p38 MAPK在小鼠睾丸不同发育阶段的表达和定位

为探讨丝裂原活化蛋白激酶p38 MAPK在小鼠睾丸不同发育阶段的表达,应用蛋白质免疫印迹杂交技术和免疫组织化学SABC法检测1至7周龄小鼠睾丸p38 MAPK的表达、定位及发育变化,并通过图像分析技术对免疫组织化学结果进行统计学分析。免疫印迹杂交发现,p38 MAPK在2～7周龄小鼠睾丸中均有表达。免疫组织化学结果显示,在2周龄小鼠睾丸曲细精管上皮中即可观察到p38 MAPK免疫阳性反应,免疫反应阳性细胞为精原细胞;3、4、5周龄小鼠睾丸仅有个别曲细精管上皮可见p38 MAPK免疫阳性反应;6、7周龄小鼠睾丸中p38 MAPK表达较丰富,免疫反应阳性细胞为精原细胞和初级精母细胞,免疫阳性反应物均主要位于细胞核内。在7周龄小鼠睾丸中还可见到部分间质细胞的细胞质亦呈p38 MAPK阳性。这些结果提示,p38 MAPK可能对生精细胞的增殖分化具有调控作用。     

Cloning,Characterization and Primary Function Study of a Novel Gene,Cymg1,Related to Family 2 Cystatins

Cystatins are cysteine proteinase inhibitors,We found two expression sequence tags (ESTs),CA463109 and AV042522,from a mouse testis library using Digital differential display (DDD).By electricalhybridization,a novel gene,Cymgl(GenBank accession No.AY600990),which has a full length of 0.78 kb,and contains four exons and three introns,was cloned from a mouse testis eDNA library.The gene is locatedin the 2G3 area of chromosome 2.The full eDNA encompasses the entire open reading frame,encoding 141amino acid residues.The protein has a cysteine protease inhibitor domain that is related to the family 2cystatins but lacks critical consensus sites important for cysteine protease inhibition.These characteristicsare seen in the CRES subfamily,which are related to the family 2 cystatins and are expressed specifically inthe male reproductive tract.CYMG1 has a 44%(48/108)identity with mouse CRES and 30%(42/140)identity with mouse cystatin C.Northern blot analysis showed that the Cymgl is specifically expressed inadult mouse testes.Cell location studies showed that the GFP-tagged CYMG 1 protein was localized in thecytoplasm of HeLa cells,lmmunohistochemistry revealed that the CYMG1 protein was expressed in mousetestes spermatogonium,spermatocytes,round spermatids,elongating spermatids and spermatozoa.RT-PCRresults also showed that Cymgl was expressed in mouse testes and spermatogonium.The Cymgl expressionlevel varied in different developmental stages:it was low 1 week postpartum,steadily increased 2 to 5 weekspostpartum,and was highest 7 weeks postpartum.The expression level at 5 weeks postpartum was main-tained during 13 to 57 weeks postpartum.The Cymgl expression level in the testes over different develop-mental stages correlates with the mouse spermatogenesis and sexual maturation process.All these indicatethat Cymgl might play an important role in mouse spermatogenesis and sexual maturation. Cystatins are cysteine proteinase inhibitors,We found two expression sequence tags(ESTs),CA463109 and AV042522,from a mouse testis library using Digital differential display (DDD).By electricalhybridization,a novel gene,Cymgl(GenBank accession No.AY600990),which has a full length of 0.78 kb,and contains four exons and three introns,was cloned from a mouse testis eDNA library.The gene is locatedin the 2G3 area of chromosome 2.The full eDNA encompasses the entire open reading frame,encoding 141amino acid residues.The protein has a cysteine protease inhibitor domain that is related to the family 2cystatins but lacks critical consensus sites important for cysteine protease inhibition.These characteristicsare seen in the CRES subfamily,which are related to the family 2 cystatins and are expressed specifically inthe male reproductive tract.CYMG1 has a 44%(48/108)identity with mouse CRES and 30%(42/140)identity with mouse cystatin C.Northern blot analysis showed that the Cymgl is specifically expressed inadult mouse testes.Cell location studies showed that the GFP-tagged CYMG 1 protein was localized in thecytoplasm of HeLa cells,lmmunohistochemistry revealed that the CYMG1 protein was expressed in mousetestes spermatogonium,spermatocytes,round spermatids,elongating spermatids and spermatozoa.RT-PCRresults also showed that Cymgl was expressed in mouse testes and spermatogonium.The Cymgl expressionlevel varied in different developmental stages:it was low 1 week postpartum,steadily increased 2 to 5 weekspostpartum,and was highest 7 weeks postpartum.The expression level at 5 weeks postpartum was main-tained during 13 to 57 weeks postpartum.The Cymgl expression level in the testes over different develop-mental stages correlates with the mouse spermatogenesis and sexual maturation process.All these indicatethat Cymgl might play an important role in mouse spermatogenesis and sexual maturation.     

