促酰化蛋白(ASP)诱导3T3-L1前脂肪细胞分化

促酰化蛋白 (ASP)代替经典激素“鸡尾酒”诱导法中胰岛素 ,通过形态学观察、油红染色分化百分比测定、脂肪细胞甘油三酯合成率和甘油三酯总量测定 ,并与经典激素“鸡尾酒”法诱导前脂肪细胞分化情况比较 ,探讨ASP是否具有诱导 3T3 L1前脂肪细胞分化作用 .ASP组诱导分化第 6d ,3T3 L1前脂肪细胞变大、变圆 ,出现大量脂肪滴 ,形态由前脂肪细胞向成熟脂肪细胞转变 ;随着诱导分化时间延长 ,胞浆中脂滴进一步积累 .分化 9d时 ,3T3 L1前脂肪细胞分化完全 .油红染色结果显示 ,ASP组分化率很高 (85 % ) ,与胰岛素组分化率 (90 % )相似 ,明显高于IBMX +DEX组 (4 0 % ) .ASP不仅促进 3T3 L1前脂肪细胞形态向成熟脂肪细胞转化 ,同时促进细胞中甘油三酯的合成和积累 .ASP组诱导分化第 3d时 ,脂肪细胞甘油三酯合成率明显高于对照组和IBMX +DEX组 ,但仍低于胰岛素组 ;在分化第 6d和第 9d时 ,ASP组甘油三酯合成率进一步升高 ,与对照组和IBMX +DEX组相比差异有极显著性 ,与胰岛素组相比无显著性差异 .ASP组诱导分化 3d时 ,脂肪细胞中甘油三酯总量明显高于对照组和IBMX +DEX组 ;分化 6d和 9d时 ,甘油三酯总量进一步升高 ,与对照组和IBMX +DEX组相比差异有极显著性 ,而与胰岛素组相比无显著性差异 .结果表明 ,新型脂源性激     

下调Fsp27基因表达联合杨梅素干预对3T3-L1细胞脂解的影响

目的:下调脂肪特异性蛋白27(Fsp27)基因表达联合杨梅素干预,观察对3T3-L1细胞中脂质代谢的影响,并探究脂滴发生、发展变化的调控机制。方法:常规培养3T3-L1前脂肪细胞,采用"鸡尾酒"法诱导其分化为成熟脂肪细胞。脂质体法转染sh-Fsp27干扰载体,以杨梅素浓度为100μmol/L的完全培养基干预成熟脂肪细胞72h。油红O染色,观察脂滴形态及大小的变化;酶法测定细胞内甘油及甘油三酯的含量,观察细胞脂质代谢的变化。Western blot检测Fsp27、激素敏感性甘油三酯脂肪酶(HSL)、甘油三酯脂肪酶(ATGL)以及丝裂原活化蛋白激酶(MAPK)信号通路蛋白的表达。结果:1. 3T3-L1细胞诱导分化后,形态由纤维样变成圆形,并伴随有细胞体积的增大。2.与对照组相比,杨梅素组和转染组细胞中甘油三酯含量下降,甘油含量升高(P 0. 05)。与其他三组相比,联合干预组细胞中甘油三酯含量减少,甘油含量增加(P 0. 05)。3.与对照组相比,其余三组细胞内Fsp27蛋白的表达量均降低,ATGL和PPARγ的表达量升高(P 0. 05)。另外,联合干预组和杨梅素组细胞内HSL的表达量和p-p38MAPK/p38MAPK的比值均大于sh-Fsp27组和对照组(P 0. 05)。结论:1. Fsp27基因沉默与杨梅素联合干预可以更大程度地促进脂肪分解代谢。2.杨梅素可通过激活MAPK信号通路,上调HSL和ATGL的蛋白表达来发挥其促脂解的作用; sh-Fsp27干扰载体通过调节PPARγ和Fsp27蛋白的表达,增加ATGL含量来加速脂肪分解。     

