妊娠期家兔子宫内膜的鞘糖脂表达

 妊娠期家兎子宫内膜的神经节苷脂(Gls)的含量明显低于动情期的,而中性鞘糖脂(NGSL)的含量则以妊娠中、晚期的最高,动情期最低。鞘糖脂组成变化最显著的是妊娠早期,由动情期到早孕GM_3从28.0％增加到52.7％,CMH.CDH由未测出分别增加到29.2％和21.9％,而糖链复杂的组分GD_3,GTlb和CPH的百分含量则明显减少,到妊娠中、晚期、短糖链组分逐渐减少,而复杂糖链组分渐增。中期妊娠内膜的(GIs)以GD_3为主要组分,占45％,明显高于其它各期。NGSL在妊娠中、晚期CPH增高达70％,与动情期水平相当。结果提示,妊娠期间子宫内膜的鞘糖脂含量与组成均发生明显变化,这些变化可能与子宫功能密切相关。特别是早孕对的变化,推测与子宫内膜和胚泡的识别,粘连特性的获得有关。     

人正常子宫肌肉的鞘糖脂组成及其在不同生理功能阶段的变化

本文测定了新生儿、生育期、更年期和足月妊娠人子宫肌肉的神经节苷脂(Gg)与中性鞘糖脂(N-GSL)的含量,比较了两种鞘糖脂的HPTLC谱。新生儿期Gg的总含量(以脂结合唾液酸LBSA量表示)最高,每克湿重组织约45.2μg,足月妊娠子宫肌肉中的含量最低,为10.4μg,生育期为32.8μg、更年期为39.5μg。N—GSL的含量却以足月妊娠子宫肌肉中最多,达99.4μg。按HPTLC谱分析子宫肌肉中Gg的主要组分为GD_3和GM_3,在子宫发育成熟与妊娠时,肌肉组织中这两种组分的含量变化明显:生育期样品的GD_3由新生儿的25.4％增加到56.6％(按占LBSA总量的百分比计算),GM_3则由33.2％降至16.9％。此外,GM_1和GD_(1a)也明显减少。N—GSL在生育期CMH、CDH和CTH的含量(按占含糖基量的百分比计算)成倍增加,而含五糖基以上的组分则仅为新生儿子宫的1/5。足月妊娠与新生儿子宫肌肉的两类鞘糖脂的HPTLC谱类似,但前者GT1b占19.4％,明显高于新生儿样品(6.1％)。     

雌、孕激素对去卵巢家兔子宫内膜鞘糖脂表达的影响

用雌、孕激素处理去卵巢家兔后观察子宫内膜鞘糖脂的含量和组成。结果表明、雌激素处理后、子宫内膜Gls含量是孕激素处理的十余倍,而孕激素增加NGSL含量的作用却比雌激素更强。两种激素对鞘糖脂组分的影响也明显不同。雌激素给药组子宫内膜鞘糖脂以多糖基组分GD_3 GT_(1b) CPH为主,孕激素组则以短糖链组分GM_3 CMH CDH为主。雌激素预先作用后再用孕激素或雌、孕激素同时给药,与单用雌激素后比较其短糖链组分明显增加,多糖基组分则明显减少,表现出两者的共同作用。上述结果提示:雌、孕激素对鞘糖脂代谢影响明显不同,雌激素使糖链复杂化、孕激素则使糖链趋向于简单。     

