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From Rare Genetic Variants to Polygenic Risk: Understanding the Genetic Basis of Cardiomyopathies

Ana García Ruano, Elena Sola-García, Maria Martin-Istillarty, José Ángel Urbano-Moral

2025Journal of Cardiovascular Development and Disease5 citationsDOIOpen Access PDF

Abstract

Cardiomyopathies represent a heterogeneous group of myocardial disorders, traditionally classified by phenotype into hypertrophic, dilated, and arrhythmogenic. Historically, these conditions have been attributed to high-penetrance rare variants in key structural genes, consistent with a classical Mendelian pattern of inheritance. However, emerging evidence suggests that this model does not fully capture the full spectrum and complexity of disease expression. Many patients do not harbor identifiable pathogenic variants, while others carrying well-known disease-causing variants remain unaffected. This highlights the role of incomplete penetrance, likely modulated by additional genetic modifiers. Recent advances in genomics have revealed a broader view of the genetic basis of cardiomyopathies, introducing new players such as common genetic variants identified as risk alleles, as well as intermediate-effect variants. This continuum of genetic risk, reflecting an overall genetic influence, interacts further with environmental and lifestyle factors, likely contributing together to the observed variability in clinical presentation. This model offers a more realistic framework for understanding genetic inheritance and helps provide a clearer picture of disease expression and penetrance. This review explores the evolving genetic architecture of cardiomyopathies, spanning from a monogenic foundation to intermediate-risk variants and complex polygenic contribution. Recognizing this continuum is essential for enhancing diagnostic accuracy, guiding family screening strategies, and enabling personalized patient management.

Topics & Concepts

PenetranceMendelian inheritanceGenetic architectureGeneticsBiologyDiseaseAllelePhenotypeGenetic variantsMultifactorial InheritanceGenomicsComputational biologyEvolutionary biologyGeneGenotypeSingle-nucleotide polymorphismGenomeMedicineInternal medicineCardiomyopathy and Myosin StudiesCardiovascular Effects of ExerciseRNA Research and Splicing