Fsp27基因沉默载体的构建及其对细胞脂解的影响研究

构建脂肪特异性蛋白27(Fat-specific protein of 27,Fsp27)基因沉默载体,研究沉默Fsp27基因表达对3T3-L1细胞脂解的影响,并对其作用机制进行探究。采用RNAi技术,构建Fsp27基因真核干扰载体,下调Fsp27基因的表达。“鸡尾酒”法诱导3T3-L1前脂肪细胞分化为成熟脂肪细胞。脂质体转染脂肪细胞,油红O染色脂滴,酶法测定细胞中甘油及甘油三酯的含量。Western blot法检测细胞中Fsp27、HSL、ATGL和PPARγ的蛋白表达。Western blot结果显示:阳性sh-Fsp27干扰载体均能有效下调Fsp27的表达,且伴随细胞内ATGL和PPARγ的表达量升高(P<0.05),其中sh-Fsp27-2的沉默效果最好;酶学方法检测结果显示:阳性sh-Fsp27干扰组细胞中甘油三酯含量下降,甘油含量升高(P<0.05);油红O染色结果发现:空白对照组与阴性对照组均有大脂滴堆积,阳性sh-Fsp27组小脂滴分布广泛,未见明显的大脂滴。sh-Fsp27-2组基因沉默载体的沉默效果最好,Fsp27基因沉默可以加快3T3-L1细胞的脂解速率,其主要是通过抑制脂滴融合和增强ATGL酶的水解来完成对脂解的调控。     

PAT蛋白抑制饥饿诱导的脂滴快速融合

目的:脂滴快速融合是增大脂滴直径的方式之一,但其研究相对少。本研究旨在建立脂滴快速融合的细胞模型,以便对其进行深入的生物学研究。方法:本研究使用大鼠肾成纤维细胞系NRK和小鼠前脂肪细胞系3T3-L1两种细胞系,先用油酸诱导细胞内产生大量脂滴,再使用饥饿缓冲液培养细胞,利用显微镜实时观测技术跟踪脂滴动态变化,建立脂滴快速融合的模型。而后在此模型中,加入自噬抑制剂或者以过表达CCT为阳性对照,过表达PAT蛋白(PLIN1、ADRP和TIP47),来探究它们在调控脂滴快速融合方面的功能。结果:饥饿缓冲液处理约3小时可诱导细胞发生脂滴快速融合,其融合速率很快,从脂滴接触到融合完成可发生在20秒内,显然不同于CIDE蛋白调控的缓慢脂滴融合过程。自噬抑制剂可以抑制自噬,但是并没有显著影响脂滴快速融合,说明饥饿诱导的脂滴快速融合不依赖于自噬。另发现,与过表达GFP相比,过表达定位于脂滴的GFP-CCT、GFP-PLIN1、GFP-ADRP或GFP-TIP47均能显著性抑制快速融合导致的脂滴变大的现象。结论:本研究建立了饥饿缓冲液诱导脂滴发生快速融合的细胞模型,并证明PAT蛋白(PLIN1、ADRP、TIP47)能抑制脂滴快速融合。     

槟榔碱对3T3-L1脂肪细胞脂代谢的影响

目的：观察槟榔碱对3T3-L1脂肪细胞脂代谢的影响并探讨其可能机制。方法：采用经典的"鸡尾酒"法诱导3T3-L1前脂肪细胞分化成熟,随后用不同浓度的槟榔碱（0、25、50、100 μmol/L）处理成熟脂肪细胞72 h。72 h后,四甲基偶氮唑盐（MTT）法检测细胞的活性;油红O染色观察胞浆内脂滴情况;Western blot检测脂肪酸合成酶（FAS）、甘油三酯脂肪酶（ATGL）、激素敏感性脂肪酶（HSL）蛋白表达。结果：诱导分化成熟的脂肪细胞胞浆内可见大量脂滴;MTT显示：0~100 μmol/L槟榔碱对脂肪细胞活力无显著影响;油红O染色后脂质含量测定结果表明槟榔碱能减少成熟脂肪细胞中脂质含量;Western blot结果显示：与0 μmol/L组（对照组）相比,槟榔碱可显著降低脂肪细胞内FAS的蛋白表达,增加ATGL和HSL的蛋白表达;其中以50 μmol/L组最为显著。结论：槟榔碱使脂肪细胞脂解增强,可能与降低脂质合成关键酶FAS的表达,增加脂质分解代谢关键酶ATGL和HSL的表达有关。     

