Literature DB >> 20060362

Crosstalk between perivascular adipose tissue and blood vessels.

Srinivas Rajsheker1, David Manka, Andra L Blomkalns, Tapan K Chatterjee, Lynn L Stoll, Neal L Weintraub.   

Abstract

Crosstalk between cells in the blood vessel wall is vital to normal vascular function and is perturbed in diseases such as atherosclerosis and hypertension. Perivascular adipocytes reside at the adventitial border of blood vessels but until recently were virtually ignored in studies of vascular function. However, perivascular adipocytes have been demonstrated to be powerful endocrine cells capable of responding to metabolic cues and transducing signals to adjacent blood vessels. Accordingly, crosstalk between perivascular adipose tissue (PVAT) and blood vessels is now being intensely examined. Emerging evidence suggests that PVAT regulates vascular function through numerous mechanisms, but evidence to date suggests modulation of three key aspects that are the focus of this review: inflammation, vasoreactivity, and smooth muscle cell proliferation. Copyright 2009 Elsevier Ltd. All rights reserved.

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Year:  2010        PMID: 20060362      PMCID: PMC2843777          DOI: 10.1016/j.coph.2009.11.005

Source DB:  PubMed          Journal:  Curr Opin Pharmacol        ISSN: 1471-4892            Impact factor:   5.547


  49 in total

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Review 2.  Signals and receptors involved in recruitment of inflammatory cells.

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Review 3.  Chemokines and atherosclerosis.

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4.  Enhanced coronary vasa vasorum neovascularization in experimental hypercholesterolemia.

Authors:  H M Kwon; G Sangiorgi; E L Ritman; C McKenna; D R Holmes; R S Schwartz; A Lerman
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5.  Periadventitial adipose tissue plays a critical role in vascular remodeling.

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6.  Recombinant human monocyte IL-8 primes NADPH-oxidase and phospholipase A2 activation in human neutrophils.

Authors:  R H Daniels; M J Finnen; M E Hill; J M Lackie
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7.  Adventitial vasa vasorum in balloon-injured coronary arteries: visualization and quantitation by a microscopic three-dimensional computed tomography technique.

Authors:  H M Kwon; G Sangiorgi; E L Ritman; A Lerman; C McKenna; R Virmani; W D Edwards; D R Holmes; R S Schwartz
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  65 in total

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2.  Epicardial adipose tissue volume as a marker of coronary artery disease severity in patients with diabetes independent of coronary artery calcium: findings from the CTRAD study.

Authors:  Dilbahar S Mohar; Jonathan Salcedo; Khiet C Hoang; Shivesh Kumar; Farhood Saremi; Ashwini S Erande; Nassim Naderi; Pradeep Nadeswaran; Christine Le; Shaista Malik
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3.  Adipose phenotype predicts early human autogenous arteriovenous hemodialysis remodeling.

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4.  A Straightforward Approach to Engineer Vascularized Adipose Tissue Using Microvascular Fragments.

Authors:  Francisca M Acosta; Katerina Stojkova; Eric M Brey; Christopher R Rathbone
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Review 5.  B cells and atherosclerosis.

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6.  A Novel Approach to Assess the In Situ Versus Ex Vivo Mechanical Behaviors of the Coronary Artery.

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Review 7.  Lymphocytes and the adventitial immune response in atherosclerosis.

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8.  Perivascular adipose tissue-derived extracellular vesicle miR-221-3p mediates vascular remodeling.

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Review 9.  B Lymphocytes and Adipose Tissue Inflammation.

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10.  Complement proteins C3 and C4 bind to collagen and elastin in the vascular wall: a potential role in vascular stiffness and atherosclerosis.

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