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Michal Herman-Edelstein Pnina Scherzer Ana Tobar Moshe Levi Uzi Gafter 《Journal of lipid research》2014,55(3):561-572
Animal models link ectopic lipid accumulation to renal dysfunction, but whether this process occurs in the human kidney is uncertain. To this end, we investigated whether altered renal TG and cholesterol metabolism results in lipid accumulation in human diabetic nephropathy (DN). Lipid staining and the expression of lipid metabolism genes were studied in kidney biopsies of patients with diagnosed DN (n = 34), and compared with normal kidneys (n = 12). We observed heavy lipid deposition and increased intracellular lipid droplets. Lipid deposition was associated with dysregulation of lipid metabolism genes. Fatty acid β-oxidation pathways including PPAR-α, carnitine palmitoyltransferase 1, acyl-CoA oxidase, and L-FABP were downregulated. Downregulation of renal lipoprotein lipase, which hydrolyzes circulating TGs, was associated with increased expression of angiopoietin-like protein 4. Cholesterol uptake receptor expression, including LDL receptors, oxidized LDL receptors, and acetylated LDL receptors, was significantly increased, while there was downregulation of genes effecting cholesterol efflux, including ABCA1, ABCG1, and apoE. There was a highly significant correlation between glomerular filtration rate, inflammation, and lipid metabolism genes, supporting a possible role of abnormal lipid metabolism in the pathogenesis of DN. These data suggest that renal lipid metabolism may serve as a target for specific therapies aimed at slowing the progression of glomerulosclerosis. 相似文献
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《Autophagy》2013,9(6):866-867
We have all learned in textbooks that “lysosomes contain hydrolases able to degrade all types of intracellular molecules which include proteases, glycosidases, nucleotidases and lipases.” To date, the only logical explanation for the presence of lipases inside of lysosomes was for the degradation of lipoproteins internalized by endocytosis, and for the breakdown of intralysosomal vesicles derived from fusion with autophagosomes or multivesicular bodies. However, in our recent work we found a novel role for ysosomal lipases in the basic cellular process that regulates intracellular lipid stores that we have named “macrolipophagy”. 相似文献
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Lahoucine Izem Diane J. Greene Katarzyna Bialkowska Richard E. Morton 《Journal of lipid research》2015,56(3):515-525
Cells produce two cholesteryl ester transfer protein (CETP) isoforms, full-length and a shorter variant produced by alternative splicing. Blocking synthesis of both isoforms disrupts lipid metabolism and storage. To further define the role of CETP in cellular lipid metabolism, we stably overexpressed full-length CETP in SW872 cells. These CETP+ cells had several-fold higher intracellular CETP and accumulated 50% less TG due to a 26% decrease in TG synthesis and 2.5-fold higher TG turnover rate. Reduced TG synthesis was due to decreased fatty acid uptake and impaired conversion of diglyceride to TG even though diacylglycerol acyltransferase activity was normal. Sterol-regulatory element binding protein 1 mRNA levels were normal, and although PPARγ expression was reduced, the expression of several of its target genes including adipocyte triglyceride lipase, FASN, and APOE was normal. CETP+ cells contained smaller lipid droplets, consistent with their higher levels of perilipin protein family (PLIN) 3 compared with PLIN1 and PLIN2. Intracellular CETP was mostly associated with the endoplasmic reticulum, although CETP near lipid droplets poorly colocalized with this membrane. A small pool of CETP resided in the cytoplasm, and a subfraction coisolated with lipid droplets. These data show that overexpression of full-length CETP disrupts lipid homeostasis resulting in the formation of smaller, more metabolically active lipid droplets. 相似文献
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摘要 目的:研究细胞内脂滴含量的变化对肥胖、糖尿病等代谢性疾病发生发展的影响。方法:建立高内涵脂滴三维成像和定量分析系统,获得脂滴三维动态表型参数,例如细胞内脂滴的总体积量、脂滴平均体积、单一细胞内脂滴平均数量等指标。选择HeLa、AML-12、COS-7和3T3-L1四种细胞系进行油酸、基因沉默、酶活性抑制剂的处理,量化处理后四种细胞内的脂滴数量与大小的表型差异。结果:在加入油酸情况下,细胞随油酸浓度增加而生成更多、更大的脂滴,但AML-12细胞只有展现增加脂滴数量的变化表型;在HeLa细胞中进行19种中性脂合成通路上关键基因的转录表达沉默,发现需要同时双敲降两种甘油三酯合成酶DGAT1和DGAT2才能显着降低细胞内脂滴总体积储存量,但在COS-7细胞中只需要单敲降DGAT1即可降低脂滴存量;进一步使用了DGAT1/2抑制剂处理四种细胞后,发现对抑制剂响应可区分为两类细胞分组(HeLa、AML-12与COS-7、3T3-L1)的脂滴存量表型差异,其原因是DGAT1和DGAT2的转录表达谱在这两类细胞分组中的不同。结论:建立了高内涵脂滴三维成像和定量分析系统,量化了四种细胞系的脂滴数量与大小的表型差异,揭示了细胞的脂滴脂储存方式与蛋白酶表达谱的关系。 相似文献
