调控精子成熟和功能的生殖道胞外囊泡研究进展

哺乳动物精子从发生到具备受精能力到达受精部位是一个漫长的过程。在此过程的不同环境中存在可调控精子成熟和功能的胞外囊泡,这些胞外囊泡包括来自雄性生殖道内的附睾小体和前列腺小体,以及来自雌性生殖道内的阴道小体、输卵管小体及子宫小体。现介绍胞外囊泡的概况、生殖道内的胞外囊泡特征、精子摄取胞外囊泡的可能机制以及生殖道胞外囊胞研究的未来展望,以期更好地理解在受精过程中精子功能如何受胞外囊泡调控,为男性不育诊治提供线索。     

哺乳动物受精与透明质酸

哺乳动物精子在睾丸内产生之后,经历了附睾内成熟,雌性生殖道中获能以及超激活运动,最终获得了受精能力。在透明带或其他因素诱导下,发生顶体反应。１精子的成熟与获能精子的成熟与获能,均与精子头部膜的变化有关,精子从附睾头向附睾尾的运动过程中,逐步获得受精能力（Ｙａｎａｇｉｍａｃｈｉ,１９９４）。附睾内精子成熟的变化主要发生在以下几个方面：１．质膜上胆固醇含量增多。２．由于吸附了附睾分泌的大量蛋白质...     

精子和卵母细胞质量控制对山羊卵胞质内精子注射(ICSI)受精的影响

以体外成熟卵母细胞为材料研究了精子来源及制动处理方法、卵母细胞质量及注射后激活等因素对山羊ICSI效果的影响.结果说明,附睾头、体和尾精子ICSI后的受精率、卵裂率和桑椹胚/囊胚发育率与射出的鲜精精子都没有明显差异(p＞0.05),但带下注射时附睾头和体精子的受精和发育率显著低于附睾尾和射精精子.在以4种不同方法致死的精子中,室温保存24h的死精子ICSI受精、卵裂和桑椹/囊胚率虽然低于对照组,但是明显高于其它方式致死的精子;5℃保存15天的死精子受精和发育效果最差.0.0005%Triton X-100处理精子的受精率、卵裂率和桑椹/囊胚率显著(p＜0.05)高于制动对照组、不制动对照组和其它浓度组.经高渗处理法检测质量好的卵母细胞ICSI受精和胚胎发育效果显著好于质量差的卵母细胞.与对照组相比,A23187和Ionomycin/6-DMAP激活处理均显著(p＜0.05)提高ICSI的受精率、卵裂率和桑椹/囊胚发育率.因此,精子在附睾内的成熟过程主要与其获得与卵质膜融合能力有关;精液保存方法对精子受精能力的损伤程度有很大差异;适当浓度的Triton X-100处理可模仿精子制动;卵母细胞质量是影响ICSI效果的重要因素;注射精子后激活卵母细胞能保证山羊ICSI的受精效果.     

附睾蛋白的研究方法及进展

附睾是精子成熟,转运和贮存的场所,哺乳动物精子成熟是通过与附睾管腔微环境相互作用而实现的,精子通过在附睾内转运过程中与附睾蛋白相互作用获得运动和精卵识别结合能力,因而附睾蛋白的研究受到越来越多的关注.本文从不同的实验角度综述了附睾蛋白的研究方法及其进展.     

人源类溶菌酶蛋白6的功能研究及生理特性分析

对人源类溶菌酶蛋白6(human lysozyme-like protein 6,LYZL6)在受精过程中的作用进行研究,并对重组LYZL6蛋白(recombinant LYZL6,r LYZL6)的生理特性进行分析,从而揭示其生理功能。细胞免疫荧光法确定LYZL6定位于成熟精子头部的顶体后区域,反转录PCR(RT-PCR)分析表明精子表面的LYZL6蛋白来源于睾丸和附睾的分泌,Western blot法分析表明精子获能前后表面LYZL6的量无明显改变。半透明带结合实验和精子穿透实验分析表明兔抗LYZL6血清未明显抑制人精子结合透明带,但可明显抑制精卵融合。利用毕赤酵母表达系统成功表达了r LYZL6,使用甲壳素亲和层析和凝胶过滤层析可从发酵上清中纯化到具有生物活性的r LYZL6。酶联免疫吸附法(ELISA)分析显示r LYZL6不具有透明质酸结合能力、透明质酸水解能力和自由基清除活性,但具有较强的肽聚糖结合能力和异肽酶活性。LYZL6由睾丸和附睾分泌后定位于成熟精子头部的顶体后区域,可以参与精卵融合,并具有肽聚糖结合能力和异肽酶活性,提示LYZL6可能通过多种机制参与精子功能。     