真菌鞘糖脂的生物学功能及应用研究进展

丝状真菌作为一类重要的微生物，被广泛应用于发酵食品、工业酶和次生代谢物等工业生产中。真菌鞘糖脂主要由鞘氨醇、脂肪酸链和特殊的极性基团组成，根据极性基团的不同，分为中性鞘糖脂和酸性鞘糖脂两大类。鞘糖脂不仅参与真菌生长、细胞分化、增殖、细胞凋亡、逆境胁迫等重要生理活动，中性鞘糖脂还可作为功能性医药用品、化妆品和保健食品的重要活性组分。本文论述了真菌鞘糖脂的主要种类、结构、生物合成途径和及其参与丝状真菌生长、分化和响应逆境胁迫的生物学功能；探讨了真菌中性鞘糖脂作为抗菌肽的靶点和酸性鞘糖脂在开发抗真菌药物中的应用；同时还综述了中性鞘糖脂作为化妆品的保湿成分或保健食品的功能成分，在改善皮肤屏障功能和预防特应性皮炎中的重要作用的相关研究进展，尤其是来源于曲霉的中性鞘糖脂，可显著增强皮肤屏障功能，并可作为益生元预防肠道损伤；另外还探讨了曲霉尤其是米曲霉作为开发中性鞘糖脂生物资源的优势。     

鞘糖脂的新陈代谢与生理学功能（英文）

鞘糖脂由一个神经酰胺的脂骨架与一个或多个糖基连接形成,存在于细胞膜中,承担多种生理学功能。我们将对鞘糖脂的生物化学及生理学方面研究做一概述,随后简要介绍近年来鞘糖脂的临床研究进展。在讨论鞘糖脂生物化学方面的研究中,我们把重点放在介绍鞘脂类及鞘糖脂的结构和生合成途径。脂类生物合成和降解是通过一系列酶的参与紧密调控的,如果一种酶参与代谢失败会导致酶底物的大量堆积,会引起溶酶体贮积症,这种疾病是由具有分解代谢活性的水解酶缺失所造成的。随后,我们介绍鞘糖脂在细胞及动物体内的生理学方面的功能,以及鞘糖脂在临床方面的一些病症中所起的作用,即使许多细节还有待于进一步研究。     

MUC16 对子宫内膜容受性的影响及其意义

目的:多囊卵巢综合征(Polycystic Ovary Syndrome,PCOS)系由于体内复杂的内分泌和代谢环境影响了子宫内膜稳态,导致子宫内膜容受性下降,造成患者生育力减弱和不良妊娠结局.通过测定多囊卵巢综合征患者子宫内膜与正常生育力妇女增生期、分泌早、中、晚期子宫内膜中MUC16的相对表达量,本文探讨MUC16与PCOS患者子宫内膜容受性下降的关系,为临床上改善PCOS患者子宫内膜容受性,提高PCOS患者的妊娠率,降低流产率提供一条新的可能途径.方法:选择PCOS患者子宫内膜、正常生育力妇女增生期、分泌早、中、晚期子宫内膜各20例,用免疫组化SP法检测MUC16在各组的表达情况.结果:(1)MUC16在月经周期各期均有表达,在分泌中期表达最强.(2)PCOS组MUC16的表达较分泌中期组弱,差异有显著性(P＜0.05).结论:(1)在子宫内膜中的表达呈周期性变化.(2)PCOS患者子宫内膜中MUC16表达异常可能使子宫内膜容受性下降,推测其与胚胎不能正常着床或着床后发育不良、导致流产有关.     

人子宫平滑肌肉瘤中性鞘糖脂含量、组成及其四糖基组分糖链结构的变化

本文分析了人子宫平滑肌肉瘤组织的中性鞘糖脂,发现子宫肉瘤组织的中性鞘糖脂的含量明显低于正常组织,组成成分虽与正常子宫平滑肌相似,均含有单、双、三、四糖基及多糖基组分,但各组分的相对含量则变化显著。肉瘤中所含短糖链的组分相对减少,高极性的CPH明显增加。本文还纯化了子宫肉瘤中性糖脂中主要的四糖基组分,应用HPTLC、酸解和酶解法以及特异单抗放射免疫染色法对该组分进行鉴定。结果证明子宫平滑肌中所含主要的四糖基组分糖链结构在正常组织为Globo系列的红细胞苷脂,而在肉瘤中则转变为乳糖系列的拟红细胞糖苷脂。     

