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Cre-loxP-mediated genetic lineage tracing: Unraveling cell fate and origin in the developing heart

Tao Wang, Xinzhe Chen, Kai Wang, Kai Wang, Jie Ju, Xue Yu, Shaocong Wang, Cuiyun Liu, Kun Wang, Kun Wang

2023Frontiers in Cardiovascular Medicine10 citationsDOIOpen Access PDF

Abstract

The Cre-loxP-mediated genetic lineage tracing system is essential for constructing the fate mapping of single-cell progeny or cell populations. Understanding the structural hierarchy of cardiac progenitor cells facilitates unraveling cell fate and origin issues in cardiac development. Several prospective Cre-loxP-based lineage-tracing systems have been used to analyze precisely the fate determination and developmental characteristics of endocardial cells (ECs), epicardial cells, and cardiomyocytes. Therefore, emerging lineage-tracing techniques advance the study of cardiovascular-related cellular plasticity. In this review, we illustrate the principles and methods of the emerging Cre-loxP-based genetic lineage tracing technology for trajectory monitoring of distinct cell lineages in the heart. The comprehensive demonstration of the differentiation process of single-cell progeny using genetic lineage tracing technology has made outstanding contributions to cardiac development and homeostasis, providing new therapeutic strategies for tissue regeneration in congenital and cardiovascular diseases (CVDs).

Topics & Concepts

Fate mappingCell fate determinationLineage (genetic)BiologyProgenitor cellCell lineageHeart developmentRegeneration (biology)TracingProgenitorStem cellCellular differentiationCell biologyComputational biologyGeneticsGeneEmbryonic stem cellTranscription factorComputer scienceOperating systemCongenital heart defects researchCardiac Fibrosis and RemodelingRNA modifications and cancer