影响山羊体外受精的因素

以屠宰山羊卵母细胞为材料研究了公羊个体、附睾不同部位精子、成熟培养和受精时卵丘存在与否、卵丘扩展程度及卵龄对山羊体外受精的影响。结果表明 :1)不同公羊精液在受精、卵裂和桑椹 /囊胚率上都有显著差异 ;2 )附睾尾精子和鲜精的受精、卵裂和桑椹 /囊胚率无显著差异 ,但显著高于附睾体和附睾头精子 ;3)成熟培养 2 4和 2 7h卵母细胞的的桑椹胚 /囊胚率显著高于培养 2 1和 30h卵母细胞 ;4 )卵丘扩展 3和 4级卵母细胞受精和桑椹胚 /囊胚率显著高于扩展 0和 1级卵母细胞 ;5 )成熟培养前机械去卵丘严重影响卵母细胞体外受精和桑椹胚 /囊胚率 ;6 )受精前完全去掉卵丘显著影响桑椹胚 /囊胚率     

血管内皮生长因子蛋白在大鼠睾丸和附睾的表达和定位研究

为探讨血管内皮生长因子(VEGF)在雄性生殖系精子发生发育和成熟过程中的调控作用,应用免疫组化、Periodic acid-Schiff(PAS)染色及蛋白质免疫印迹技术,检测VEGF蛋白在成年大鼠睾丸和附睾的表达和定位情况。Western-blots显示,在大鼠睾丸和附睾内均有VEGF蛋白(约45kD)的表达;免疫组化显示,睾丸内VEGF见于圆形和长形精子细胞、Sertoli细胞和Leydig细胞,免疫阳性产物位于细胞质内。精子细胞的VEGF表达伴随精子细胞顶体发育的全过程,精子残余体呈强阳性。附睾内VEGF表达于附睾管上皮,且有区域和细胞特异性。附睾起始段的所有上皮主细胞内都有VEGF阳性颗粒;头、体、尾各段的VEGF阳性细胞多数与含PAS阳性颗粒的细胞重合,证明为亮细胞;近端附睾的管腔内可见精子头部呈VEGF阳性染色。睾丸、附睾间质血管内皮为VEGF阴性。上述结果表明,VEGF蛋白可由生殖细胞和附睾管上皮细胞直接产生,它可能以自分泌和/或旁分泌的形式共同作用于睾丸和附睾的生殖细胞和血管内皮,直接或间接影响精子的发生、发育和成熟过程,特别是精子顶体的形成过程,并可能与精子在附睾内的成熟有关。     

SRC激酶和磷酸酶PP1γ2/PP2A的相互作用对小鼠附睾精子成熟及运动的调控

目的 哺乳动物附睾精子成熟、运动能力的获得与维持是保证精子执行正常功能、完成受精的前提和基础,但调控此过程的机制仍未完全阐明.SRC激酶参与小鼠精子获能的调控,Ser/Thr磷酸酶PP1γ2/PP2A是调控小鼠精子成熟、运动性获得的关键酶,但二者是否具有相互作用且这种相互作用是否调控着精子运动并不清楚.为此,本研究探究...     

血管内皮生长因子蛋白在大鼠睾丸和附睾的表达和定位研究

为探讨血管内皮生长因子(VEGF)在雄性生殖系精子发生发育和成熟过程中的调控作用,应用免疫组化、Periodic acid-Schiff(PAS)染色及蛋白质免疫印迹技术,检测VEGF蛋白在成年大鼠睾丸和附睾的表达和定位情况。Western-blots显示,在大鼠睾丸和附睾内均有VEGF蛋白(约45kD)的表达;免疫组化显示,睾丸内VEGF见于圆形和长形精子细胞、Sertoli细胞和Leydig细胞,免疫阳性产物位于细胞质内。精子细胞的VEGF表达伴随精子细胞项体发育的全过程,精子残余体呈强阳性。附睾内VEGF表达于附睾管上皮,且有区域和细胞特异性。附睾起始段的所有上皮主细胞内都有VEGF阳性颗粒;头、体、尾各段的VEGF阳性细胞多数与含PAS阳性颗粒的细胞重合,证明为亮细胞;近端附睾的管腔内可见精子头部呈VEGF阳性染色。睾丸、附睾间质血管内皮为VEGF阴性。上述结果表明,VEGF蛋白可由生殖细胞和附睾管上皮细胞直接产生,它可能以自分泌和／或旁分泌的形式共同作用于睾丸和附睾的生殖细胞和血管内皮,直接或间接影响精子的发生、发育和成熟过程,特别是精子顶体的形成过程,并可能与精子在附睾内的成熟有关。     

