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Cracking the Endothelial Calcium (Ca2+) Code: A Matter of Timing and Spacing

Francesco Moccia, Valentina Brunetti, Teresa Soda, Roberto Berra‐Romani, Giorgia Scarpellino

2023International Journal of Molecular Sciences31 citationsDOIOpen Access PDF

Abstract

A monolayer of endothelial cells lines the innermost surface of all blood vessels, thereby coming into close contact with every region of the body and perceiving signals deriving from both the bloodstream and parenchymal tissues. An increase in intracellular Ca2+ concentration ([Ca2+]i) is the main mechanism whereby vascular endothelial cells integrate the information conveyed by local and circulating cues. Herein, we describe the dynamics and spatial distribution of endothelial Ca2+ signals to understand how an array of spatially restricted (at both the subcellular and cellular levels) Ca2+ signals is exploited by the vascular intima to fulfill this complex task. We then illustrate how local endothelial Ca2+ signals affect the most appropriate vascular function and are integrated to transmit this information to more distant sites to maintain cardiovascular homeostasis. Vasorelaxation and sprouting angiogenesis were selected as an example of functions that are finely tuned by the variable spatio-temporal profile endothelial Ca2+ signals. We further highlighted how distinct Ca2+ signatures regulate the different phases of vasculogenesis, i.e., proliferation and migration, in circulating endothelial precursors.

Topics & Concepts

VasculogenesisCell biologyAngiogenesisHomeostasisSprouting angiogenesisIntracellularFunction (biology)BiologyNeuroscienceCalcium in biologyCalciumChemistryNeovascularizationCancer researchStem cellOrganic chemistryProgenitor cellPhotoreceptor and optogenetics researchNeurobiology and Insect Physiology ResearchReceptor Mechanisms and Signaling
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