狗小肠鞘氨醇糖脂中长链碱组成的研究

 利用气相色谱、气相色谱-质谱联用等方法测定了狗小肠鞘氨醇糖脂中的长链碱组成。其主要的长链碱为鞘氨醇(Sphingosine)、异鞘氨醇(isosphingosine)、二氢鞘氨醇(Sphinganine)和植物鞘氨酸(Phyto-sphingosine)。一共分离出十三个鞘氨醇糖脂。在唯一的五糖基神经酰胺中异鞘氨醇是主要成份。在一个一糖基神经酰胺中植物鞘氨醇是主要成份。植植物鞘氨酸也是两个二糖基神经酰胺和一个三糖基神酰胺的主要长链碱。说明它不仅存于植物体内。     

GnRHR-Ⅱ在子宫内膜的分布及表达变化规律研究

目的:研究促性腺激素释放激素Ⅱ型受体(GnRHR-Ⅱ)在子宫内膜的分布及表达变化规律。方法:选择2015年1月~2016年7月期间我院收治的100例女性不孕患者,经诊断性刮宫技术获取50例增生期子宫内膜组织与50例分泌期子宫内膜组织,分别作为研究组与对照组;采用免疫组织化学染色法检测两组子宫内膜基质细胞与腺上皮GnRHR-Ⅱ的表达。结果:增生期、分泌期子宫内膜均有GnRHR-Ⅱ分布;研究组子宫内膜基质细胞的GnRHR-Ⅱ表达明显高于对照组,而腺上皮则明显低于对照组,差异有统计学意义(P0.05)。结论:GnRHR-Ⅱ在子宫内膜增生期与分泌期均有表达,且在膜基质细胞与腺上皮均有分布,其分布于表达变化规律在一定程度上与子宫内膜容受性有关,有望成为评估子宫内膜容受性的标记物。     

Neobiosynthesis of Glycosphingolipids by Plasma Membrane-associated Glycosyltransferases

Gangliosides, complex glycosphingolipids containing sialic acids, are synthesized in the endoplasmic reticulum and in the Golgi complex. These neobiosynthesized gangliosides move via vesicular transport to the plasma membrane, becoming components of the external leaflet. Gangliosides can undergo endocytosis followed by recycling to the cell surface or sorting to the Golgi complex or lysosomes for remodeling and catabolism. Recently, glycosphingolipid catabolic enzymes (glycohydrolases) have been found to be associated with the plasma membrane, where they display activity on the membrane components. In this work, we demonstrated that ecto-ganglioside glycosyltransferases may catalyze ganglioside synthesis outside the Golgi compartment, particularly at the cell surface. Specifically, we report the first direct evidence of expression and activity of CMP-NeuAc:GM3 sialyltransferase (Sial-T2) at the cell surface of epithelial and melanoma cells, with membrane-integrated ecto-Sial-T2 being able to sialylate endogenously synthesized GM3 ganglioside as well as exogenously incorporated substrate. Interestingly, we also showed that ecto-Sial-T2 was able to synthesize GD3 ganglioside at the cell surface using the endogenously synthesized cytidine monophospho-N-acetylneuraminic acid (CMP-NeuAc) available at the extracellular milieu. In addition, the expression of UDP-GalNAc:LacCer/GM3/GD3 N-acetylgalactosaminyltransferase (GalNAc-T) was also detected at the cell surface of epithelial cells, whose catalytic activity was only observed after feeding the cells with exogenous GM3 substrate. Thus, the relative interplay between the plasma membrane-associated glycosyltransferase and glycohydrolase activities, even when acting on a common substrate, emerges as a potential level of regulation of the local glycosphingolipid composition in response to different external and internal stimuli.     