雷帕霉素对小鼠原代肝细胞脂滴形态和脂滴表面蛋白表达的影响

目的:探讨雷帕霉素(Rapamycin)对小鼠原代肝细胞脂滴形态和脂滴表面蛋白表达的影响。方法:采用胶原酶灌注方法分离和培养小鼠原代肝细胞,采用100μM油酸诱导肝细胞内脂肪的合成。采用0、10、20、50μM的雷帕霉素处理肝细胞12 hr后,利用中性脂肪染料Bodipy493/503对肝细胞内的脂滴进行染色,荧光显微镜下观察细胞脂滴形态和数量。定量试剂盒检测细胞内甘油三酯(TG)的含量利用Western blot检测不同浓度雷帕霉素处理的小鼠原代肝细胞脂滴表面蛋白ADRP的表达水平。结果:成功分离和培养了小鼠原代肝细胞,使用油酸处理能够明显增加原代肝细胞内脂滴的数量。随着体外雷帕霉素处理浓度的增加,荧光显微镜下观察发现原代肝细胞内脂滴的数量呈现明显的下降趋势,甘油三酯的含量也呈见明确的下降趋势,在20μM浓度下就表现出显著性差异。Western blot结果显示雷帕霉素能够在抑制肝细胞内脂肪储积的同时降低脂滴表面蛋白ADRP的表达水平,并且随着雷帕霉素处理浓度的增加,其对ADRP表达的抑制越明显。结论:雷帕霉素能够抑制肝细胞内中性脂肪的储积,同时降低脂滴表面蛋白ADRP的表达水平。也间接说明了mTOR信号通路能够影响肝细胞内脂肪的储积,也为脂肪肝的防治提供了一个新的实验基础。     

rhEPO-L-Fc融合蛋白的表达、生物活性和初步药动学分析

为了延长人促红细胞生成素(hEPO)体内半衰期以达到更好的药效,制备通过柔性接头相连接的重组人红细胞生成素-IgG1 Fc融合蛋白(rhEPO-L-Fc),并对其生物学活性和体内药动学进行初步研究.利用PCR技术构建rhEPO-L-Fc融合基因,克隆至表达载体pOptiVEC-TOPO ,在二氢叶酸还原酶缺陷型中国仓鼠卵巢细胞(CHO-dhfr-)表达.Protein A亲合层析柱纯化融合蛋白,SDS-PAGE、质谱、Western blotting鉴定表达产物,细胞增殖实验检测融合蛋白的体外活性,动物实验检测融合蛋白的体内活性和半衰期.成功构建pOptiVEC-TOPO -rhEPO-L-Fc重组子,实现了在CHO细胞表达,纯化后的rhEPO-L-Fc融合蛋白经鉴定,其分子量和特异性均与理论值相符,能刺激体外培养的EPO依赖型细胞生长,ED50为2 ng/mL,且明显增加大鼠外周血网织红细胞数,体内消除半衰期达到27 h.rhEPO-L-Fc融合蛋白能延长hEPO体内半衰期,为其临床研究奠定了基础.     

