Intracellular cholesterol transporter StarD4 binds free cholesterol and increases cholesteryl ester formation

StarD4 protein is a member of the StarD4 subfamily of steroidogenic acute regulatory-related lipid transfer (START) domain proteins that includes StarD5 and StarD6, proteins whose functions remain poorly defined. The objective of this study was to isolate and characterize StarD4's sterol binding and to determine in a hepatocyte culture model its sterol transport capabilities. Utilizing purified full-length StarD4, in vitro binding assays demonstrated a concentration-dependent binding of [(14)C]cholesterol by StarD4 similar to that of the cholesterol binding START domain proteins StarD1 and StarD5. Other tested sterols showed no detectable binding to StarD4, except for 7alpha-hydroxycholesterol, for which StarD4 demonstrated weak binding on lipid protein overlay assays. Subsequently, an isolated mouse hepatocyte model was used to study the ability of StarD4 to bind/mobilize/distribute cellular cholesterol. Increased expression of StarD4 in primary mouse hepatocytes led to a marked increase in the intracellular cholesteryl ester concentration and in the rates of bile acid synthesis. The ability and specificity of StarD4 to bind cholesterol and, as a function of its level of expression, to direct endogenous cellular cholesterol suggest that StarD4 plays an important role as a directional cholesterol transporter in the maintenance of cellular cholesterol homeostasis.     

PNRC1剪接变异体的鉴定及其在辅激活核受体介导基因转录功能上的比较

为分析富含脯氨酸核受体辅调节蛋白1(PNRC1)选择性剪接, 及比较PNRC1剪接变异体在辅激活核受体介导基因转录功能上的差异,在生物信息学方法分析PNRC1剪接变异体的基础上,设计一定的特异性引物,采用RT-PCR结合克隆测序的方法对这些剪接变异体进行验证. 利用酵母双杂交和荧光素酶报告系统实验,分析它们与核受体的相互作用及比较它们在辅激活核受体介导基因转录功能上的差异.结果显示,生物信息学预测的几个剪接变异体真实存在于人的组织和细胞系中,这些剪接变异体在与雌激素受体α(ERα)、类固醇衍生因子1(SF1)等核受体的相互作用的强度及辅激活核受体介导基因转录功能上存在较大的差异. 研究提示,PNRC1这些剪接变异体在体内可能发挥不同的功能.     

Molecular mechanism of molt-inhibiting hormone (MIH) induced suppression of ecdysteroidogenesis in the Y-organ of mud crab: Scylla serrata

The present study was focused on the regulation of ecdysteroidogenesis in the Y-organ of Scylla serrata during molting cycle. A strong expression of molt-inhibiting hormone (MIH) and phosphorylation of ERK was predominantly observed in the postmolt and intermolt stages of Y-organs, whereas protein kinase C, steroidogenic acute regulatory protein (StAR) and cytochrome P450(scc) activity were exclusively seen in the premolt stages. Interestingly, inhibition of ERK phosphorylation by PD98059 in the early postmolt (A), middle postmolt (B) and intermolt (C) stages resulted in the prominent expression of PKC and StAR in the postmolt stages. This result indicates that phosphorylation of ERK is required for suppression of ecdysteroid biosynthesis with the involvement of protein kinase C, and StAR protein.     

核受体辅活化子PNRC与孤儿核受体SF1相互作用位点的鉴定

为了阐明核受体辅活化子 (proline richnuclearreceptorcoactivatorprotein ,PNRC)在孤儿核受体类固醇生成因子 1(steroidogenicfactor1,SF1)基因表达调控中的作用 ,采用酵母双杂合分析、缺失突变技术和瞬时转染等研究方法鉴定了PNRC与SF1的相互作用位点 .结果显示 ,PNRC中氨基酸 2 78～ 30 0区域是与SF1相互作用的位点 .该区域富含脯氨酸 ,其中有 1个SH3结合模体 (motif) ,单独的SH3模体不足以与SF1产生有效的相互作用 .瞬时转染分析表明 ,PNRC 2 70 32 7对野生型PNRC的辅激活功能具有负显性抑制效应 .研究结果表明 ,含SH3结合模体的PNRC 2 78 30 0区域是与SF1相互作用的位点     

Steroidogenic factor 1 (SF-1) is essential for endocrine development and functionProceedings of Xth International Congress on Hormonal Steroids, Quebec, Canada, 17–21 June 1998.

Steroidogenic factor 1 (SF-1), an orphan nuclear receptor, initially was isolated as a key regulator of the tissue-specific expression of the cytochrome P450 steroid hydroxylases. Thereafter, analyses of sites of SF-1 expression during mouse embryological development hinted at considerably expanded roles for SF-1, roles that were strikingly confirmed through the analyses of SF-1 knockout mice. These SF-1 knockout mice exhibited adrenal and gonadal agenesis, associated with male-to-female sex reversal of their internal and external genitalia and death from adrenocortical insufficiency. These findings showed unequivocally that SF-1 is essential for the embryonic survival of the primary steroidogenic organs. SF-1 knockout mice also had impaired pituitary expression of gonadotropins and agenesis of the ventromedial hypothalamic nucleus (VMH), establishing that SF-1 regulates reproductive function at all three levels of the hypothalamic–pituitary–gonadal axis. This article reviews the experiments that have defined these essential roles of SF-1 in endocrine development and highlights important areas for future studies.     