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Richard G. Lee Wuxia Fu Mark J. Graham Adam E. Mullick Donna Sipe Danielle Gattis Thomas A. Bell Sheri Booten Rosanne M. Crooke 《Journal of lipid research》2013,54(3):602-614
Therapeutic agents that suppress apolipoprotein B (apoB) and microsomal triglyceride transfer protein (MTP) levels/activity are being developed in the clinic to benefit patients who are unable to reach target LDL-C levels with maximally tolerated lipid-lowering drugs. To compare and contrast the metabolic consequences of reducing these targets, murine-specific apoB or MTP antisense oligonucleotides (ASOs) were administered to chow-fed and high fat-fed C57BL/6 or to chow-fed and Western diet-fed LDLr−/− mice for periods ranging from 2 to 12 weeks, and detailed analyses of various factors affecting fatty acid metabolism were performed. Administration of these drugs significantly reduced target hepatic mRNA and protein, leading to similar reductions in hepatic VLDL/triglyceride secretion. MTP ASO treatment consistently led to increases in hepatic triglyceride accumulation and biomarkers of hepatotoxicity relative to apoB ASO due in part to enhanced expression of peroxisome proliferator activated receptor γ target genes and the inability to reduce hepatic fatty acid synthesis. Thus, although both drugs effectively lowered LDL-C levels in mice, the apoB ASO produced a more positive liver safety profile. 相似文献
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Etschmaier K Becker T Eichmann TO Schweinzer C Scholler M Tam-Amersdorfer C Poeckl M Schuligoi R Kober A Chirackal Manavalan AP Rechberger GN Streith IE Zechner R Zimmermann R Panzenboeck U 《Journal of neurochemistry》2011,119(5):1016-1028
Currently, little is known about the role of intracellular triacylglycerol (TAG) lipases in the brain. Adipose triglyceride lipase (ATGL) is encoded by the PNPLA2 gene and catalyzes the rate-limiting step of lipolysis. In this study, we investigated the effects of ATGL deficiency on brain lipid metabolism in vivo using an established knock-out mouse model (ATGL-ko). A moderate decrease in TAG hydrolase activity detected in ATGL-ko versus wild-type brain tissue was accompanied by a 14-fold increase in TAG levels and an altered composition of TAG-associated fatty acids in ATGL-ko brains. Oil Red O staining revealed a severe accumulation of neutral lipids associated to cerebrovascular cells and in distinct brain regions namely the ependymal cell layer and the choroid plexus along the ventricular system. In situ hybridization histochemistry identified ATGL mRNA expression in ependymal cells, the choroid plexus, pyramidal cells of the hippocampus, and the dentate gyrus. Our findings imply that ATGL is involved in brain fatty acid metabolism, particularly in regions mediating transport and exchange processes: the brain-CSF interface, the blood-CSF barrier, and the blood-brain barrier. 相似文献
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Lipids are the primary form of energy storage and a major component of plasma membranes, which form the interface between the cell and the extracellular environment. Several lipids — including phosphoinositide, phosphatidic acid, sphingolipids, lysophospholipids, oxylipins, and free fatty acids — also serve as substrates for the generation of signalling molecules. Abiotic stresses, such as drought and temperature stress, are known to affect plant growth. In addition, abiotic stresses can activate certain lipid-dependent signalling pathways that control the expression of stress-responsive genes and contribute to plant stress adaptation. Many studies have focused either on the enzymatic production and metabolism of lipids, or on the mechanisms of abiotic stress response. However, there is little information regarding the roles of plant lipids in plant responses to abiotic stress. In this review, we describe the metabolism of plant lipids and discuss their involvement in plant responses to abiotic stress. As such, this review provides crucial background for further research on the interactions between plant lipids and abiotic stress. 相似文献
