Litcius/Paper detail

Gene-Level Analysis of Anthracycline-Induced Cardiomyopathy in Cancer Survivors

Noha Sharafeldin, Liting Zhou, Purnima Singh, David K. Crossman, Xuexia Wang, Lindsey Hageman, Wendy Landier, Javier G. Blanco, Paul W. Burridge, Yadav Sapkota, Yutaka Yasui, Gregory T. Armstrong, Leslie L. Robison, Melissa M. Hudson, Kevin C. Oeffinger, Eric J. Chow, Saro H. Armenian, Daniel J. Weisdorf, Smita Bhatia

2023JACC CardioOncology10 citationsDOIOpen Access PDF

Abstract

Anthracyclines are highly effective in treating cancer, albeit with increased cardiomyopathy risk. Although risk is attributed to associations with single nucleotide polymorphisms (SNPs), multiple SNPs on a gene and their interactions remain unexamined. This study examined gene-level associations with cardiomyopathy among cancer survivors using whole-exome sequencing data. For discovery, 278 childhood cancer survivors (129 cases; 149 matched control subjects) from the COG (Children’s Oncology Group) study ALTE03N1 were included. Logic regression (machine learning) was used to identify gene-level SNP combinations for 7,212 genes and ordinal logistic regression to estimate gene-level associations with cardiomyopathy. Models were adjusted for primary cancer, age at cancer diagnosis, sex, race/ethnicity, cumulative anthracycline dose, chest radiation, cardiovascular risk factors, and 3 principal components. Statistical significance threshold of 6.93 × 10−6 accounted for multiple testing. Three independent cancer survivor populations (COG study, BMTSS [Blood or Marrow Transplant Survivor Study] and CCSS [Childhood Cancer Survivor Study]) were used to replicate gene-level associations and examine SNP-level associations from discovery genes using ordinal logistic, conditional logistic, and Cox regression models, respectively. Median age at cancer diagnosis for discovery cases and control subjects was 6 years and 8 years, respectively. Gene-level association for P2RX7 (OR: 0.10; 95% CI: 0.04-0.27; P = 2.19 × 10−6) was successfully replicated (HR: 0.65; 95% CI: 0.47-0.90; P = 0.009) in the CCSS cohort. Additional signals were identified on TNIK, LRRK2, MEFV, NOBOX, and FBN3. Individual SNPs across all discovery genes, except FBN3, were replicated. In our study, SNP sets having 1 or no copies of P2RX7 variant alleles were associated with reduced risk of cardiomyopathy, presenting a potential therapeutic target to mitigate cardiac outcomes in cancer survivors.

Topics & Concepts

Single-nucleotide polymorphismMedicineOncologyInternal medicineCancerCardiomyopathyLogistic regressionBioinformaticsBiologyGeneticsGeneHeart failureGenotypeChemotherapy-induced cardiotoxicity and mitigationLung Cancer Research StudiesCancer Treatment and Pharmacology