GRP78 expression and regulation in the mouse uterus during embryo implantation

The aim of this study was to investigate the spatiotemporal expression and regulation of GRP78 in the mouse uterus during the peri-implantation period. The GRP78 protein was mainly detected in the luminal and glandular epithelia on days 1–4 of pregnancy. On day 5 of pregnancy, the GRP78 protein was more highly observed around the implanted embryo at the implantation site. There was no detectable GRP78 protein signal on day 5 of pseudopregnancy. GRP78 mRNA and protein levels gradually increased on days 6–8 of pregnancy, and the expression pattern was also expanded, coinciding with the development of decidua. Similarly, GRP78 expression was also strongly expressed in decidualised cells following artificial decidualisation. Compared with the results obtained with the delayed uterus, a high level of GRP78 expression was detected in the implantation-activated uterus. In the uteri of ovariectomised mice, GRP78 expression increased and reached its highest level after injection of oestrogen, and progesterone seemed to have an antagonistic effect on oestrogen up-regulation of GRP78 expression. Our data indicate that GRP78 might play an important role during the process of mouse embryo implantation, and GRP78 expression was mainly regulated by active blastocysts and maternal oestrogen.     

Cloning, characterization and primary function study of a novel gene, Cymg1, related to family 2 cystatins

Cystatins are cysteine proteinase inhibitors. We found two expression sequence tags (ESTs), CA463109 and AV042522, from a mouse testis library using Digital differential display (DDD). By electrical hybridization, a novel gene, Cymg1 (GenBank accession No. AY600990), which has a full length of 0.78kb, and contains four exons and three introns, was cloned from a mouse testis cDNA library. The gene is located in the 2G3 area of chromosome 2. The full cDNA encompasses the entire open reading frame, encoding 141 amino acid residues. The protein has a cysteine protease inhibitor domain that is related to the family 2 cystatins but lacks critical consensus sites important for cysteine protease inhibition. These characteristics are seen in the CRES subfamily, which are related to the family 2 cystatins and are expressed specifically in the male reproductive tract. CYMG1 has a 44% (48/108) identity with mouse CRES and 30% (42/140) identity with mouse cystatin C. Northern blot analysis showed that the Cymg1 is specifically expressed in adult mouse testes. Cell location studies showed that the GFP-tagged CYMG1 protein was localized in the cytoplasm of HeLa cells. Immunohistochemistry revealed that the CYMG1 protein was expressed in mouse testes spermatogonium, spermatocytes, round spermatids, elongating spermatids and spermatozoa. RT-PCR results also showed that Cymg1 was expressed in mouse testes and spermatogonium. The Cymg1 expression level varied in different developmental stages: it was low 1 week postpartum, steadily increased 2 to 5 weeks postpartum, and was highest 7 weeks postpartum. The expression level at 5 weeks postpartum was maintained during 13 to 57 weeks postpartum. The Cymg1 expression level in the testes over different developmental stages correlates with the mouse spermatogenesis and sexual maturation process. All these indicate that Cymg1 might play an important role in mouse spermatogenesis and sexual maturation.     

