Blood Advances (Jul 2019)

Recurrent genetic HLA loss in AML relapsed after matched unrelated allogeneic hematopoietic cell transplantation

  • Max Jan,
  • Matthew J. Leventhal,
  • Elizabeth A. Morgan,
  • Jordan C. Wengrod,
  • Anwesha Nag,
  • Samantha D. Drinan,
  • Bruce M. Wollison,
  • Matthew D. Ducar,
  • Aaron R. Thorner,
  • Scott Leppanen,
  • Jane Baronas,
  • Jonathan Stevens,
  • William J. Lane,
  • Natasha Kekre,
  • Vincent T. Ho,
  • John Koreth,
  • Corey S. Cutler,
  • Sarah Nikiforow,
  • Edwin P. Alyea, III,
  • Joseph H. Antin,
  • Robert J. Soiffer,
  • Jerome Ritz,
  • R. Coleman Lindsley,
  • Benjamin L. Ebert

Journal volume & issue
Vol. 3, no. 14
pp. 2199 – 2204

Abstract

Read online

Abstract: Immune evasion is a hallmark of cancer and a central mechanism underlying acquired resistance to immune therapy. In allogeneic hematopoietic cell transplantation (alloHCT), late relapses can arise after prolonged alloreactive T-cell control, but the molecular mechanisms of immune escape remain unclear. To identify mechanisms of immune evasion, we performed a genetic analysis of serial samples from 25 patients with myeloid malignancies who relapsed ≥1 year after alloHCT. Using targeted sequencing and microarray analysis to determine HLA allele-specific copy number, we identified copy-neutral loss of heterozygosity events and focal deletions spanning class 1 HLA genes in 2 of 12 recipients of matched unrelated-donor HCT and in 1 of 4 recipients of mismatched unrelated-donor HCT. Relapsed clones, although highly related to their antecedent pretransplantation malignancies, frequently acquired additional mutations in transcription factors and mitogenic signaling genes. Previously, the study of relapse after haploidentical HCT established the paradigm of immune evasion via loss of mismatched HLA. Here, in the context of matched unrelated-donor HCT, HLA loss provides genetic evidence that allogeneic immune recognition may be mediated by minor histocompatibility antigens and suggests opportunities for novel immunologic approaches for relapse prevention.