钙信号在卵母细胞激活中的作用

钙信号是胞内主要的第二信使之一,发挥广泛的作用如细胞分裂、细胞凋亡等,对细胞的生命活动起着非常重要的作用。在精子和卵母细胞中,钙信号对精子获能、顶体反应、卵母细胞成熟、受精及卵裂等一系列复杂的过程有非常重要的影响。现就Ca2 在卵母细胞中的释放机制、信号转导途径、调控功能作一综述。     

CD9-Positive Microvesicles Mediate the Transfer of Molecules to Bovine Spermatozoa during Epididymal Maturation

Acquisition of fertilization ability by spermatozoa during epididymal transit occurs in part by the transfer of molecules from membranous vesicles called epididymosomes. Epididymosomes are heterogeneous in terms of both size and molecular composition. Exosomes and other related small membranous vesicles (30–120 nm) containing tetraspanin proteins on their surface are found in many biological fluids. In this study, we demonstrate that these vesicles are present in bovine cauda epididymal fluid as a subpopulation of epididymosomes. They contain tetraspanin CD9 in addition to other proteins involved in sperm maturation such as P25b, GliPr1L1, and MIF. In order to study the mechanism of protein transfer to sperm, DilC12-labeled unfractionated epididymosomes or CD9-positive microvesicles were coincubated with epididymal spermatozoa, and their transfer was evaluated by flow cytometry. CD9-positive microvesicles from epididymal fluid specifically transferred molecules to spermatozoa, whereas those prepared from blood were unable to do so. The CD9-positive microvesicles transferred molecules to the same sperm regions (acrosome and midpiece) as epididymosomes, with the same kinetics; however, the molecules were preferentially transferred to live sperm and, in contrast to epididymosomes, Zn²⁺ did not demonstrate potentiated transfer. Tetraspanin CD9 was associated with other proteins on the membrane surface of CD9-positive microvesicles according to coimmunoprecipitation experiments. CD26 cooperated with CD9 in the molecular transfer to sperm since the amount of molecules transferred was significantly reduced in the presence of specific antibodies. In conclusion, CD9-positive microvesicles are present in bovine cauda epididymal fluid and transfer molecules to live maturing sperm in a tissue-specific manner that involves CD9 and CD26.     

Maturing the sperm: unique mechanisms for modifying integral proteins in the sperm plasma membrane

The epididymis has been understudied, in part due to its cancer resistance and the development of effective technologies for sperm injection and in vitro fertilization. However, it is worthy of study because--absent advanced reproductive technology--its proper function is essential for conceiving children: sperm leaving the testis are immature and nonfertile. Epididymal functions can be divided into several general categories (1) concentration of sperm; (2) functional maturation; (3) storage in a quiescent state until ejaculation; (4) removal of degenerating sperm; (5) provision of appropriate conditions for survival; (6) transport by the myoid cells; (7) protection; (8) maintenance of the blood epididymal barrier. In the past decade investigators have focused on those maturational changes of the integral proteins of the sperm plasma membrane which are directly related to sperm-ova interactions. It has traditionally been thought that changes in the sperm plasma membrane proteins were limited to simple binding or removal of proteins or interactions with the proteases, glycosylases and glycotransferases present. However, the epididymis can also release secretory products in bulk through apical blebs and inject integral membrane proteins with epididymosomes which fuse with the plasma membrane. The epididymis also activates and cleaves enzymes present on the sperm surface (e.g., germ cell angiotensin converting enzyme), thus enabling them to modify proteins on the sperm membrane. Aside from the need to understand epididymal function relative to the sperm, basic science on epididymal physiology is warranted because it may help us understand the functioning of androgens, protection of tissues from oxidative damage, and resistance to cancer and benign hyperplasic growth.     