Expression of a defective mouse mammary tumor virus envelope glycoprotein precursor which binds stably to GRP78 within the lumen of the endoplasmic reticulum is associated with decreased glucocorticoid-induced apoptosis in mouse lymphoma cells

Viral proteins inhibit apoptosis in host cells by a variety of mechanisms. This report proposes an additional mechanism, based on the interaction of a mutant mouse mammary tumor virus (MMTV) envelope glycoprotein precursor, Pr74, with the stress protein GRP78 (BiP) within the lumen of the endoplasmic reticulum (ER) (J. Biol. Chem. 268 7482-7488, 1993). We show that WEHI7.2 (W7.2) mouse lymphoma cells, which do not express Pr74, are more sensitive to cell death induction by the glucocorticoid hormone dexamethasone (dex), than W7MG1 cells, which were derived by infecting W7.2 cells with MMTV and therefore express Pr74 under control of the glucocorticoid-inducible MMTV promoter. Moreover, W7-ENV/N cells, derived by stably transfecting W7.2 cells with a constitutively expressed cDNA encoding mutant Pr74, were less sensitive to dex-induced cell death than control transfectant W7-ENV/- cells. Among multiple W7-ENV/N subclones, susceptibility to dex-induced cell death was inversely related to the level of Pr74 synthesis. The interaction of Pr74 with GRP78 induces an increase in GRP78 synthesis. Thus, the repression of cell death associated with Pr74 expression may be secondary to elevated synthesis of GRP78, a stress protein previously implicated in protection against cell death.     

Molecular cloning of a novel mouse testis-specific spermatogenic cell apoptosis inhibitor gene mTSARG7 as a candidate oncogene

A novel mouse gene, mTSARG7 (GenBank accession No. AY489184), with a full cDNA length of 2279 bp and containing 12 exons and.ll introns, was cloned from a mouse expressed sequence tag (GenBank accession No. BE644543) that was significantly up-regulated in cryptorchidism. The gene was located in mouse chromosome 8A1.3 and encoded a protein containing 403 amino acid residues that was a new member of the acyltransferase family because the sequence contained the highly conserved phosphate acyltransferase (PlsC) domain existing in all acyltransferase-like proteins. The mTSARG7 protein and AU041707 protein shared 83.9% identity in 402 amino acid residues. Expression of the mTSARG7 gene was restricted to the mouse testis. The results of the in situ hybridization analysis revealed that the mTSARG7 mRNA was expressed in mouse spermatogonia and spermatocytes. Subcellular localization studies showed that the EGFPtagged mTSARG7 protein was localized in the cytoplasm of GC-1 spg cells. The mTSARG7 mRNA expression was initiated in the mouse testis in the second week after birth, and the expression level increased steadily with spermatogenesis and sexual maturation of the mouse. The results of the heat stress experiment showed that the mTSARG7 mRNA expression gradually decreased as the heating duration increased. The pcDNA3.1 Hygro(-)/mTSARG7 plasmid was constructed and introduced into GC- 1 spg cells by liposome transfection. The mTSARG7 can accelerate GC-1 spg cells, causing them to traverse the S-phase and enter the G2-phase, compared with the control group where this did not occur as there was no transfection of mTSARG7. In conclusion, our results suggest that this gene may play an important role in spermatogenesis and the development of cryptorchid testes, and is a testis-specific apoptosis candidate oncogene.     

T cell receptor-mediated signaling induces GRP78 expression in T cells: the implications in maintaining T cell viability

The 78-kDa glucose-regulated protein (GRP78) is an important molecular chaperone in the endoplasmic reticulum (ER) induced by various stresses. This study showed that stimulation with anti-CD3 mAb, PMA plus ionomycin, or an antigen increased the levels of GRP78 mRNA in primary T cells, which was inhibited by Ca²⁺ chelators EGTA and BAPTA-AM and by an inhibitor of calcineurin FK506. In addition, the specific knockdown of GRP78 protein expression induced apoptosis in mouse EL-4 T cell line associated with CHOP induction and caspase-3 activation. Furthermore, overexpression of GRP78 inhibited PMA/ionomycin-induced cell death in EL-4 cells. Collectively, GRP78 expression is induced by TCR activation via a Ca²⁺-dependent pathway and may play a critical role in maintaining T cell viability in the steady and TCR-activated states. These results suggest a novel regulatory mechanism and an essential function of GRP78 in T cells.     

葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的差异表达

为探讨葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的生物学意义,利用蛋白质免疫印迹、免疫荧光及RNA印迹技术,检测了发育不同时期小鼠脑组织中GRP78、GRP94的表达及分布情况.结果显示:小鼠脑发育过程中GRP78、GRP94的表达在时间和空间上呈现出显著差异,在脑发育的早中期GRP78表达水平高于GRP94,随发育的进程GRP78不断下降而GRP94逐渐升高,至胚胎发育晚期GRP94表达水平高于GRP78.在E16.5的不同脑区,GRP78的表达呈现出从端脑到后脑逐渐递减的“浓度梯度”分布,而GRP94在不同脑区中表达相同.小鼠出生后,二者作为应激蛋白在脑组织中的表达没有明显的差异性.免疫荧光结果显示,GRP78和GRP94在大脑组织中的分布基本相同,神经细胞和神经胶质细胞的细胞质均有分布.这些观察得到的结果提示,GRP78和GRP94与神经细胞分化和脑的形态建成有关,它们分别在脑发育的不同时期起作用.     

内质网膜复合亚基3调控内质网应激影响人畸胎瘤细胞的存活

内质网膜蛋白复合物(endoplasmic reticulum membrane complex,EMC)在跨膜蛋白质的生物发生和膜整合中发挥重要作用.内质网膜复合亚基3 (endoplasmic reticulum membrane complex 3,EMC3)是EMC的重要组成部分,但其在生殖细胞中发挥的作用未见...     

GRP78 Suppresses Lipid Peroxidation and Promotes Cellular Antioxidant Levels in Glial Cells following Hydrogen Peroxide Exposure

Oxidative stress, caused by the over production of reactive oxygen species (ROS), has been shown to contribute to cell damage associated with neurotrauma and neurodegenerative diseases. ROS mediates cell damage either through direct oxidation of lipids, proteins and DNA or by acting as signaling molecules to trigger cellular apoptotic pathways. The 78 kDa glucose-regulated protein (GRP78) is an ER chaperone that has been suggested to protect cells against ROS-induced damage. However, the protective mechanism of GRP78 remains unclear. In this study, we used C6 glioma cells transiently overexpressing GRP78 to investigate the protective effect of GRP78 against oxidative stress (hydrogen peroxide)-induced injury. Our results showed that the overexpression of GRP78 significantly protected cells from ROS-induced cell damage when compared to non-GRP78 overexpressing cells, which was most likely due to GRP78-overexpressing cells having higher levels of glutathione (GSH) and NAD(P)H:quinone oxidoreductase 1 (NQO1), two antioxidants that protect cells against oxidative stress. Although hydrogen peroxide treatment increased lipid peroxidation in non-GRP78 overexpressing cells, this increase was significantly reduced in GRP78-overexpressing cells. Overall, these results indicate that GRP78 plays an important role in protecting glial cells against oxidative stress via regulating the expression of GSH and NQO1.     

Construction of a proteome profile and functional analysis of the proteins involved in the initiation of mouse spermatogenesis

Spermatogenesis is a complex process of terminal differentiation wherein mature sperm are produced. In the first wave of mouse spermatogenesis, different spermatogenic cells appear at specific time points, and their appearance is expected to be accompanied by changes in specific protein expression patterns. In this study, we used 2D-PAGE and MALDI-TOF/TOF technology to construct a comparative proteome profile for mouse testis at specific time points (days 0, 7, 14, 21, 28, and 60 postpartum). We identified 362 differential protein spots corresponding to 257 different proteins. Further cluster analysis revealed 6 expression patterns, and bioinformatics analysis revealed that each pattern was related to many specific cell processes. Among them, 28 novel proteins with unknown functions neither in somatic cells nor germ cells were identified, 8 of which were found to be uniquely or highly expressed in mouse testes via comparison with the GNF SymAtlas database. Further, we randomly selected 7 protein spots and the above 8 novel proteins to verify the expression pattern via Western blotting and RT-PCR, and 6 proteins with little information in testis were further investigated to explore their cellular localization during spermatogenesis by performing immunohistochemistry for the mouse testis tissue. Taken together, the above results reveal an important proteome profile that is functional during the first wave of mouse spermatogenesis, and they provide a strong basis for further research.     

Differential expression of protein kinase C alpha and delta in testes of mouse at various stages of development

Protein kinase C (PKC) describes a family of serine/threonine protein kinases, and multiple isoforms are expressed in various mammalian tissues. In the present study, we examined the expression of PKC-alpha and PKC-delta at protein and mRNA level in mouse testis by Western blotting and RT-PCR. We also examined the expression of both PKC isoenzymes in the developing mouse testis. In testes of mouse at various developmental stages, both the protein and the mRNA of PKC-alpha were uniformly distributed; but PKC-delta expression occurred in the testes of 3-week-old mice, perhaps even at a relatively late stage in spermatid development. The results suggest that each isoenzyme may have different functional roles in processing and modulating physiological cellular responses of spermatogenesis.     

