Adipose tissue and cholesterol metabolism

Adipose tissue in man is a major site for cholesterol storage. In obesity over half of total body cholesterol may reside within this tissue; however, relatively little attention has been directed toward understanding the cholesterol metabolism and its relationship to whole body cholesterol homeostasis in this tissue. In this review the factors which influence cholesterol storage are discussed, with particular emphasis on the effects of diet and drug treatment in both animals and man. The uptake, synthesis, and mobilization of adipose tissue cholesterol appears to be mediated and/or regulated, as in other tissues, by the plasma lipoproteins, and these processes are examined with regard to both normal and pathologic states.     

Microbiota Depletion Impairs Thermogenesis of Brown Adipose Tissue and Browning of White Adipose Tissue

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Adipose tissue-derived progenitor cells and cancer

Recruitment of stem cells and partially differentiated progenitor cells is a process which accompanies and facilitates the progression of cancer. One of the factors complicating the clinical course of cancer is obesity, a progressively widespread medical condition resulting from overgrowth of white adipose tissue (WAT), commonly known as white fat. The mechanisms by which obesity influences cancer risk and progression are not completely understood. Cells of WAT secret soluble molecules (adipokines) that could stimulate tumor growth, although there is no consensus on which cell populations and which adipokines are important. Recent reports suggest that WAT-derived mesenchymal stem (stromal) cells, termed adipose stem cells (ASC), may represent a cell population linking obesity and cancer. Studies in animal models demonstrate that adipokines secreted by ASC can promote tumor growth by assisting in formation of new blood vessels, a process necessary for expansion of tumor mass. Importantly, migration of ASC from WAT to tumors has been demonstrated, indicating that the tumor microenvironment in cancer may be modulated by ASC-derived trophic factors in a paracrine rather than in an endocrine manner. Here, we review possible positive and adverse implications of progenitor cell recruitment into the diseased sites with a particular emphasis on the role in cancer progression of progenitors that are expanded in obesity.     

Adipose tissue in health and disease

Adipose, or fat, tissue (AT) was once considered an inert tissue that primarily existed to store lipids, and was not historically recognized as an important organ in the regulation and maintenance of health. With the rise of obesity and more rigorous research, AT is now recognized as a highly complex metabolic organ involved in a host of important physiological functions, including glucose homeostasis and a multitude of endocrine capabilities. AT dysfunction has been implicated in several disease states, most notably obesity, metabolic syndrome and type 2 diabetes. The study of AT has provided useful insight in developing strategies to combat these highly prevalent metabolic diseases. This review highlights the major functions of adipose tissue and the consequences that can occur when disruption of these functions leads to systemic metabolic dysfunction.     

Adipose tissue and the immune system

Adipocytes anatomically associated with lymph nodes (and omental milky spots) have many special properties including fatty acid composition and the control of lipolysis that equip them to interact locally with lymphoid cells. Lymph node lymphocytes and tissue dendritic cells acquire their fatty acids from the contiguous adipocytes. Lymph node-derived dendritic cells suppress lipolysis in perinodal adipocytes but those that permeate the adipose tissue stimulate lipolysis, especially after minor, local immune stimulation. Inflammation alters the composition of fatty acids incorporated into dendritic cells, and that of node-containing adipose tissue, counteracting the effects of dietary lipids. Thus these specialised adipocytes partially emancipate the immune system from fluctuations in the abundance and composition of dietary lipids. Prolonged, low-level immune stimulation induces the local formation of more adipocytes, especially adjacent to the inflamed lymph node. This mechanism may contribute to hypertrophy of the mesentery and omentum in chronic inflammatory diseases such as HIV-infection, and in smokers. Paracrine interactions between adipose and lymphoid tissues are enhanced by diets rich in n-6 fatty acids and attentuated by fish oils. The latter improve immune function and body conformation in animals and people. The partitioning of adipose tissue in many depots, some specialised for local, paracrine interactions with other tissues, is a fundamental feature of mammals.     

