Sex differences influencing micro‐ and macrovascular endothelial phenotype in vitro

Key points Endothelial dysfunction is an early hallmark of multiple disease states that also display sex differences with respect to age of onset, frequency and severity. Results of in vivo studies of basal and stimulated microvascular barrier function revealed sex differences that are difficult to...

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Published inThe Journal of physiology Vol. 596; no. 17; pp. 3929 - 3949
Main Authors Huxley, Virginia H., Kemp, Scott S., Schramm, Christine, Sieveking, Steve, Bingaman, Susan, Yu, Yang, Zaniletti, Isabella, Stockard, Kevin, Wang, Jianjie
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.09.2018
John Wiley and Sons Inc
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Summary:Key points Endothelial dysfunction is an early hallmark of multiple disease states that also display sex differences with respect to age of onset, frequency and severity. Results of in vivo studies of basal and stimulated microvascular barrier function revealed sex differences that are difficult to ascribe to specific cells or environmental factors. The present study evaluated endothelial cells (EC) isolated from macro‐ and/or microvessels of reproductively mature rats under the controlled conditions of low‐passage culture aiming to test the assumption that EC phenotype would be sex independent. The primary finding was that EC, regardless of where they are derived, retain a sex‐bias in low‐passage culture, independent of varying levels of reproductive hormones. The implications of the present study include the fallacy of expecting a universal set of mechanisms derived from study of EC from one sex and/or one vascular origin to apply uniformly to all EC under unstimulated conditions, and no less in disease. Vascular endothelial cells (EC) are heterogeneous with respect to phenotype, reflecting at least the organ of origin, location within the vascular network and physical forces. As an independent influence on EC functions in health or aetiology, susceptibility, and progression of dysfunction in numerous disease states, sex has been largely ignored. The present study focussed on EC isolated from aorta (macrovascular) and skeletal muscle vessels (microvascular) of age‐matched male and female rats under identical conditions of short‐term (passage 4) culture. We tested the hypothesis that genomic sex would not influence endothelial growth, wound healing, morphology, lactate production, or messenger RNA and protein expression of key proteins (sex hormone receptors for androgen and oestrogens α and β; platelet endothelial cell adhesion molecule‐1 and vascular endothelial cadherin mediating barrier function; αvβ3 and N‐cadherin influencing matrix interactions; intracellular adhesion molecule‐1 and vascular cell adhesion molecule‐1 mediating EC/white cell adhesion). The hypothesis was rejected because the EC origin (macro‐ vs. microvessel) and sex influenced multiple phenotypic characteristics. Statistical model analysis of EC growth demonstrated an hierarchy of variable importance, recapitulated for other phenotypic characteristics, with predictions assuming EC homogeneity < sex < vessel origin < sex and vessel origin. Furthermore, patterns of EC mRNA expression by vessel origin and by sex did not predict protein expression. Overall, the present study demonstrated that accurate assessment of sex‐linked EC dysfunction first requires an understanding of EC function by position in the vascular tree and by sex. The results from a single EC tissue source/species/sex cannot provide universal insight into the mechanisms regulating in vivo endothelial function in health, and no less in disease. Key points Endothelial dysfunction is an early hallmark of multiple disease states that also display sex differences with respect to age of onset, frequency and severity. Results of in vivo studies of basal and stimulated microvascular barrier function revealed sex differences that are difficult to ascribe to specific cells or environmental factors. The present study evaluated endothelial cells (EC) isolated from macro‐ and/or microvessels of reproductively mature rats under the controlled conditions of low‐passage culture aiming to test the assumption that EC phenotype would be sex independent. The primary finding was that EC, regardless of where they are derived, retain a sex‐bias in low‐passage culture, independent of varying levels of reproductive hormones. The implications of the present study include the fallacy of expecting a universal set of mechanisms derived from study of EC from one sex and/or one vascular origin to apply uniformly to all EC under unstimulated conditions, and no less in disease.
Bibliography:Edited by: Laura Bennet & Fernando Santana
This is an Editor's Choice article from the 1 September 2018 issue.
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ISSN:0022-3751
1469-7793
DOI:10.1113/JP276048