Thapsigargin down-regulates protein levels of GRP78/BiP in INS-1E cells

Pancreatic β-cells have a well-developed endoplasmic reticulum (ER) and express large amounts of chaperones and protein disulfide isomerases (PDI) to meet the high demand for synthesis of proteins. We have observed an unexpected decrease in chaperone protein level in the β-cell model INS-1E after exposure to the ER stress inducing agent thapsigargin. As these cells are a commonly used model for primary β-cells and has been shown to be vulnerable to ER stress, we hypothesize these cells are incapable of mounting a chaperone defense upon activation of ER stress. To investigate the chaperone expression during an ER stress response, induced by thapsigargin in INS-1E cells, we used quantitative mass spectrometry based proteomics. The results displayed a decrease of GRP78/BiP, PDIA3 and PDIA6. Decrease of GRP78/BiP was verified by Western blot and occurred in parallel with enhanced levels of p-eIF2α and CHOP. In contrast to INS-1E cells, GRP78/BiP was not decreased in MIN6 cell or rat and mouse islets after thapsigargin exposure. Investigation of the decreased protein levels of GRP78/BiP indicates that this is not a consequence of reduced mRNA expression. Rather the reduction results from the combined effect of reduced protein synthesis and enhanced proteosomal degradation and possibly also degradation via autophagy. Induction of ER stress with thapsigargin leads to lower protein levels of GRP78/BiP, PDIA3 and PDIA6 in INS-1E cells which may contribute to the susceptibility of ER stress in this β-cell model.     

Identification of a novel male germ cell-specific gene TESF-1 in mice

Mammalian spermatogenesis is precisely regulated by many germ cell-specific factors. In search for such a germ cell-specific factor, we have identified a novel mouse gene testis-specific factor 1 (TESF-1). Messenger RNA of TESF-1 was found only in the testis and its expression appeared to be regulated in a developmental manner. Further analysis demonstrated that the expression of TESF-1 was specifically in male germ cells, supported by the observation that we were not able to detect the TESF-1 mRNA from at/at homozygous mutant testes, which lack germ cells. The deduced amino acid sequence of TESF-1 contains a leucine-zipper motif, a potential nuclear localization signal, and two cAMP- and cGMP-dependent protein kinase phosphorylation sites. The green fluorescent protein (GFP)-tagged TESF-1 fusion protein was expressed in COS-7 cells and localized primarily in the nucleus. Taken together, these results indicate that TESF-1 is a novel male germ cell-specific gene, and its protein product may function as a nuclear factor involved in the regulation of spermatogenesis.     

Transplantation of germ cells from rabbits and dogs into mouse testes.

Spermatogonial stem cells of a fertile mouse transplanted into the seminiferous tubules of an infertile mouse can develop spermatogenesis and transmit the donor haplotype to progeny of the recipient mouse. When testis cells from rats or hamsters were transplanted to the testes of immunodeficient mice, complete rat or hamster spermatogenesis occurred in the recipient mouse testes, albeit with lower efficiency for the hamster. The objective of the present study was to investigate the effect of increasing phylogenetic distance between donor and recipient animals on the outcome of spermatogonial transplantation. Testis cells were collected from donor rabbits and dogs and transplanted into testes of immunodeficient recipient mice in which endogenous spermatogenesis had been destroyed. In separate experiments, rabbit or dog testis cells were frozen and stored in liquid nitrogen or cultured for 1 mo before transplantation to mice. Recipient testes were analyzed, using donor-specific polyclonal antibodies, from 1 to >12 mo after transplantation for the presence of donor germ cells. In addition, the presence of canine cells in recipient testes was demonstrated by polymerase chain reaction using primers specific for canine alpha-satellite DNA. Donor germ cells were present in the testes of all but one recipient. Donor germ cells predominantly formed chains and networks of round cells connected by intercellular bridges, but later stages of donor-derived spermatogenesis were not observed. The pattern of colonization after transplantation of cultured cells did not resemble spermatogonial proliferation. These results indicate that fresh and cryopreserved germ cells can colonize the mouse testis but do not differentiate beyond the stage of spermatogonial expansion.