Adipocytes spectrum — From homeostasia to obesity and its associated pathology

Firstly identified by anatomists, the fat tissue is nowadays an area of intense research due to increased global prevalence of obesity and its associated diseases. Histologically, there are four types of fat tissue cells which are currently recognized (white, brown, beige, and perivascular adipocyte...

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Veröffentlicht in:	Annals of anatomy 2018-09, Vol.219, p.102-120
Hauptverfasser:	Grigoraş, Adriana, Amalinei, Cornelia, Balan, Raluca Anca, Giuşcă, Simona Eliza, Avădănei, Elena Roxana, Lozneanu, Ludmila, Căruntu, Irina-Draga
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Sprache:	eng
Schlagworte:	Adipocytes Adipocytes - cytology Adipocytes - pathology Adipocytes - ultrastructure Adipogenesis - physiology Adipose stem cells Adipose Tissue, Beige - metabolism Adipose Tissue, Beige - pathology Adipose Tissue, Brown - metabolism Adipose Tissue, Brown - pathology Adipose Tissue, White - metabolism Adipose Tissue, White - pathology Humans Insulin Lipodystrophy - pathology Obesity Obesity - pathology Thermogenesis Uncoupling protein
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description	Firstly identified by anatomists, the fat tissue is nowadays an area of intense research due to increased global prevalence of obesity and its associated diseases. Histologically, there are four types of fat tissue cells which are currently recognized (white, brown, beige, and perivascular adipocytes). Therefore, in this study we are reviewing the most recent data regarding the origin, structure, and molecular mechanisms involved in the development of adipocytes. White adipocytes can store triglycerides as a consequence of lipogenesis, under the regulation of growth hormone or leptin and adiponectin, and release fatty acids resulted from lipolysis, under the regulation of the sympathetic nervous system, glucocorticoids, TNF-α, insulin, and natriuretic peptides. Brown adipocytes possess a mitochondrial transmembrane protein thermogenin or UCP1 which allows heat generation. Recently, thermogenic, UCP positive adipocytes have been identified in the subcutaneous white adipose tissue and have been named beige adipocytes. The nature of these cells is still controversial, as current theories are suggesting their origin either by transdifferentiation of white adipocytes, or by differentiation from an own precursor cell. Perivascular adipocytes surround most of the arteries, exhibiting a supportive role and being involved in the maintenance of intravascular temperature. Thoracic perivascular adipocytes resemble brown adipocytes, while abdominal ones are more similar to white adipocytes and, consequently, are involved in obesity-induced inflammatory reactions. The factors involved in the regulation of adipose stem cells differentiation may represent potential pathways to inhibit or to divert adipogenesis. Several molecules, such as pro-adipogenic factors (FGF21, BMP7, BMP8b, and Cox-2), cell surface proteins or receptors (Asc-1, PAT2, P2RX5), and hypothalamic receptors (MC4R) have been identified as the most promising targets for the development of future therapies. Further investigations are necessary to complete the knowledge about adipose tissue and the development of a new generation of therapeutic tools based on molecular targets.
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Histologically, there are four types of fat tissue cells which are currently recognized (white, brown, beige, and perivascular adipocytes). Therefore, in this study we are reviewing the most recent data regarding the origin, structure, and molecular mechanisms involved in the development of adipocytes. White adipocytes can store triglycerides as a consequence of lipogenesis, under the regulation of growth hormone or leptin and adiponectin, and release fatty acids resulted from lipolysis, under the regulation of the sympathetic nervous system, glucocorticoids, TNF-α, insulin, and natriuretic peptides. Brown adipocytes possess a mitochondrial transmembrane protein thermogenin or UCP1 which allows heat generation. Recently, thermogenic, UCP positive adipocytes have been identified in the subcutaneous white adipose tissue and have been named beige adipocytes. The nature of these cells is still controversial, as current theories are suggesting their origin either by transdifferentiation of white adipocytes, or by differentiation