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Microbial bile acid metabolites modulate gut ROR gamma(+) regulatory T cell homeostasis 期刊论文
NATURE, 2020, 577 (7790) : 410-+
作者:  Bhargava, Manjul
收藏  |  浏览/下载:18/0  |  提交时间:2020/07/03

The metabolic pathways encoded by the human gut microbiome constantly interact with host gene products through numerous bioactive molecules(1). Primary bile acids (BAs) are synthesized within hepatocytes and released into the duodenum to facilitate absorption of lipids or fat-soluble vitamins(2). Some BAs (approximately 5%) escape into the colon, where gut commensal bacteria convert them into various intestinal BAs2 that are important hormones that regulate host cholesterol metabolism and energy balance via several nuclear receptors and/or G-protein-coupled receptors(3,4). These receptors have pivotal roles in shaping host innate immune responses(1,5). However, the effect of this host-microorganism biliary network on the adaptive immune system remains poorly characterized. Here we report that both dietary and microbial factors influence the composition of the gut BA pool and modulate an important population of colonic FOXP3(+) regulatory T (T-reg) cells expressing the transcription factor ROR gamma. Genetic abolition of BA metabolic pathways in individual gut symbionts significantly decreases this T-reg cell population. Restoration of the intestinal BA pool increases colonic ROR gamma(+) T-reg cell counts and ameliorates host susceptibility to inflammatory colitis via BA nuclear receptors. Thus, a pan-genomic biliary network interaction between hosts and their bacterial symbionts can control host immunological homeostasis via the resulting metabolites.


  
Structure of nevanimibe-bound tetrameric human ACAT1 期刊论文
NATURE, 2020, 581 (7808) : 339-U214
作者:  Ma, Xiyu;  Claus, Lucas A. N.;  Leslie, Michelle E.;  Tao, Kai;  Wu, Zhiping;  Liu, Jun;  Yu, Xiao;  Li, Bo;  Zhou, Jinggeng;  Savatin, Daniel V.;  Peng, Junmin;  Tyler, Brett M.;  Heese, Antje;  Russinova, Eugenia;  He, Ping;  Shan, Libo
收藏  |  浏览/下载:29/0  |  提交时间:2020/07/03

The structure of human ACAT1 in complex with the inhibitor nevanimibe is resolved by cryo-electron microscopy.


Cholesterol is an essential component of mammalian cell membranes, constituting up to 50% of plasma membrane lipids. By contrast, it accounts for only 5% of lipids in the endoplasmic reticulum (ER)(1). The ER enzyme sterol O-acyltransferase 1 (also named acyl-coenzyme A:cholesterol acyltransferase, ACAT1) transfers a long-chain fatty acid to cholesterol to form cholesteryl esters that coalesce into cytosolic lipid droplets. Under conditions of cholesterol overload, ACAT1 maintains the low cholesterol concentration of the ER and thereby has an essential role in cholesterol homeostasis(2,3). ACAT1 has also been implicated in Alzheimer'  s disease(4), atherosclerosis(5) and cancers(6). Here we report a cryo-electron microscopy structure of human ACAT1 in complex with nevanimibe(7), an inhibitor that is in clinical trials for the treatment of congenital adrenal hyperplasia. The ACAT1 holoenzyme is a tetramer that consists of two homodimers. Each monomer contains nine transmembrane helices (TMs), six of which (TM4-TM9) form a cavity that accommodates nevanimibe and an endogenous acyl-coenzyme A. This cavity also contains a histidine that has previously been identified as essential for catalytic activity(8). Our structural data and biochemical analyses provide a physical model to explain the process of cholesterol esterification, as well as details of the interaction between nevanimibe and ACAT1, which may help to accelerate the development of ACAT1 inhibitors to treat related diseases.


  
Structural basis for catalysis and substrate specificity of human ACAT1 期刊论文
NATURE, 2020, 581 (7808) : 333-+
作者:  Jiao, Huipeng;  Wachsmuth, Laurens;  Kumari, Snehlata;  Schwarzer, Robin;  Lin, Juan;  Eren, Remzi Onur;  Fisher, Amanda;  Lane, Rebecca;  Young, George R.;  Kassiotis, George;  Kaiser, William J.;  Pasparakis, Manolis
收藏  |  浏览/下载:10/0  |  提交时间:2020/07/03

The structure of human ACAT1, which catalyses the transfer of an acyl group from acyl-coenzyme A to cholesterol to form cholesteryl ester, is resolved by cryo-electron microscopy.


As members of the membrane-bound O-acyltransferase (MBOAT) enzyme family, acyl-coenzyme A:cholesterol acyltransferases (ACATs) catalyse the transfer of an acyl group from acyl-coenzyme A to cholesterol to generate cholesteryl ester, the primary form in which cholesterol is stored in cells and transported in plasma(1). ACATs have gained attention as potential drug targets for the treatment of diseases such as atherosclerosis, Alzheimer'  s disease and cancer(2-7). Here we present the cryo-electron microscopy structure of human ACAT1 as a dimer of dimers. Each protomer consists of nine transmembrane segments, which enclose a cytosolic tunnel and a transmembrane tunnel that converge at the predicted catalytic site. Evidence from structure-guided mutational analyses suggests that acyl-coenzyme A enters the active site through the cytosolic tunnel, whereas cholesterol may enter from the side through the transmembrane tunnel. This structural and biochemical characterization helps to rationalize the preference of ACAT1 for unsaturated acyl chains, and provides insight into the catalytic mechanism of enzymes within the MBOAT family(8).


  
Statin drugs might boost healthy gut microbes 期刊论文
NATURE, 2020, 581 (7808) : 263-264
作者:  Maxmen, Amy
收藏  |  浏览/下载:13/0  |  提交时间:2020/07/03

Bacterial changes found in people taking cholesterol-lowering medication.


An analysis of faecal samples reveals that obese people who take cholesterol-lowering statin drugs have a '  healthier'  community of gut microorganisms than would be expected. What are the implications of this surprising finding?


  
Feeding in the frequency domain: coarser-grained environments increase consumer sensitivity to resource variability, covariance and phase 期刊论文
ECOLOGY LETTERS, 2019, 22 (7) : 1104-1114
作者:  Koussoroplis, Apostolos-Manuel;  Schaelicke, Svenja;  Raatz, Michael;  Bach, Moritz;  Wacker, Alexander
收藏  |  浏览/下载:5/0  |  提交时间:2019/11/27
Cholesterol  covariance  Daphnia  digestive acclimation  dynamic energy budgets  food quality  phosphorus  storage  unbalanced diets