促酰化蛋白对脂肪细胞分化中脂滴相关蛋白TIP47表达的影响

研究促酰化蛋白（acylation stimulating protein, ASP）在3T3-L1脂肪细胞分化中对脂滴相关蛋白TIP47(tail-interacting protein 47 kD)表达的影响,从而探讨ASP在成脂方面的重要意义．用免疫荧光染色法观察3T3-L1前脂肪细胞中TIP47的表达定位;采用经典激素鸡尾酒法诱导分化3T3-L1前脂肪细胞,用RT-PCR和Western 印迹方法检测诱导分化的3T3-L1脂肪细胞中TIP47 mRNA和蛋白表达;在分化过程中不同时点,对诱导分化中的3T3-L1脂肪细胞分别给予胰岛素和ASP处理,并设立相应空白对照,用RT-PCR和Western印迹方法检测TIP47 mRNA和蛋白表达． 结果显示,3T3-L1前脂肪细胞中TIP47主要在胞浆内表达;诱导分化过程中的3T3-L1脂肪细胞TIP47 mRNA和蛋白的表达水平呈时间依赖性降低;ASP对诱导分化的3T3-L1脂肪细胞中TIP47 mRNA和蛋白表达有显著的上调作用,但随着分化至48 h,其上调作用已不明显;胰岛素仅在分化的0 d对脂肪细胞中TIP47 mRNA和蛋白表达有上调作用,之后基本无影响．结果提示,ASP促成脂作用可能与其调节脂滴相关蛋白TIP47的表达密切相关,从而为认识及防治肥胖症开拓新的思路．     

视黄酸X受体α促进猪前体脂肪细胞分化

采用细胞转染、油红O染色、油红O染色提取法、GPDH活性测定、semi-qRT-PCR等方法研究了视黄酸X受体α (retinoic acid X receptor α, RXRα)在猪原代前体脂肪细胞分化中的作用及其机理.结果表明,转染pRXRα-EGFP促进了猪前体脂肪细胞RXRα 的表达,脂肪细胞分化能力随之增强, 脂肪细胞GPDH活性、分化转录因子PPARγ和C/EBPαmRNA表达水平均显著升高(P<0.05). 结果提示,RXRα可能通过调控过氧化物酶体增殖物激活受体γ(peroxisome proliferators-activated receptor-γ, PPARγ)和CAAT/增强子结合蛋白家族（CCAAT/enhancer binding proteins, C/EBP）C/EBPα 基因表达变化促进猪前体脂肪细胞分化.     

脂滴包被蛋白(perilipin)调控脂肪分解

脂滴包被蛋白（perilipin）包被在脂肪细胞和甾体生成细胞脂滴表面。基础状态下perilipin可减少甘油三酯水解,使其贮备增加;脂肪分解时磷酸化的perilipin能促进甘油三酯水解,而且该蛋白对激素敏感脂酶从胞浆向脂滴转位是必需的。据推测,perilipin可能在脂肪分解调控中起到“分子开关”的作用。蛋白激酶A（PKA）、细胞外信号调节激酶（ERK）等信号转导通路参与了脂肪分解。肿瘤坏死因子仅（TNFα）、过氧化物酶体增殖物激活受体γ（PPAγ）激动剂、瘦素（leptin）均可以影响perilipin的表达。新近研究表明,perilipin可通过蛋白酶体途径来调节其蛋白量的表达。脂肪分解调控中的关键蛋白perilipin可以和2型糖尿病、肥胖、动脉粥样硬化等多种代谢性疾病及心血管疾病联系起来。     

PTD-NPY融合基因的克隆及其在毕赤酵母中的分泌表达

应用重叠延伸PCR方法扩增HIV-1 TAT蛋白转导结构域(PTD)与鼠源神经肽Y(NPY)的融合基因,克隆目的片段并插入酵母表达载体pPICZαA,构建成重组表达质粒pPICZα-PTD-NPY.PCR和酶切鉴定及测序正确后,经限制性内切酶Sac Ⅰ线性化重组表达质粒并通过电转化整合到巴斯德毕赤酵母菌GS115的染色体基因组中.阳性重组酵母菌用含1%甲醇的培养基诱导其分泌表达.经过120 h的诱导,取上清浓缩除盐后进行SDS-PAGE电泳,表明该系统成功表达了PTD-NPY融合蛋白,Western blotting实验证实表达产物具有特异性.获得真核表达的PTD-NPY融合蛋白,为下一步的应用研究提供了物质基础.     

