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- BookAlexander Birbrair, editor.Summary: Pericytes were originally discovered and named more than hundred years ago as contractile cells around the blood vessel endothelial cells. Due to the lack of exclusive markers, pericytes are now defined by a combination of location, morphology and gene expression. Pericytes are attracting increasing attention as important regulators during development and during normal and disturbed organ function. In recent years, remarkable progress has been made in the identification and characterization of pericytes subpopulations and their amazing functions using state-of-art techniques. These advantages facilitated identification of molecular basis of interaction between these cells with several other more well studied cell types, and revealed key signals derived from pericytes involved in homeostasis, regeneration, and disease regulation. In the last ten years, several unexpected roles of pericytes have been discovered. It has been demonstrated that pericytes from different tissues differ in their properties as well as functions. Even more, pericytes are heterogeneous also within the same organ. This book is will describe the major contributions of pericytes to different organs biology in physiological and pathological conditions. The book will teach the readers about this so special cell type that 10 years ago was almost completely forgotten, and it was associated basically only with vascular stability. Recently, it become a very hot topic to work in. Several articles in Nature, Science and Cell have been and are being currently published about this cell type. These recent works are revealing how important those cells are for before unimaginable biological processes. Thus, this book will update us on what are the most novel functions attributed to these cells. Also, will introduce to the young generation all the history about these cells from when they were discovered in different organs till where we are now in this field. So it will be a great book for both cell biology students as well as researchers that will have an update on these cells biology in different organs.
Contents:
In Vivo Optical Imaging and Manipulation of Brain Pericytes
The complex and integral roles of pericytes within the neurovascular unit in health and disease
Role of pericytes in brain metastasis
Effects of Cytomegalovirus on Pericytes
Pericytes in Retinal Ischemia
Inflammatory mediators released by brain pericytes as sensors and effectors in blood-brain barrier dysfunction
TLR-4 signaling in Pericytes
EphA7+ Multipotent Pericytes and Their Roles in Multicellular Organisms
Skeletal Muscle-Resident Pericyte Responses to Conditions of Use and Disuse
Pericytes in myocardial diseases
Adventitial and skeletal muscle pericytes in health and in ischemic tissue regeneration. - ArticleBrinkhous KM.Adv Exp Med Biol. 1978;102:123-33.Despite some sentiments against animal research, animal models continue to be important in studying hemorrhage and thrombosis. Examples of genetic models are dogs and pigs with von Willebrand's disease. The homozygous von Willebrand pig appears to be resistant to arteriosclerosis, presumably due to impairment of the platelet aggregating function. Among acquired models, pigs are gaining in favor, perhaps because their clotting and platelet characteristics resemble those in humans. Species vary markedly in their normal plasma levels of platelet aggregating factor/von Willebrand factor (PAF/vWF). One promising approach to the study of thrombosis is using platelet anti-aggregating drugs to inhibit PAF/vWF dependent platelet thrombus formation; a drug-induced von Willebrand state seems feasible.