猪脑神经节苷脂的测定及其分析

神经节苷脂是神经酰胺寡糖苷类物质.在脊椎动物的中抠神经系统中含量十分丰富.猪脑神经节苷脂经分离、纯化后的成分和含量的分析显示,猪脑神经节苷脂的含量占猪脑组织重量的0.0894%(W/W),是猪脑总脂含量的0.39%(W/W).主要成分是GM1,GD3,GD1a,GD1b和GT1b,其中GM1和GD1a明显高于人脑.     

Glycosphingolipids of human myometrium and endometrium and their changes during the menstrual cycle, pregnancy and ageing

The glycolipid composition of human myometrium and endometrium was examined at various stages of maturation and reproduction. The major neutral glycolipids of both myometrium and endometrium were identified by high-performance thin-layer chromatography as globo-series glycolipids, Gb3 and Gb4. The major acidic glycolipids (gangliosides) were identified similarly as GM3 and GD3, with lesser amounts of GM1, GD1a, and GT1b. During pregnancy, GD3 expression declined in both myometrium and endometrium, whereas GM3 expression increased. Reciprocal changes in GM3/GD3 expression were mirrored by appropriate changes in the glycosyltransferases required for their synthesis; alpha 2----3sialyltransferase activity increased approximately 3-fold during pregnancy, while alpha 2----8sialyltransferase activity declined to about 20%. The results focus attention on the glycolipids of uterine tissues, their regulation, and their possible role in reproduction and fertility.     

Anabolic sialosylation of gangliosides in situ in rat brain cortical slices

Radiolabeling of the sialic acid residues of gangliosides was examined in thin slices of rat brain cerebral cortex incubated under physiologic conditions in the presence of either [14C]N-acetyl-mannosamine (ManNAc) or cytidine 5'-monophosphoryl-[14C]N-acetyl-neuraminic acid (CMP-NeuAc). CMP-NeuAc is the direct donor substrate in the transfer of sialic acid to gangliosides by sialosyl transferases (SATs), including ectosialosyl transferases at the cell surface. ManNAc must be internalized by the neural cells (neuronal or glial) where it serves as an obligate precursor for the biosynthesis of the NeuAc moiety of intracellular CMP-NeuAc, via multiple reactions in the cytosol and nucleus. When exogenous [14C]ManNAc was supplied, there appeared to be a 2-h lag period before label was incorporated measurably into ganglioside sialic acid. That was followed by rapid ganglioside labeling continuing up to 6 h. There was high incorporation into ganglioside GM1. Labeling by ManNAc was inhibited by monensin, a monovalent cationophore that blocks anabolic transport in medial and trans Golgi. Extracellular CMP-NeuAc was not internalized by the cells. CMP-[14C]NeuAc labeling of gangliosides had no lag period, reached a maximum within 2 h, and then began to level. The label distribution among gangliosides was high in GD3, but quite low in GM1. CMP-NeuAc labeling was not inhibited by 10(-7) M monensin. These findings support a model in which ManNAc labels gangliosides by an intracellular route involving monensin-sensitive, Golgi-associated SATs. In this intracellular system, the major labeled products are gangliosides of the gangliotetraosyl series (GM1, GD1a, etc.).(ABSTRACT TRUNCATED AT 250 WORDS)     

Roles for UDP-GlcNAc 2-epimerase/ManNAc 6-kinase outside of sialic acid biosynthesis: modulation of sialyltransferase and BiP expression, GM3 and GD3 biosynthesis, proliferation, and apoptosis, and ERK1/2 phosphorylation

