I. Singh scite author profile

A functional network of blood vessels is essential for organ growth and homeostasis. Yet, how the vasculature matures and maintains adult homeostasis remains elusive in live mice. By longitudinally tracking the same neonatal endothelial cells (ECs) over days to weeks, we found that capillary plexus expansion is driven by network-wide vessel regression and transient angiogenesis. A fixed number of neonatal ECs rearrange their positions to evenly distribute throughout the developing plexus and become positionally stable in adulthood. Upon injury, while neonatal ECs are predisposed to die, adult ECs survive through a plasmalemmal self-repair response. Furthermore, adult neighboring ECs reactivate migration to assist vessel repair. Lastly, neonatal vessel regression and adult vascular maintenance are orchestrated by temporally restricted VEGFR2 dependent signaling. Our work sheds light on fundamental cellular mechanisms that underlie both vascular maturation and adult homeostasis in vivo.

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Impaired Stressed Blood Volume Augmentation in Post-COVID-19 Patients

Savarimuthu

Joseph

Lutchmansingh

et al. 2022

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Structural, Functional, and Single Cell Transcriptomic Age-Related Remodeling of Mouse Proximal Pulmonary Artery

Manning

Ramachandra

Cavinato

et al. 2022

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Structural, Functional, and Single Cell Transcriptomic Changes in Mouse Pulmonary Artery Resulting from Hypoxia

Manning

Ramachandra

Schupp

et al. 2021

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I. Singh

Mechanisms of skin vascular maturation and maintenance captured by longitudinal imaging of live mice

Mechanisms of vascular maturation and maintenance captured by longitudinal imaging of live mouse skin

Impaired Stressed Blood Volume Augmentation in Post-COVID-19 Patients

Structural, Functional, and Single Cell Transcriptomic Age-Related Remodeling of Mouse Proximal Pulmonary Artery

Structural, Functional, and Single Cell Transcriptomic Changes in Mouse Pulmonary Artery Resulting from Hypoxia

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