Forskning ved Københavns Universitet - Københavns Universitet

Forside

NUDT15 polymorphisms alter thiopurine metabolism and hematopoietic toxicity

Publikation: Bidrag til tidsskriftTidsskriftartikel

  • Takaya Moriyama
  • Rina Nishii
  • Virginia Perez-Andreu
  • Wenjian Yang
  • Federico Antillon Klussmann
  • Xujie Zhao
  • Ting-Nien Lin
  • Keito Hoshitsuki
  • Jacob Nersting
  • Kentaro Kihira
  • Ute Hofmann
  • Yoshihiro Komada
  • Motohiro Kato
  • Robert McCorkle
  • Lie Li
  • Katsuyoshi Koh
  • Cesar Rolando Najera
  • Shirley Kow-Yin Kham
  • Tomoya Isobe
  • Zhiwei Chen
  • Edwynn Kean-Hui Chiew
  • Deepa Bhojwani
  • Cynthia Jeffries
  • Yan Lu
  • Matthias Schwab
  • Hiroto Inaba
  • Ching-Hon Pui
  • Mary V Relling
  • Atsushi Manabe
  • Hiroki Hori
  • Allen E J Yeoh
  • William E Evans
  • Jun J Yang

Widely used as anticancer and immunosuppressive agents, thiopurines have narrow therapeutic indices owing to frequent toxicities, partly explained by TPMT genetic polymorphisms. Recent studies identified germline NUDT15 variation as another critical determinant of thiopurine intolerance, but the underlying molecular mechanisms and the clinical implications of this pharmacogenetic association remain unknown. In 270 children enrolled in clinical trials for acute lymphoblastic leukemia in Guatemala, Singapore and Japan, we identified four NUDT15 coding variants (p.Arg139Cys, p.Arg139His, p.Val18Ile and p.Val18_Val19insGlyVal) that resulted in 74.4-100% loss of nucleotide diphosphatase activity. Loss-of-function NUDT15 diplotypes were consistently associated with thiopurine intolerance across the three cohorts (P = 0.021, 2.1 × 10(-5) and 0.0054, respectively; meta-analysis P = 4.45 × 10(-8), allelic effect size = -11.5). Mechanistically, NUDT15 inactivated thiopurine metabolites and decreased thiopurine cytotoxicity in vitro, and patients with defective NUDT15 alleles showed excessive levels of thiopurine active metabolites and toxicity. Taken together, these results indicate that a comprehensive pharmacogenetic model integrating NUDT15 variants may inform personalized thiopurine therapy.

OriginalsprogEngelsk
TidsskriftNature Genetics
Vol/bind48
Udgave nummer4
Sider (fra-til)367-73
Antal sider7
ISSN1061-4036
DOI
StatusUdgivet - apr. 2016

ID: 165008370