Reconstituted basement membrane potentiates in vivo adipogenesis of 3T3-F442A cells

Adipocytes forming fat pad in vivo are surrounded by well developed basement membranes. Synthesis of basement membrane is enhanced during in vitro differentiation of preadipocyte line. In order to know the role of basement membrane in adipogenesis in vivo, we injected 3T3-F442A preadipocytes subcutaneously into nude mice together with or without the reconstituted basement membrane, Matrigel. Histological sections of the fat pads newly formed by injecting the cell alone showed dense population of immature adipocytes and microvessels within 2 weeks and they matured rapidly. In contrast, injection of the cells together with Matrigel showed sparse adipocytes after 2 weeks and they matured slowly over the period of 6 weeks. Quantification of the process by measuring the weight, DNA content, triglyceride content and glycerophosphate dehydrogenase (GPDH) activity of the fat pads showed that injection of the cell alone resulted in early maturation of adipose tissue with fewer adipocytes while the presence of Matrigel decelerated but potentiated the maturation of adipose tissue with 2 fold contents of DNA, triglyceride and GPDH activity. We thus showed that reconstituted basement membrane (Matrigel) supported the survival and maturation of adipocytes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Thiazolidinediones exhibit different effects on preadipocytes isolated from rat mesenteric fat tissue and cell line 3T3-L1 cells derived from mice

The effects of PPAR-gamma agonists, thiazolidinediones (TZDs), on preadipocytes isolated from rat mesenteric adipose tissue and murine cell line 3T3-L1 were compared using an in vitro cell culture system. After each cell formed a confluent monolayer under appropriate medial conditions, pioglitazone or troglitazone was applied at 10 microM to each medium for cell maturation. We observed morphological changes in each cell, especially the accumulation of lipid droplets in the cytoplasm, during the culture periods. At the end of culture, DNA content, triglyceride (TG) content and glycerol-3-phosphate dehydrogenase (GPDH) activity were determined. Adiponectin concentrations in each culture medium were also measured during appropriate experimental periods. Application of TZDs increased the DNA content, TG accumulation and GPDH activity in the 3T3-L1 cells but not in the mesenteric adipocytes. Although TG accumulation was unchanged, the number of lipid particles was decreased and the size of lipid particles in the mesenteric adipocytes was increased by TZD application. Although the TZDs increased adiponectin release from the 3T3-L1 cells, adiponectin release from mesenteric adipocytes was suppressed (P<0.05). Thus, the effects of TZDs differed between the primary culture of mesenteric adipose cells and the line cell culture of 3T3-L1 cells. The source of adipocytes is an important factor in determining the action of TZDs in vitro, and particular attention should be paid when evaluating the effect of PPAR-gamma agonists on adipose tissues.     

Differentiation-dependent expression of obese (ob) gene by preadipocytes and adipocytes in primary cultures of porcine stromal-vascular cells

The relationship between obese (ob) gene expression and preadipocyte differentiation was examined in primary cultures of porcine stromal-vascular (S-V) cells by Northern-blot analysis using a pig ob cDNA probe. Isolated adipocytes expressed high levels of ob gene, but S-V cells did not express the ob gene. Cultures were seeded with fetal bovine serum (FBS) plus dexamethasone (Dex) for 3 days followed by ITS (insulin 5 μg/ml, transferrin 5 μg/ml, and selenium 5 ng/ml) treatment for 6 days. Detectable levels of ob mRNA first appeared at day 1 with very low activity of glycerol phosphate dehydrogenase (GPDH). Levels of ob mRNA increased in parallel with preadipocyte number or GPDH activity at the later times in cultures. The depletion of preadipocytes by complement-mediated cytotoxicity at day 3 of culture resulted in markedly decreased ob mRNA expression. Immunocytochemical analysis showed that ob protein was localized in the cytosol of preadipocytes and adipocytes. These data indicated that the ob gene is expressed by preadipocytes and ob gene expression may be correlated with preadipocyte recruitment as well as fat cell size.     

