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dc.contributor.author Burboa, Pía C
dc.contributor.author Corrêa-Velloso, Juliana C
dc.contributor.author Arriagada, Cecilia
dc.contributor.author Thomas, Andrew P
dc.contributor.author Durán, Walter N
dc.contributor.author Lillo, Mauricio A
dc.date.accessioned 2024-09-26T00:52:50Z
dc.date.available 2024-09-26T00:52:50Z
dc.date.issued 2024
dc.identifier.issn 1073-9688
dc.identifier.other Mendeley: ac3cd7f6-1718-3834-8a73-6d3364c82ac4
dc.identifier.uri https://repositorio.uss.cl/handle/uss/13910
dc.description Publisher Copyright: © 2024 The Authors. Microcirculation published by John Wiley & Sons Ltd.
dc.description.abstract Objective: The endothelium regulates crucial aspects of vascular function, including hemostasis, vasomotor tone, proliferation, immune cell adhesion, and microvascular permeability. Endothelial cells (ECs), especially in arterioles, are pivotal for flow distribution and peripheral resistance regulation. Investigating vascular endothelium physiology, particularly in microvascular ECs, demands precise isolation and culturing techniques. Methods: Freshly isolated ECs are vital for examining protein expression, ion channel behavior, and calcium dynamics. Establishing primary endothelial cell cultures is crucial for unraveling vascular functions and understanding intact microvessel endothelium roles. Despite the significance, detailed protocols and comparisons with intact vessels are scarce in microvascular research. We developed a reproducible method to isolate microvascular ECs, assessing substrate influence by cultivating cells on fibronectin and gelatin matrix gels. This comparative approach enhances our understanding of microvascular endothelial cell biology. Results: Microvascular mesenteric ECs expressed key markers (VE-cadherin and eNOS) in both matrix gels, confirming cell culture purity. Under uncoated conditions, ECs were undetected, whereas proteins linked to smooth muscle cells and fibroblasts were evident. Examining endothelial cell (EC) physiological dynamics on distinct matrix substrates revealed comparable cell length, shape, and Ca2+ elevations in both male and female ECs on gelatin and fibronectin matrix gels. Gelatin-cultured ECs exhibited analogous membrane potential responses to acetylcholine (ACh) or adenosine triphosphate (ATP), contrasting with their fibronectin-cultured counterparts. In the absence of stimulation, fibronectin-cultured ECs displayed a more depolarized resting membrane potential than gelatin-cultured ECs. Conclusions: Gelatin-cultured ECs demonstrated electrical behaviors akin to intact endothelium from mouse mesenteric arteries, thus advancing our understanding of endothelial cell behavior within diverse microenvironments. en
dc.language.iso eng
dc.relation.ispartof vol. 31 Issue: no. 5 Pages:
dc.source Microcirculation
dc.title Impact of Matrix Gel Variations on Primary Culture of Microvascular Endothelial Cell Function en
dc.type Artículo
dc.identifier.doi 10.1111/micc.12859
dc.publisher.department Facultad de Medicina y Ciencia


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