DNA甲基化与脂肪组织生长发育

DNA甲基化作为一种重要的表观遗传学修饰方式,在维持正常细胞功能、遗传印记、胚胎发育以及人类肿瘤发生中起着重要作用。DNA甲基化最重要的作用是调控基因表达,它是细胞调控基因表达的重要表观遗传机制之一。近年来的研究发现,DNA甲基化在脂肪组织生长发育以及肥胖症发生过程中发挥着重要作用。DNA甲基化通过调控脂肪细胞分化转录因子、转录辅助因子以及其他脂肪代谢相关基因的表达,从而调控脂肪组织的生长发育。该文综述了脂肪组织生长发育过程中DNA甲基化的最新研究进展,探讨了脂肪组织DNA甲基化的研究趋势和未来发展方向。     

褐色脂肪组织代谢与肥胖

肥胖是由于机体能量储存与消耗的失衡而产生的.褐色脂肪组织通过产热的形式,能够将体内过多的能量释放出来,以减少能量积累,避免造成肥胖.现从褐色脂肪组织的结构、分布、功能以及调控机制等方面,对褐色脂肪组织与肥胖症的关系作一综述,旨在为防治肥胖症及相关疾病寻找理论基础和实验依据.     

Adipose tissue ofDrosophila melanogaster

Summary Using transplantation techniques it was shown that immature and supposedly mature stages of fat body from the larvae ofDrosophila melanogaster do not lyse rapidly in the lytic, internal environment of the young adult. In the younger tissue the protein granules (probably lysosomes) were just beginning to form, whereas in the older tissue the protein granules were at a maximum level. In both cases the implanted tissues became steadily smaller independently of the environment. The decrease in implant size was interreted to mean that the cells were lysing, since the average cell size did not change, and since many cells appear cytologically degenerate. However, the estimated rate of cell loss was much slower than in the case where the cells pass through metamorphosis. Some of the immature cells produced relatively high amounts of protein granules independently of the environment. Although the protein granules are at a maximum amount in both stages, it would appear that additional development must be required for the cells to become susceptible to the lytic environment of the young adult.On leave of absence for 1972–1973: Department of Genetics, University of Nijmegen, The Netherlands.The author expresses gratitude to the National Science Foundation for financial support (Research Grant GB 12969) and to Mrs. Barbara LaTendresse for her expert technical assistance.     

脂肪分泌组学的研究进展

分泌蛋白是由细胞主动运输到细胞外的一大类具有重要生物学功能的蛋白,主要参与细胞信号转导、细胞的增殖、分化及凋亡等多种生物学过程.细胞、组织、器官及个体分泌的所有蛋白称为分泌组.脂肪组织曾被认为只是机体内能量储藏的地方,但现在发现它还是体内最大的内分泌器官.近年来,由于蛋白质组学技术的快速发展,脂肪分泌组研究已成为脂肪生...     

免疫细胞在棕色脂肪产热及白色脂肪棕色化过程中的功能研究进展

肥胖已经成为威胁人类健康的全球性问题,棕色脂肪(Brown adipose tissue,BAT)及米色脂肪因其能够通过产热作用增加能量消耗这一特性,已成为一种备受关注的潜在肥胖治疗方法。近年来的研究发现M2型巨噬细胞(Alternatively activated macrophages,M2 type)能够促进BAT产热和白色脂肪(White adipose tissue,WAT)的棕色化(即米色脂肪的形成过程),但随后的一些研究却得到了相反的结论。到目前为止,M2型巨噬细胞是否参与促进WAT的棕色化过程仍是一个备受争议的话题。主要对M2型巨噬细胞、II型固有淋巴细胞(Type 2 Innate Lymphoid Cells,ILC2s)和嗜酸性粒细胞(Eosinophils)对BAT产热和WAT的棕色化的促进作用,以及M2型巨噬细胞不参与/抑制WAT棕色化这两个方面的研究状况做一综述。