Dietary and species influence on potential of plasma to stimulate differentiation and lipid accumulation in cultured adipocyte precursors

Sera and plasma from different species and from rats of various dietary statuses were compared with regard to effects on proliferation, glycerophosphate dehydrogenase (GPDH) activity, and lipid-filing of rat adipocyte precursors converting to adipocytes in primary cell culture. All of the tested sera and plasma samples were comparably supportive of cell multiplication, but their effects on elevation of GPDH activity (a key event in adipocyte differentiation) and lipid-filling varied greatly. Plasma supported a much greater increase in GPDH activity than serum, while serum from cats supported a much lower increase than serum from humans, calves, goats, or rats. Dietary status of rats did not affect the potential of plasma to support GPDH activity, but did affect plasma support of lipid-filing. A higher than normal degree of lipid-filling was promoted by plasma from rats fed a high-fat, high-sugar diet, while a lower than normal degree was promoted by plasma from fasted rats. Lipid-filling was also found to vary in response to changes in content of very low density lipoprotein (VLDL) in human plasma. This suggests that the influence of diet on the potential of plasma to promote adipocyte lipid-filling may be mediated by the effect of diet on plasma VLDL. The absence of a diet-dependent effect of plasma either on multiplication of adipocyte precursors or on degree of elevation of GPDH activity leaves unresolved the mechanism by which diet affects adipocyte production in animals.     

Multiple effects of tumor necrosis factor on lipoprotein lipase in vivo

A single dose of recombinant murine tumor necrosis factor (TNF) suppressed lipoprotein lipase activity in adipose tissue of fed rats, mice, and guinea pigs for 48 h, even though TNF itself is rapidly metabolized in vivo. Immunoprecipitation of [35S]lipoprotein lipase from fat pads pulse-labeled with [35S]methionine showed a decrease in relative synthesis of the enzyme, which correlated to the decrease in activity. There was no decrease in general protein synthesis and no change in distribution of the enzyme between adipocytes and extracellular locations in the tissue. This is in contrast to fasting in which case there is redistribution of the enzyme within the tissue, decrease in general protein synthesis, but no change in relative synthesis of lipoprotein lipase. TNF did not decrease lipoprotein lipase activity in any tissue other than the adipose but increased the activity in several cases, most markedly in the liver. No [35S]methionine was incorporated into lipoprotein lipase by liver slices from normal or TNF-treated animals. Thus, the increased activity can not be ascribed to enhanced hepatic synthesis of the enzyme. There was an increase in lipoprotein lipase activity in plasma, which correlated to the increase in liver. Thus, TNF suppresses lipoprotein lipase synthesis in adipocytes, but not in other tissues, and has some as yet undefined effect on lipoprotein lipase turnover in extrahepatic tissues, which results in increased transport of active lipase through plasma to the liver.     

Docosahexaenoic acid regulates serum amyloid A protein to promote lipolysis through down regulation of perilipin