from an own precursor cell. Perivascular adipocytes surround most of the arteries, exhibiting a supportive role and being involved in the maintenance of intravascular temperature. Thoracic perivascular adipocytes resemble brown adipocytes, while abdominal ones are more similar to white adipocytes and, consequently, are involved in obesity-induced inflammatory reactions. The factors involved in the regulation of adipose stem cells differentiation may represent potential pathways to inhibit or to divert adipogenesis. Several molecules, such as pro-adipogenic factors (FGF21, BMP7, BMP8b, and Cox-2), cell surface proteins or receptors (Asc-1, PAT2, P2RX5), and hypothalamic receptors (MC4R) have been identified as the most promising targets for the development of future therapies. 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The nature of these cells is still controversial, as current theories are suggesting their origin either by transdifferentiation of white adipocytes, or by differentiation from an own precursor cell. Perivascular adipocytes surround most of the arteries, exhibiting a supportive role and being involved in the maintenance of intravascular temperature. Thoracic perivascular adipocytes resemble brown adipocytes, while abdominal ones are more similar to white adipocytes and, consequently, are involved in obesity-induced inflammatory reactions. The factors involved in the regulation of adipose stem cells differentiation may represent potential pathways to inhibit or to divert adipogenesis. Several molecules, such as pro-adipogenic factors (FGF21, BMP7, BMP8b, and Cox-2), cell surface proteins or receptors (Asc-1, PAT2, P2RX5), and hypothalamic receptors (MC4R) have been identified as the most promising targets for the development of future therapies. Further investigations are necessary to complete the knowledge about adipose tissue and the development of a new generation of therapeutic tools based on molecular targets.</description><subject>Adipocytes</subject><subject>Adipocytes - cytology</subject><subject>Adipocytes - pathology</subject><subject>Adipocytes - ultrastructure</subject><subject>Adipogenesis - physiology</subject><subject>Adipose stem cells</subject><subject>Adipose Tissue, Beige - metabolism</subject><subject>Adipose Tissue, Beige - pathology</subject><subject>Adipose Tissue, Brown - metabolism</subject><subject>Adipose Tissue, Brown - pathology</subject><subject>Adipose Tissue, White - metabolism</subject><subject>Adipose Tissue, White - pathology</subject><subject>Humans</subject><subject>Insulin</subject><subject>Lipodystrophy - pathology</subject><subject>Obesity</subject><subject>Obesity - pathology</subject><subject>Thermogenesis</subject><subject>Uncoupling protein</subject><issn>0940-9602</issn><issn>1618-0402</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kL9OHDEQhy1EFA7IEyAhlzS7Ga-9vnWRAiH-REIKRagtrz0LPt2eNx5fpOvyEHnCPAkLR1Kmmim-3_w0H2NnAmoBQn9e1c5tXKkbEF0NugZQB2whtOgqUNAcsgUYBZXR0ByxY6IVgNStVh_ZkZxZo3WzYA-XIU7J7woSpwl9yduR__n1m9_kNPLnNGKi4ig6XhJPPVIsO-42gcdC3BElH13BwCdXntM6Pe1O2YfBrQk_vc8T9nhz_f3qrrr_dvv16vK-8rI1pZKDMZ3pceidll4YHbSCrg9yaOQQ3Lwrj0upeh2EhqBFO3gJzuimQQFeyRN2sb875fRji1TsGMnjeu02mLZkG1h2bSeXqp1RuUd9TkQZBzvlOLq8swLsq0q7sm8q7atKC9rOeubU-XvBth8x_Mv8dTcDX_YAzm_-jJgt-YgbjyHmWaQNKf634AUJ2YcT</recordid><startdate>20180901</startdate><enddate>20180901</enddate><creator>Grigoraş, Adriana</creator><creator>Amalinei, Cornelia</creator><creator>Balan, Raluca Anca</creator><creator>Giuşcă, Simona Eliza</creator><creator>Avădănei, Elena Roxana</creator><creator>Lozneanu, Ludmila</creator><creator>Căruntu, Irina-Draga</creator><general>Elsevier GmbH</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20180901</creationdate><title>Adipocytes spectrum — From homeostasia to obesity and its associated pathology</title><author>Grigoraş, Adriana ; 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subjects	Adipocytes Adipocytes - cytology Adipocytes - pathology Adipocytes - ultrastructure Adipogenesis - physiology Adipose stem cells Adipose Tissue, Beige - metabolism Adipose Tissue, Beige - pathology Adipose Tissue, Brown - metabolism Adipose Tissue, Brown - pathology Adipose Tissue, White - metabolism Adipose Tissue, White - pathology Humans Insulin Lipodystrophy - pathology Obesity Obesity - pathology Thermogenesis Uncoupling protein
title	Adipocytes spectrum — From homeostasia to obesity and its associated pathology
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