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Cytosolic acyl-CoA binding proteins bind long-chain acyl-CoAs and act as intracellular acyl-CoA transporters and pool formers. Recently, we have characterized Arabidopsis thaliana cDNAs encoding novel forms of ACBP, designated ACBP1 and ACBP2, that contain a hydrophobic domain at the N-terminus and show conservation at the acyl-CoA binding domain to cytosolic ACBPs. We have previously demonstrated that ACBP1 is membrane-associated in Arabidopsis. Here, western blot analysis of anti-ACBP2 antibodies on A. thaliana protein showed that ACBP2 is located in the microsome-containing membrane fraction and in the subcellular fraction containing large particles (mitochondria, chloroplasts and peroxisomes), resembling the subcellular localization of ACBP1. To further investigate the subcellular localization of ACBP2, we fused ACBP2 translationally in-frame to GFP. By means of particle gene bombardment, ACBP2-GFP and ACBP1-GFP fusion proteins were observed transiently expressed at the plasma membrane and at the endoplasmic reticulum in onion epidermal cells. GFP fusions with deletion derivatives of ACBP1 or ACBP2 lacking the transmembrane domain were impaired in membrane targeting. Our investigations also showed that when the transmembrane domain of ACBP1 or that of ACBP2 was fused with GFP, the fusion protein was targeted to the plasma membrane, thereby establishing their role in membrane targeting. The localization of ACBP1-GFP is consistent with our previous observations using immunoelectron microscopy whereby ACBP1 was localized to the plasma membrane and vesicles. We conclude that ACBP2, like ACBP1, is a membrane protein that likely functions in membrane-associated acyl-CoA transfer/metabolism. 相似文献
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脂质代谢是人体三大代谢之一,在激素等信号分子的调控下,脂质代谢处于稳定平衡的状态。当稳态被打破,血液中甘油三酯(triglyceride,TG)、胆固醇等水平发生变化,最终引起动脉粥样硬化(atherosclerosis,AS)、肥胖等脂质代谢疾病。长链非编码RNA(long noncoding RNA,lncRNA)是一组不具备蛋白质编码能力,长度大于200个核苷酸的RNA,近来研究发现,lncRNA与机体代谢、炎症和免疫系统以及血管功能的调控密切相关。大量文献表明,lncRNA参与脂质代谢调控,因而有望成为一些脂质代谢疾病的潜在治疗靶点。 相似文献
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Fat droplets (FDs) have important roles in cellular energy regulation. Isolating FDs from either cells or tissue continues to be important for studying these organelles. Here, we describe a procedure wherein whole homogenates of cultured cells or tissue are fractionated with a single centrifugation step in a standard microcentrifuge. This procedure reproducibly yields three fractions highly enriched in either FDs, soluble cellular components, or sedimentable organelles/membranes. 相似文献
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Dr. Edward N. Lambremont Boyd Malone Fred Snyder 《Archives of insect biochemistry and physiology》1988,7(1):37-45
A specific acetylhydrolase that inactivates platelet activating factor (PAF; 1-alkyl-2-acetyl-sn-glycero-3-phosphocholine), a potent cellular mediator in mammalian cells, by removal of the sn-2 acetyl moiety, has been found in the cytosolic fraction of several postembryonic developmental stages and specific tissues of the corn earworm, Heliothis zea (Boddie). Effects of magnesium, calcium, EGTA, deoxycholate, dithiothreitol, diisopropylfluorophosphate, egg phosphatidylcholine, and an acylacetyl-glycerophosphocholine show that hydrolysis of the acetate moiety is due to a specific acetylhydrolase for PAF. The activity does not appear to be due to a typical cellular phospholipase A2 that utilizes phospholipid substrates with a long-chain acyl group at position sn-2 of glycerol. Specific activities and properties of the acetylhydrolase from this insect match closely with those described from tissues of vertebrate animals. 相似文献
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Williams P Hardeman K Fowler J Rivin C 《The Plant journal : for cell and molecular biology》2006,45(5):727-739
The divergence of sequence and expression pattern of duplicated genes provides a means for genetic innovation to occur without sacrificing an essential function. The cpx1 and cpx2 genes of maize are a singular example of duplicated genes that have diverged by deletion and creation of protein targeting information. The cpx genes encode coproporphyrinogen III oxidase ('coprogen oxidase'), which catalyzes a step in the synthesis of chlorophyll and heme. In plants, this enzyme has been found exclusively in the plastids. The cpx1 and cpx2 genes encode almost identical, catalytically active enzymes with distinctive N-terminal peptide sequences. The cpx1 gene encodes the expected plastid transit peptide, but this region is deleted from the cpx2 gene. While the 5' regions of both messenger RNAs are highly similar, the cpx2 gene has an open-reading frame that could encode a new targeting signal. GFP fused with CPX1 localized to the plastids. In contrast, the GFP fusion with CPX2 did not target plastids and appeared to localize to mitochondria. Both cpx genes are expressed ubiquitously but, based on mutant phenotype, they seem to have discrete biological roles. Seedlings homozygous for a null mutation in the cpx1 gene completely lack chlorophyll and develop necrotic lesions in the light. However, the mutant seedlings and callus cultures will grow in tissue culture in the dark, implying that they retain a capacity to produce heme. We discuss models for the evolution of the cpx genes and possible roles of mitochondrion-localized coprogen oxidase activity in maize. 相似文献
