Pharmacogenomics and Personalized Medicine (Oct 2021)

NUDT15 c.415C>T Polymorphism Predicts 6-MP Induced Early Myelotoxicity in Patients with Acute Lymphoblastic Leukemia Undergoing Maintenance Therapy

  • Pai AA,
  • Mohan A,
  • Benjamin ESB,
  • Illangeswaran RSS,
  • Xavier Raj I,
  • Janet NB,
  • Arunachalam AK,
  • Kavitha ML,
  • Kulkarni U,
  • Devasia AJ,
  • Fouzia NA,
  • Abraham A,
  • Srivastava A,
  • George B,
  • Mathews V,
  • Korula A,
  • Balasubramanian P

Journal volume & issue
Vol. Volume 14
pp. 1303 – 1313

Abstract

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Aswin Anand Pai, Ajith Mohan, Esther Sathya Bama Benjamin, Raveen Stephen Stallon Illangeswaran, Infencia Xavier Raj, Nancy Beryl Janet, Arun Kumar Arunachalam, ML Kavitha, Uday Kulkarni, Anup J Devasia, NA Fouzia, Aby Abraham, Alok Srivastava, Biju George, Vikram Mathews, Anu Korula, Poonkuzhali Balasubramanian Department of Haematology, Christian Medical College, Vellore, Tamilnadu, IndiaCorrespondence: Poonkuzhali BalasubramanianDepartment of Haematology, Christian Medical College, Vellore, Tamilnadu, IndiaEmail [email protected]: Severe myelosuppression in patients with acute lymphoblastic leukemia (ALL) undergoing 6-MP-based maintenance therapy is attributed to TPMT gene polymorphisms, which is rare in Asian populations. This study aims to evaluate the role of selected polymorphisms in NUDT15, ITPA, and MRP4 genes in addition to TPMT in predicting 6-MP intolerance during ALL maintenance therapy.Patients and Methods: We screened for the presence of NUDT15*3 (c.415 C>T, rs116855232); MRP4 c.2269 C>T (rs3765534), ITPA c.94 C>A (rs1127354) polymorphisms in addition to TPMT *2 (rs1800462), *3A (*3B and *3C; rs1800460 and rs1142345) in ALL patients with documented severe neutropenia (cohort-1; n=42). These polymorphisms were then screened in a prospective cohort of ALL patients (cohort-2; n=133) and compared with 6-MP dose reduction, early/late myelotoxicity.Results: Nineteen (45%) patients in cohort-1 and 18 (14%) in cohort-2 had NUDT15 c.415 C>T variant while 4 (3%) patients in cohort-2 had TPMT*3C variant. Five (12%) in cohort-1 and 30 (24%) in cohort-2 had ITPA c.94 C>A variant while 9 (22%) and 15 (12%) had MRP4 c.2269 C>T variant in cohorts-1 and 2, respectively. All in cohort-1 and 36 (27%) in cohort-2 had severe myelotoxicity. Twenty-eight patients (66.6%) in cohort-1 and 40 (30%) patients in cohort-2 had significant 6-MP dose reduction. NUDT15 c.415 C>T variant explained severe myelotoxicity in 63% and 33% in cohort 1 and 2. TPMT*3C and ITPA c.94 C>A variants also explained myelotoxicity in cohort-2 (Median ANC: 376 vs 1014 mm3; p=0.04 and 776 vs 1023 mm3; p=0.04 respectively). NUDT15 c.415 C>T polymorphism explained significant myelotoxicity (507 vs 1298 mm3; pT (15*3), TPMT*3C, as well as ITPA c.94 C>A and MRP4 c.2269 C>T polymorphisms explain hematotoxicities. Preemptive genotype-based (NUDT15*3, TPMT, ITPA c.94 C>A) 6-MP dosing could improve the outcome after maintenance therapy.Keywords: leukemia, mercaptopurine, myelotoxicity, pharmacogenomics

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