A Conserved Venous Remodeling Program Governs Inferior Vena Cava Formation in Zebrafish

Giuseppina Lambiase
Noga Moshe
Calanit Raanan
Rudra N. Das
Karina Yaniv

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Abstract

The Inferior Vena Cava (IVC), the largest venous conduit in mammals, forms through complex remodeling of the embryonic cardinal veins (CVs), a process prone to congenital anomalies, with significant clinical implications. However, the mechanisms underlying IVC formation remain unclear. Here, we identify a conserved IVC in zebrafish that emerges during metamorphosis through remodeling of the embryonic CVs, mirroring the mammalian process. Using in vivo imaging and clonal lineage tracing, we identify the cellular origins and molecular mechanisms controlling IVC formation and demonstrate that the transition from CV to IVC represents a shift from a multifunctional embryonic vein to a specialized adult conduit adapted for high-volume blood return. Overall, our findings illuminate conserved mechanisms of venous remodeling and establish a foundation for investigating congenital venous anomalies.

Version published to 10.1101/2025.04.28.650985v1 on bioRxiv
May 1, 2025

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A Conserved Venous Remodeling Program Governs Inferior Vena Cava Formation in Zebrafish

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Abstract

Article activity feed

An embryonic artery-forming niche reactivates in pulmonary arterial hypertension

Neural signaling contributes to heart formation and growth in the invertebrate chordate, Ciona robusta

Neural crest cell derived DKK1 modulates Wnt signalling in the second heart field to orchestrate cardiac outflow tract development

Listed in

Abstract

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