Docosahexaenoic acid (DHA) increases lipolysis and decreases lipogenesis through several pathways. DHA also enhances the expression of serum amyloid A protein (SAA), a possible lipid metabolism related gene. The question of whether DHA regulates the expression of SAA to affect lipid metabolism and increase lipolysis needs to be demonstrated in human adipocytes. We designed experiments to determine the role of SAA in regulating lipid metabolism in HepG2 cells using microarray technology. In human hepatocytes, recombinant human SAA1 (hSAA1) inhibited the expression of genes related to lipogenesis and promoted the expression of those involved in lipolysis. When human breast adipocytes were treated with hSAA1 or DHA in vitro, the expression of peroxisome proliferator-activated receptor γ and other lipogenic genes was decreased, whereas the expression of several lipolytic genes was increased. Glycerol release was increased by both SAA and DHA treatments, suggesting that they increased lipolytic activity in human adipocytes. The expression of perilipin, a lipid droplet-protective protein, was decreased, and hormone-sensitive lipase was increased by both of hSAA1 and DHA treatment. We speculate that the mechanism of lipolysis by DHA or SAA is at least partially the result of increased expression of hormone-sensitive lipase and decreased expression of perilipin. Whereas DHA treatment increased expression of hSAA1 in human adipocytes, the DHA-mediated reduction in expression of lipogenesis genes and enhancement of lipolysis may be through the activity of hSAA1. These results may be useful in developing new approaches to reduce body fat deposition.     

Isolation and characterization of cells from rat adipose tissue developing into adipocytes.

To identify cells developing into adipocytes by accumulation of triglyceride, rat epididymal fat pad cells from small rats were exposed to (3)H-labeled chylomicron fatty acids in vivo and then liberated with collagenase. Tissue remnants were removed by filtration and mature fat cells by flotation. Aggregating cells were then removed by filtration through a 25- micro m nylon screen. Further purification of cells labeled in vivo was obtained by removing floating cells from those adhering to the bottom of a culture dish. The adhering cells multiplied to a confluent monolayer when cultured in Medium 199 containing serum, glucose, insulin, and a triglyceride emulsion. The cells then gradually enlarged due to granulation of the cytoplasm by a lipid-staining material. After about 2 weeks these granules had coalesced forming mature adipocytes of typical signet-ring appearance. Free adipocytes could then be recovered from the cultures by collagenase treatment. After about 2 weeks of culture these cells had the same size (about 30 micro m) as adipocytes recovered in the original collagenase preparation of the rat epididymal fat pad. They contained triglyceride lipase activity and incorporated glucose into triglycerides to the same extent as cells developed in vivo but had higher lipoprotein lipase activity. In vitro, heparin in a low concentration, prostaglandin E(1), isobutylmethylxanthine, and cholera toxin markedly promoted the development of these cells into adipocytes. This could be shown to occur almost completely indicating that this fraction of cells was homogeneous and consisted of cells with the capacity to form adipocytes. The duplication time was about 2 days and did not change with subculturing. Preadipocytes could be obtained by density gradient centrifugation, isolating triglyceride-containing cells either directly from the pad or after 3 days in culture. All of these cells developed into adipocytes as described above but did not multiply as readily. It was concluded that cells from the epididymal fat pad from small rats can be isolated in a homogenous fraction that develops in culture into cells of identical morphology and function as adipocytes formed in vivo. The differentiation of these cells into adipocytes may be manipulated in vitro.     

葡萄糖对杜氏盐藻3-磷酸甘油脱氢酶活性的影响

杜氏盐藻是一种抗渗透能力强的单细胞绿藻,甘油在其渗透调节过程中具有重要作用。葡萄糖对杜氏盐藻细胞数量的增加效果不明显,但对盐藻细胞内甘油积累有显著促进作用,在0～15g/L范围内葡萄糖的浓度与胞内甘油积累显著相关(R2=0.9604,P=0.01);葡萄糖浓度达到15g/L时,胞内甘油积累量达到最高值7.80pg/cell,是对照的1.88倍,胞内甘油积累量与葡萄糖的消耗量极显著相关(R2=0.9982,P=0.01)。葡萄糖对盐藻细胞内总蛋白、3-磷酸甘油脱氢酶(GPDH)酶活和比活都有显著影响,在15g/L葡萄糖时这3个值达到最大值,分别是对照的1.354、4.384、3.229倍。数据显示葡萄糖浓度在15g/L时细胞内蛋白质含量增加不多,但GPDH酶活和比活却大幅度增加;葡萄糖导致的渗透压的变化可能诱导新的同功酶的合成。