result being resistance to apoptosis and increased proliferation rates, which drive relapse by Darwinian-type clonal evolution. The number of copy number aberration changes and biallelic inactivation of tumor suppressor genes was increased in GEP70 high risk, consistent with genomic instability being a key feature of high risk. In conclusion, the study highlights the impact of acquired genetic events, which enhance the evolutionary fitness level of myeloma-propagating cells to survive multiagent chemotherapy and to result in relapse.

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