核受体辅活化子PNRC与孤儿核受体SF1的相互作用有赖于SF1的AF-2功能结构域

核受体辅活化子PNRC(proline richnuclearreceptorcoregulatoryprotein ,富含脯氨酸的核受体辅调节蛋白 )可通过含SH3结合模体的PNRC2 78 30 0区域与孤儿核受体类固醇生成因子 1(steroido genicfactor 1,SF1)相互作用 .激活功能 2 (activationfunction 2 ,AF 2 )结构域在核受体配体依赖性转录激活中发挥了重要作用 ,为探讨AF 2结构域在SF1转录激活中的作用机制 ,采用酵母双杂合分析、缺失突变技术和瞬时转染等研究方法考察了AF 2结构域对SF1反式激活功能及SF1与PNRC相互作用的影响 .SF1的反式激活功能有赖于AF 2结构域 ,其机制是SF1AF 2结构域的突变严重影响了SF1与PNRC的有效相互作用 ,并消除了PNRC对SF1反式激活功能的辅激活作用 .结果表明 ,SF1与PNRC的相互作用有赖于AF 2的功能结构域     

Interaction of nucleosome assembly proteins abolishes nuclear localization of DGKζ by attenuating its association with importins

Diacylglycerol kinase (DGK) is involved in the regulation of lipid-mediated signal transduction through the metabolism of a second messenger diacylglycerol. Of the DGK family, DGKζ, which contains a nuclear localization signal, localizes mainly to the nucleus but translocates to the cytoplasm under pathological conditions. However, the detailed mechanism of translocation and its functional significance remain unclear. To elucidate these issues, we used a proteomic approach to search for protein targets that interact with DGKζ. Results show that nucleosome assembly protein (NAP) 1-like 1 (NAP1L1) and NAP1-like 4 (NAP1L4) are identified as novel DGKζ binding partners. NAP1Ls constitutively shuttle between the nucleus and the cytoplasm in transfected HEK293 cells. The molecular interaction of DGKζ and NAP1Ls prohibits nuclear import of DGKζ because binding of NAP1Ls to DGKζ blocks import carrier proteins, Qip1 and NPI1, to interact with DGKζ, leading to cytoplasmic tethering of DGKζ. In addition, overexpression of NAP1Ls exerts a protective effect against doxorubicin-induced cytotoxicity. These findings suggest that NAP1Ls are involved in a novel molecular basis for the regulation of nucleocytoplasmic shuttling of DGKζ and provide a clue to examine functional significance of its translocation under pathological conditions.     

Corticosterone induces steroidogenic lesion in cultured adult rat Leydig cells by reducing the expression of star protein and steroidogenic enzymes

The present study was designed to investigate the dose-dependent direct effect of corticosterone on adult rat Leydig cell steroidogenesis in vitro. Leydig cells were isolated from the testis of normal adult male albino rats, purified on discontinuous Percoll gradient and plated in culture plates/flasks overnight at 34 degrees C in a CO(2) incubator under 95% air and 5% CO(2) using DME/F12 medium containing 1% fetal bovine serum. After the attachment of cells, serum-containing medium was removed and cells were exposed to different doses (0, 50, 100, 200, 400, and 800 nM) of corticosterone using serum-free fresh medium for 24 h at 34 degrees C. At the end of exposure period, cells were utilized for assessment of the activities and mRNA expression of steroidogenic enzymes (cytochrome P(450) side chain cleavage enzyme, 3beta-hydroxysteroid dehydrogenase, 17beta-hydroxysteroid dehydrogenase, and cytochrome P(450) aromatase) and steroidogenic acute regulatory protein gene expression. Testosterone and estradiol production were also quantified. Activities of cytochrome P(450) side chain cleavage enzyme, 3beta- and 17beta-hydroxysteroid dehydrogenases were declined significantly in a dose-dependent manner after corticosterone exposure, while their mRNA expression were significantly reduced at higher doses of corticosterone exposure. The activity and mRNA expression of cytochrome P(450) aromatase registered a significant increase at 100 nM dose of corticosterone whereas at 200-800 nM doses both the activity as well as the mRNA levels was significantly reduced below the basal level. StAR protein gene expression was significantly inhibited by higher doses of corticosterone employed. At all doses employed, corticosterone significantly reduced the production of testosterone by Leydig cells, while estradiol level registered a significant increase at 50 and 100 nM doses but at higher doses, it registered a significant decrease when compared to basal level. It is concluded from the present in vitro study that the molecular mechanism by which corticosterone reduces the production of Leydig cell testosterone is by reducing the activities and mRNA expression of steroidogenic enzymes and steroidogenic acute regulatory protein.     

Synaptic removal of diacylglycerol by DGKζ and PSD‐95 regulates dendritic spine maintenance

Diacylglycerol (DAG) is an important lipid signalling molecule that exerts an effect on various effector proteins including protein kinase C. A main mechanism for DAG removal is to convert it to phosphatidic acid (PA) by DAG kinases (DGKs). However, it is not well understood how DGKs are targeted to specific subcellular sites and tightly regulates DAG levels. The neuronal synapse is a prominent site of DAG production. Here, we show that DGKζ is targeted to excitatory synapses through its direct interaction with the postsynaptic PDZ scaffold PSD‐95. Overexpression of DGKζ in cultured neurons increases the number of dendritic spines, which receive the majority of excitatory synaptic inputs, in a manner requiring its catalytic activity and PSD‐95 binding. Conversely, DGKζ knockdown reduces spine density. Mice deficient in DGKζ expression show reduced spine density and excitatory synaptic transmission. Time‐lapse imaging indicates that DGKζ is required for spine maintenance but not formation. We propose that PSD‐95 targets DGKζ to synaptic DAG‐producing receptors to tightly couple synaptic DAG production to its conversion to PA for the maintenance of spine density.