Vesicular transfer of membrane components to bovine epididymal spermatozoa

Epididymosomes (apocrine secreted epididymal vesicles) are assumed to play a crucial role in sperm maturation. Our aim has been to analyze the fusogenic properties of bovine epididymosomes and their involvement in the transfer of membrane components (lipids, proteins, plasma membrane Ca²⁺-ATPase 4 [PMCA4]) into bovine sperm. The fusogenic properties of epididymosomes with spermatozoa were investigated in vitro by using octadecyl rhodamine-B (R18)-labeled epididymosomes. Spermatozoa isolated from the epididymal caput showed a higher fusion rate than those taken from the cauda. The fusion rate was dependent on pH and time. Furthermore, the lipid and protein content in spermatozoa changed during epididymal transit and after in vitro fusion with epididymosomes. Following the in vitro fusion of caput spermatozoa with epididymosomes, the cholesterol/total phospholipid ratio of the sperm plasma membrane decreased. The effect was comparable with the cholesterol/total phospholipid ratio of native cauda spermatozoa. Co-incubation experiments of spermatozoa with biotinylated epididymosomes additionally revealed that proteins were transferred from epididymosomes to sperm. To examine the potential transfer of epididymis-derived PMCA4 to spermatozoa, immunofluorescence analysis and Ca²⁺-ATPase activity assays were performed. In caput spermatozoa, the PMCA4 fluorescence signal was slightly raised and Ca²⁺-ATPase activity increased after in vitro fusion. Thus, our experiments indicate significant changes in the lipid and protein composition of epididymal sperm following interaction with epididymosomes. Moreover, our results substantiate the presumption that PMCA4 is transferred to spermatozoa via epididymosomes.     

Investigating the role of murine epididymosomes and uterosomes in GPI-linked protein transfer to sperm using SPAM1 as a model

Sperm uptake of glycosyl phosphatidylinositol (GPI)-linked proteins from luminal fluids has been shown to occur in male and estrous female reproductive tracts. In males, this is attributed to membranous vesicles secreted into the epididymis and prostate. While epididymosomes have been characterized, there have been no reports of the presence of vesicles in female luminal fluids. Here we report the presence of vesicles, characterized as "uterosomes," in the murine estrous female reproductive fluid; and use Sperm Adhesion Molecule 1 (SPAM1/PH-20), a well-known hyaluronidase found in male and female fluids, as a model to investigate vesicle-mediated GPI-linked protein transfer to sperm. Epididymosomes and uterosomes isolated after ultracentrifugation of epididymal (ELF) and uterine luminal fluid (ULF) were analyzed by electron microscopy and shown to be approximately 10-70 and approximately 15-50 nm in diameter. The structural integrity of uterosomes was confirmed by their resistance to hypo-osmotic and freeze/thaw stresses; and immunogold labeling localized SPAM1 to their outer membrane surface, as was the case for epididymosomes. SPAM1 was acquired by caudal sperm during incubation in epididymosomes and uterosomes; uptake was abolished when the GPI anchor was enzymatically cleaved. Sperm analyzed by confocal and transmission electron microscopy (TEM) after incubation in fluorescently labeled vesicles revealed the label on the membrane over the acrosome and midpiece of the flagella, where SPAM1 normally resides. High magnification TEM images demonstrated vesicles juxtaposed to the sperm plasma membrane potentially transferring SPAM1. Taken together, these results implicate vesicular docking as the mechanism of vesicle-mediated GPI-linked protein transfer to sperm from murine reproductive fluids.     

Sperm Proteome Maturation in the Mouse Epididymis

In mammals, transit through the epididymis, which involves the acquisition, loss and modification of proteins, is required to confer motility and fertilization competency to sperm. The overall dynamics of maturation is poorly understood, and a systems level understanding of the complex maturation process will provide valuable new information about changes occurring during epididymal transport. We report the proteomes of sperm collected from the caput, corpus and cauda segments of the mouse epididymis, identifying 1536, 1720 and 1234 proteins respectively. This study identified 765 proteins that are present in sperm obtained from all three segments. We identified 1766 proteins that are potentially added (732) or removed (1034) from sperm during epididymal transit. Phenotypic analyses of the caput, corpus and cauda sperm proteomes identified 60 proteins that have known sperm phenotypes when mutated, or absent from sperm. Our analysis indicates that as much as one-third of proteins with known sperm phenotypes are added to sperm during epididymal transit. GO analyses revealed that cauda sperm are enriched for specific functions including sperm-egg recognition and motility, consistent with the observation that sperm acquire motility and fertilization competency during transit through the epididymis. In addition, GO analyses revealed that the immunity protein profile of sperm changes during sperm maturation. Finally, we identified components of the 26S proteasome, the immunoproteasome, and a proteasome activator in mature sperm.     

