Decoding Fibroblast Diversity Associated with the Postnatal Loss of Cardiac Regenerative Capacity
Parisa Aghagolzadeh, Vincent Rapp, Mohamed Nemir, Felix Mahfoud, Marijke Brink, Thierry Pedrazzini

TL;DR
This study identifies distinct fibroblast populations in neonatal and adult hearts, revealing how their diversity and communication networks change with age and affect heart regeneration.
Contribution
The paper provides a detailed single-cell analysis of fibroblast heterogeneity and communication in neonatal and adult hearts, linking these differences to regenerative capacity.
Findings
Neonatal fibroblasts show higher enrichment of core matrisome components like collagens and proteoglycans.
Adult fibroblasts exhibit reduced fibroblast–fibroblast interaction strength and are enriched in immune/chemotactic signaling.
Post-MI adult hearts partially recapitulate neonatal fibroblast programs but lack specific neonatal injury responses.
Abstract
The mammalian heart rapidly loses regenerative capacity after birth and responds to myocardial infarction (MI) with scar formation and development of interstitial fibrosis. Cardiac fibroblasts orchestrate extracellular matrix (ECM) remodeling and cell–cell communication during development and injury; however, how fibroblast heterogeneity and fibroblast communication networks differ between regenerative neonatal and non-regenerative adult hearts remains incompletely defined. We performed scRNA-seq analysis on metabolically active CD45−/CD31− nonmyocyte cells from the left ventricles of normal neonatal (P3) and adult (P84) mice to probe heterogeneity in a cardiac fibroblast-enriched population. We identified five transcriptionally distinct cardiac fibroblast subclusters (CF0-CF4) demonstrating different distributions across ages, including an adult-enriched immune/complement-associated…
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Taxonomy
TopicsCardiac Fibrosis and Remodeling · Congenital heart defects research · Tissue Engineering and Regenerative Medicine