Roles for UDP-GlcNAc 2-epimerase/ManNAc 6-kinase (GNE) beyond controlling flux into the sialic acid biosynthetic pathway by converting UDP-GlcNAc to N-acetylmannosamine are described in this report. Overexpression of recombinant GNE in human embryonic kidney (HEK AD293) cells led to an increase in mRNA levels for ST3Gal5 (GM3 synthase) and ST8Sia1 (GD3 synthase) as well as the biosynthetic products of these sialyltransferases, the GM3 and GD3 gangliosides. Conversely, down-regulation of GNE by RNA interference methods had the opposite, but consistent, effect of lowering ST3Gal5 and ST8Sia1 mRNAs and reducing GM3 and GD3 levels. Control experiments ensured that GNE-mediated changes in sialyltransferase expression and ganglioside biosynthesis were not the result of altered flux through the sialic acid pathway. Interestingly, exogenous GM3 and GD3 also changed the expression of GNE and led to reduced ST3Gal5 and ST8Sia1 mRNA levels, demonstrating a reciprocating feedback mechanism where gangliosides regulate upstream biosynthetic enzymes. Cellular responses to the GNE-mediated changes in ST3Gal5 and ST8Sia1 expression and GM3 and GD3 levels were investigated next. Conditions that led to reduced ganglioside production (e.g. short hairpin RNA exposure) stimulated proliferation, whereas conditions that resulted in increased ganglioside levels (e.g. recombinant GNE and exogenous gangliosides) led to reduced proliferation with a concomitant increase in apoptosis. Finally, changes to BiP expression and ERK1/2 phosphorylation consistent with apoptosis and proliferation, respectively, were observed. These results provide examples of specific biochemical pathways, other than sialic acid metabolism, that are influenced by GNE.     

具不同淋巴道转移潜能小鼠肝癌瘤株细胞膜鞘糖脂比较研究

采用高效薄层层析（ＨＰＴＬＣ）对两株具有不同淋巴道转移潜能的小鼠腹水型肝癌瘤株细胞膜鞘糖脂组分进行了比较分析．低转移的ＣＬ－Ａ_２瘤株神经节苷脂以ＧＭ_３为主,高转移的ＣＬ－１６Ａ_３瘤株则以ＧＭ_２为主．两细胞株中性鞘糖脂各组分相对百分含量无较显著差异．脂结合唾液酸含量测定表明,ＣＬ－１６Ａ_３瘤株脂结合唾液酸含量约为ＣＬ－Ａ_２瘤株的三倍．提示,具有不同淋巴道转移潜能的瘤细胞,其质膜鞘糖脂的组成也不同．     

Compartmental Organization of the Synthesis of GM3, GD3, and GM2 in Golgi Membranes from Neural Retina Cells

The relationship among lactosylceramide-(LacCer), GD3- and GM2-synthases and between the two last transferases and their common GM3 acceptor was investigated in intact Golgi membrane from chick embryo neural retina cells at early (8-days) and late (14 days) stages of the embryonic development. [³H]Gal was incorporated into endogenous glucosylceramide by incubation of Golgi membranes with UDP-[³H]Gal. Conversion of the synthesized [³H]Gal-LacCer into GM3, and of the latter into GD3, GM2 and GD2 was examined after a second incubation step with unlabeled CMP-NeuAc and/or UDP-GalNAc. With CMP-NeuAc, most [³H]Gal-LacCer was converted into GM3 in either 8- or 14- day membranes. However, while about 90% of GM3 was converted into GD3 in 8-day membranes, only about 25% followed this route in 14-day membranes. With CMP-NeuAc and UDP-GalNAc, about 90% of GM3 was used for synthesis of GM2 in 14-day membranes, while in 8-day membranes about 80% followed the route to GD3, and a part to GD2. Performing the second incubation step in the presence of increasing detergent concentrations showed that conversion of GM3 to GM2 was inhibited at concentrations lower than those required for inhibition of LacCer to GM3 conversion. Taken together, results indicate that transfer steps leading to synthesis of GM3, GD3, GM2 and GD2 from LacCer are functionally coupled in the Golgi membranes, and that GD3- and GM2-synthases compete in a common compartment for using a fraction of GM3 as substrate. In this competition, the relative activities of the transferases and their relative saturation with the respective donor sugar nucleotides, are important factors influencing conversion of GM3 toward either GD3 or GM2.