pericytes การใช้

• There are several pathways of communication between the endothelial cells and pericytes.
• Similarly, differentiation of adipose from pericytes and mesenchymal cells is suppressed.
• Pericytes have both cholinergic ( ?2 ) and adrenergic ( ?2 ) receptors.
• In stromal pericytes, PDGFR? activation mediates vascular stability.
• Pericytes'regenerative capacity is affected by aging.
• Communication between endothelial cells and pericytes is important.
• Pericytes and renal mesangial cells are some examples of modified myofibroblast-like cells.
• T-cadherin expression is upregulated in ECs, pericytes and VSMC of atherosclerotic lesions.
• Pericytes are important in maintaining circulation.
• This trafficking strengthens contacts with pericytes.
• Pericytes and smooth muscle cells encircle ECs when they are differentiating into arterial or venous arrangements.
• Both pericytes and endothelial cells share a basement membrane where a variety of intercellular connections are made.
• Many types of integrin molecules facilitate communication between pericytes and endothelial cells separated by the basement membrane.
• It is suggested pericytes and smooth muscle cells come from neural crest cells and the surrounding mesenchyme.
• This leaky vasculature is thought to have several causes, including insufficient pericytes and a malformed basement membrane.
• The peptides angiotensin II and endothelin-1 ( ET-1 ) bind to pericytes and are vasoactive.
• As the progenitors of smooth muscle cells ( SMCs ) and pericytes, mural cells themselves derive from the mesenchyme.
• This is advantageous as it can result in tissue-specific functional and regulatory properties of pericytes, and SMCs.
• Similar to the inhibition of the PDGF pathway, angiopoietin 2 reduces levels of pericytes, leading to diabetic retinopathy.
• Aortic vascular smooth muscle cells failed to organize into a normal tunica media, and pericytes were low in number.