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Literature DB >> 21910690

Perivascular adipose tissue: more than just structural support.

Abstract

PVAT (perivascular adipose tissue) has recently been recognized as a novel factor in vascular biology, with implications in the pathophysiology of cardiovascular disease. Composed mainly of adipocytes, PVAT releases a wide range of biologically active molecules that modulate vascular smooth muscle cell contraction, proliferation and migration. PVAT exerts an anti-contractile effect in various vascular beds which seems to be mediated by an as yet elusive PVRF [PVAT-derived relaxing factor(s)]. Considerable progress has been made on deciphering the nature and mechanisms of action of PVRF, and the PVRFs proposed until now are reviewed here. However, complex pathways seem to regulate PVAT function and more than one mechanism is probably responsible for PVAT actions in vascular biology. The present review describes our current knowledge on the structure and function of PVAT, with a focus on its role in modulating vascular tone. Potential involvements of PVAT dysfunction in obesity, hypertension and atherosclerosis will be highlighted.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Adipokines
Nitric Oxide

Year: 2012 PMID： 21910690 PMCID： PMC3966487 DOI： 10.1042/CS20110151

Source DB: PubMed Journal: Clin Sci (Lond) ISSN： 0143-5221 Impact factor: 6.124

98 in total

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Journal: Atherosclerosis Date: 2010-06-01 Impact factor: 5.162

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Journal: Hypertension Date: 1998-01 Impact factor: 10.190

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Journal: Am J Physiol Endocrinol Metab Date: 2007-09-18 Impact factor: 4.310

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Journal: Curr Opin Pharmacol Date: 2010-01-07 Impact factor: 5.547

8. Leptin inhibits angiotensin II-induced intracellular calcium increase and vasoconstriction in the rat aorta.

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Journal: Endocrinology Date: 2002-09 Impact factor: 4.736

9. Early alterations in vascular contractility associated to changes in fatty acid composition and oxidative stress markers in perivascular adipose tissue.

Authors: Alejandro Rebolledo; Oscar R Rebolledo; Carlos A Marra; María E García; Ana R Roldán Palomo; Laura Rimorini; Juan J Gagliardino
Journal: Cardiovasc Diabetol Date: 2010-10-21 Impact factor: 9.951

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Authors: Rick I Meijer; Erik H Serne; Yvo M Smulders; Victor W M van Hinsbergh; John S Yudkin; Etto C Eringa
Journal: Curr Diab Rep Date: 2011-06 Impact factor: 4.810

79 in total

1. Perivascular Adipocytes Store Norepinephrine by Vesicular Transport.

Authors: Maleeha F Ahmad; David Ferland; Nadia Ayala-Lopez; G Andres Contreras; Emma Darios; Janice Thompson; Alexander Ismail; Kyan Thelen; Adam J Moeser; Robert Burnett; Arun Anantharam; Stephanie W Watts
Journal: Arterioscler Thromb Vasc Biol Date: 2019-02 Impact factor: 8.311

Review 2. The effects of obesity on the cerebral vasculature.

Authors: Anne M Dorrance; Nusrat Matin; Paulo W Pires
Journal: Curr Vasc Pharmacol Date: 2014-05 Impact factor: 2.719

3. Determination of UCP1 expression in subcutaneous and perirenal adipose tissues of patients with hypertension.

Authors: Xueqin Li; Juan Liu; Gongcheng Wang; Jing Yu; Yunlu Sheng; Chen Wang; Yifan Lv; Shan Lv; Hanmei Qi; Wenjuan Di; Changjun Yin; Guoxian Ding
Journal: Endocrine Date: 2015-03-18 Impact factor: 3.633

4. Organic cation transporter 3 contributes to norepinephrine uptake into perivascular adipose tissue.

Authors: Nadia Ayala-Lopez; William F Jackson; Robert Burnett; James N Wilson; Janice M Thompson; Stephanie W Watts
Journal: Am J Physiol Heart Circ Physiol Date: 2015-10-02 Impact factor: 4.733

Review 5. Perivascular Adipose Tissue and Coronary Atherosclerosis: from Biology to Imaging Phenotyping.

Authors: Andrew Lin; Damini Dey; Dennis T L Wong; Nitesh Nerlekar
Journal: Curr Atheroscler Rep Date: 2019-11-19 Impact factor: 5.113

6. Divergent phenotype of rat thoracic and abdominal perivascular adipose tissues.

Authors: Jaume Padilla; Nathan T Jenkins; Victoria J Vieira-Potter; M Harold Laughlin
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2013-02-06 Impact factor: 3.619

7. Adipose tissue and vascular phenotypic modulation by voluntary physical activity and dietary restriction in obese insulin-resistant OLETF rats.

Authors: Jacqueline M Crissey; Nathan T Jenkins; Kasey A Lansford; Pamela K Thorne; David S Bayless; Victoria J Vieira-Potter; R Scott Rector; John P Thyfault; M Harold Laughlin; Jaume Padilla
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2014-02-12 Impact factor: 3.619