The developments between gametogenesis and fertilization: ovulation and female sperm storage in Drosophila melanogaster

In animals with internal fertilization, ovulation and female sperm storage are essential steps in reproduction. While these events are often required for successful fertilization, they remain poorly understood at the developmental and molecular levels in many species. Ovulation involves the regulated release of oocytes from the ovary. Female sperm storage consists of the movement of sperm into, maintenance within, and release from specific regions of the female reproductive tract. Both ovulation and sperm storage elicit important changes in gametes: in oocytes, ovulation can trigger changes in the egg envelopes and the resumption of meiosis; for sperm, storage is a step in their transition from being "movers" to "fertilizers." Ovulation and sperm storage both consist of timed and directed cell movements within a morphologically and chemically complex environment (the female reproductive tract), culminating with gamete fusion. We review the processes of ovulation and sperm storage for Drosophila melanogaster, whose requirements for gamete maturation and sperm storage as well as powerful molecular genetics make it an excellent model organism for study of these processes. Within the female D. melanogaster, both processes are triggered by male factors during and after mating, including sperm and seminal fluid proteins. Therefore, an interplay of male and female factors coordinates the gametes for fertilization.     

Maturational changes in the survivability and fertility of fowl sperm during their passage through the male reproductive tract

The objective of this study was to examine whether domestic fowl (Gallus domesticus) sperm undergo maturation in their capacity for survival and fertilization in the male reproductive tract. Sperm collected from the testis, epididymis and the proximal, middle and distal vas deferens were simultaneously stored in vitro in minimum essential medium (MEM) at 39°C for 0, 3 and 6h, and at 4°C for 24 and 48h. Sperm membrane integrity was measured using the dual fluorescent stain SYBR-14/propidium iodide (PI). Aliquots of sperm from the various sites were subjected to artificial insemination (AI) into the uteri of hens to assess the duration of sperm survival in the oviduct and to determine the fertility status of the sperm. Testicular sperm exhibited a very low capacity to survive under in vitro liquid storage conditions, irrespective of the storage temperature used, and in the oviduct, and they had a low ability to fertilize the ovum. On the contrary, sperm from the distal vas deferens had a higher survival rate during in vitro storage periods, a longer life span in the oviduct, and high fertility. Survival and fertilizing capacity of the sperm recovered from the testes increased gradually (P<0.05) from the testes to the distal vas deferens. In conclusion, we suggest that fowl sperm may undergo functional maturation through a process of gradual changes in their survival and fertilization capacities during their passage through the successive parts of the male reproductive tract.     

Compartmentalization of prion isoforms within the reproductive tract of the ram

Cellular prion protein (Prp(C)) is a glycoprotein usually associated with membranes via its glycosylphosphatidylinositol (GPI) anchor. The trans-conformational form of this protein (Prp(SC)) is the suggested agent responsible for transmissible neurodegenerative spongiform encephalopathies. This protein has been shown on sperm and in the reproductive fluids of males. Antibodies directed against the C-terminal sequence near the GPI-anchor site, an N-terminal sequence, and against the whole protein showed that the Prp isoforms were compartmentalized within the reproductive tract of the ram. Immunoblotting with the three antibodies showed that the complete protein and both N- and C-terminally truncated and glycosylated isoforms are present within cauda epididymal fluid and seminal plasma. Moreover, we demonstrate that in these fluids, the Prp(C) isoforms are both in a soluble state as well as associated with small membranous vesicles (epididymosomes). We also report that only one major glycosylated 25 kDa C-terminally truncated Prp(C) isoform is associated with sperm from the testis, cauda epididymis, and semen, and this form is also present in the sperm cytoplasmic droplets that are released during maturation. In sperm, this C-terminal truncated form was found to be associated with membrane lipid rafts present in the mature sperm, suggesting a role for it in the terminal stages of sperm maturation.     

Glycobiology of fertilization in the pig

By adopting internal fertilization, the meeting of both gametes - the sperm and the egg - and thus the highly coordinated sequence of interactions leading to fertilization, occur in the female reproductive tract. In mammals, the oviduct has been shown to translate the requirements of the female, coordinating sperm activation (capacitation) and sperm transport with the arrival of the ovulated egg. A hierarchy of carbohydrate-based interactions accompanies these events ranging from the binding of uncapacitated sperm to the oviductal epithelium (establishment of the female sperm reservoir), to the primary and secondary binding processes contributing to gamete recognition and sperm penetration of the oocyte zona pellucida. The current perspective will focus on the carbohydrate-recognition systems in the binding events during fertilization in the pig. The roles of the major carbohydrate-binding proteins, the spermadhesins and the acrosomal serine proteinase, pro/acrosin are discussed under consideration of recent structural data. The glycans and the glycoproteins of the porcine oviduct with a focus on the candidate sperm receptors as well as the zona pellucida N-glycans of prepuberal pigs have been characterized by a mass spectrometric approach. Furthermore, some preliminary data supporting the hypothesis that the zona pellucida has to undergo a maturation process during oocyte development are presented.