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Nicole Testerink Michiel H. M. van der Sanden Martin Houweling J. Bernd Helms Arie B. Vaandrager 《Journal of lipid research》2009,50(11):2182-2192
The mutant Chinese hamster ovary cell line MT58 contains a thermosensitive mutation in CTP:phosphocholine cytidylyltransferase, the regulatory enzyme in the CDP-choline pathway. As a result, MT58 cells have a 50% decrease in their phosphatidylcholine (PC) level within 24 h when cultured at the nonpermissive temperature (40°C). This is due to a relative rapid breakdown of PC that is not compensated for by the inhibition of de novo PC synthesis. Despite this drastic decrease in cellular PC content, cells are viable and can proliferate by addition of lysophosphatidylcholine. By [3H]oleate labeling, we found that the FA moiety of the degraded PC is recovered in triacylglycerol. In accordance with this finding, an accumulation of lipid droplets is seen in MT58 cells. Analysis of PC-depleted MT58 cells by electron and fluorescence microscopy revealed a partial dilation of the rough endoplasmic reticulum, resulting in spherical structures on both sites of the nucleus, whereas the morphology of the plasma membrane, mitochondria, and Golgi complex was unaffected. In contrast to these morphological observations, protein transport from the ER remains intact. Surprisingly, protein transport at the level of the Golgi complex is impaired. Our data suggest that the transport processes at the Golgi complex are regulated by distal changes in lipid metabolism. 相似文献
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We previously reported that reducing the expression of cholesteryl ester transfer protein (CETP) disrupts cholesterol homeostasis in SW872 cells and causes an ∼50% reduction in TG. The causes of this reduced TG content, investigated here, could not be attributed to changes in the differentiation status of CETP-deficient cells, nor was there evidence of endoplasmic reticulum (ER) stress. In short-term studies, the total flux of oleate through the TG biosynthetic pathway was not altered in CETP-deficient cells, although mRNA levels of some pathway enzymes were different. However, the conversion of diglyceride (DG) to TG was impaired. In longer-term studies, newly synthesized TG was not effectively transported to lipid droplets, yet this lipid did not accumulate in the ER, apparently due to elevated lipase activity in this organelle. DG, shown to be a novel CETP substrate, was also inefficiently transferred to lipid droplets. This may reduce TG synthesis on droplets by resident diacylglycerol acyltransferase. Overall, these data suggest that the decreased TG content of CETP-deficient cells arises from the reduced conversion of DG to TG in the ER and/or on the lipid droplet surface, and enhanced TG degradation in the ER due to its ineffective transport from this organelle. 相似文献
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Regerand T. I. Nefedova Z. A. Toivonen L. T. Dubrovina L. V. Vuory K.-M. Markova L. V. Ruokolainen T. R. 《Russian Journal of Developmental Biology》2002,33(4):236-241
The influence of low pH (5.0 and 4.0) on lipid metabolism of caddisfly larvae Hydropsyche contubernalis L. (Trichoptera) was studied in 48 h toxicity experiments. The results were correlated with lipid composition of caddisfly larvae directly isolated from natural water. Phospholipids, cholesterol, mono-, di-, triacylglycerols, and fatty acids were detected by thin-layer and liquid chromatography. Minimal environmental changes were shown to initiate the biochemical adaptation mechanisms strengthening the cellular membranes through their condensation due to additional phospholipid and cholesterol synthesis. In the natural medium the adaptation processes are more active than in the artificial medium. More serious changes, such as pH decrease to 4.0, suppress the adaptation processes in the first medium and terminate them in the second one. 相似文献