Immunogenicity of a multi-component recombinant human acrosomal protein vaccine in female Macaca fascicularis.

A vaccine formula comprised of five recombinant human intra-acrosomal sperm proteins was inoculated into female monkeys to test whether specific antibodies to each component immunogen could be elicited in sera and whether antibodies elicited by the vaccine affected in vitro fertilization. Acrosomal proteins, ESP, SLLP-1, SAMP 32, SP-10 and SAMP 14, were expressed with his-tags, purified by nickel affinity chromatography and adsorbed to aluminum hydroxide. Five female cynomolgus monkeys were inoculated intramuscularly three times at monthly intervals. All five monkeys developed both IgG and IgA serum responses to each recombinant immunogen on Western blots. Each serum stained the acrosome of human sperm and bound to the cognate native protein on Western blots of human sperm extracts. By ELISA, all monkeys developed IgG to each immunogen, with the highest average absorbance values to ESP, SAMP 32 and SP-10, followed by lower values for SLLP-1 and SAMP 14. IgA was also generated to each component immunogen with the highest average absorbance values to SLLP-1 and SP-10. For antigens that induced an IgA response, the duration of the IgA response was longer than the IgG response to the same antigens. This study supports the concept that a multivalent contraceptive vaccine may be administered to female primates evoking both peripheral (IgG) and mucosal (IgA) responses to each component immunogen following an intramuscular route of inoculation with a mild adjuvant, aluminum hydroxide, approved for human use.

The DNA/RNA-binding protein MSY2 marks specific transcripts for cytoplasmic storage in mouse male germ cells.

During spermatogenesis, male germ cells temporally synthesize many proteins as they differentiate through meiosis and become spermatozoa. The germ cell Y-box protein, MSY2, constituting approximately 0.7% of total protein in male germ cells, binds to a consensus promoter element, and shows a general lack of RNA-binding specificity. Combining immunoprecipitation and suppressive subtractive hybridization, we identified populations of germ cell mRNAs that are not bound or bound by MSY2. The former population is enriched in cell growth and ubiquitously expressed mRNAs, whereas the latter population is enriched for stored or translationally delayed, male gamete-specific transcripts. Chromatin precipitation assays reveal that most of the MSY2 target mRNAs are transcribed from genes containing the Y-box DNA-binding motif in their promoters. In transgenic mice, mRNAs encoding exogenous GFP are directed or not directed into the MSY2-bound fraction by promoters containing or lacking the Y-box motif, respectively. We propose that MSY2 marks specific mRNAs in the nucleus for cytoplasmic storage, thereby linking transcription and mRNA storage/translational delay in meiotic and postmeiotic male germ cells of the mouse.

Spermatid-specific promoter of the SP-10 gene functions as an insulator in somatic cells.

Spermatid differentiation markers such as the acrosomal protein SP-10 display remarkable testis- and germ cell-restricted gene expression. However, little is known about the mechanisms that prevent their expression in somatic tissues. We have previously noted that the -408/+28 or the -266/+28 promoter of SP-10 directed strictly spermatid-specific transcription in transgenic mice, Biol. Reprod. 61, 1256-1266). Lack of ectopic expression in these mouse lines implied that the SP-10 promoter might have protected the transgene from the influence of neighboring enhancers. The present study tested this directly by performing enhancer-blocking assays. In transiently transfected COS cells, the -408/-92 SP-10 promoter, but not stuffer DNA, blocked the transcriptional activity of a heterologous enhancer (CMV) in a position- and orientation-dependent manner. In transgenic mice, despite integration adjacent to the pan-active CMV enhancer, the -408/+28 promoter maintained spermatid-specificity and no ectopic expression of the transgene resulted. Enhancer blocking is a characteristic feature of insulators. Our results show that the SP-10 proximal promoter, which activates transcription in spermatids, functions as an insulator in somatic cells. Insulator activity mapped to the -186/-135 region and mutation of two ACACAC motifs compromised the insulator function. In conclusion, the evolutionarily conserved SP-10 insulator is novel and is the first one shown to regulate transcription of a germ cell differentiation marker.

Splicing in murine CABYR and its genomic structure.

Human calcium-binding tyrosine-phosphorylation regulated protein (CABYR) is a polymorphic, testis-specific, calcium binding protein that undergoes tyrosine phosphorylation during in vitro capacitation. A protein kinase A (PKA) regulatory subunit type II alpha (RII-alpha) homologous domain in the N-terminus, phosphorylation dependent Ca(++) binding isoforms, and localization to the principal piece of the human sperm tail suggest that CABYR may be involved in sperm motility. In this paper, four mouse orthologous cDNAs and the genomic DNA of CABYR were cloned, nucleotide and protein sequences of mouse and humans were compared, and the genomic organization of the mCABYR gene was analyzed. Human and mouse CABYR conserve potential functional motifs including a domain homologous to the dimerization interface of cyclic adenosine monophosphate dependent PKA RII-alpha, 14 PXXP motifs, and regions of homology with extensins and src homology-3-binding protein 1. mCABYR is arranged into six exons spanning about 14 kb of DNA. Mouse CABYR showed several similarities with human CABYR: (1) the protein was localized to the principal piece of mouse epididymal spermatozoa; (2) mouse CABYR has two coding regions (CR-A and CR-B), with 66 and 82% identity, respectively to human; and (3) mCABYR showed the presence of two testis-specific transcripts of approximately 1.4 and approximately 2.4 kb. Three murine splice variants were identified, two of which spliced into CR-B. Exon 4, present in all human and mouse variants and comprising 85% of CR-A appears suitable for targeted deletion. The overall 81% nucleotide identity between mouse and human CABYR, the common genomic organization, presence of similar testis-specific transcripts, localization in the principal piece of tail and occurrence of homologous splice variants indicate an authentic murine orthologue of CABYR has been identified.

Cloning and characterization of a novel sperm-associated isoantigen (E-3) with defensin- and lectin-like motifs expressed in rat epididymis.

In the present study we report the identification of a novel epididymis-specific secretory glycoprotein, E-3, which is a sperm-associated isoantigen containing defensin- and lectin-like motifs. E-3 was detected in rat epididymal fluid and in sperm extracts by two-dimensional (2-D) Western blotting using rat hyperimmune sera raised against rat sperm. The immunoreactive spot of approximately 28 kDa with an isoelectric point (pI) of 3.5 was cored from silver-stained gels. Microsequencing by tandem mass spectrometry and database searches revealed several peptides to be novel sequences. Degenerate deoxyinosine-containing primers corresponding to the novel peptides were used in rapid amplification of cDNA ends and polymerase chain reaction to clone E-3 from a rat epididymal cDNA library. A 449-base pair nucleotide sequence was subsequently obtained consisting of a complete open reading frame (ORF) of 111 amino acids, which showed similarity to the defensin and lectin families. The first 21 amino acids constituted a putative signal peptide, suggesting that E-3 is a secretory protein. Mature E-3 protein corresponding to amino acids 22-111 was expressed in E. coli, and chickens were immunized with recombinant E-3 (rE-3). The resulting anti-rE-3 antisera recognized the recombinant immunogen as well as a "native" protein of 28 kDa, pI 2.5-3.5 in both epididymal fluid and in sperm extracts on 2-D Western blots. Northern hybridization indicated that E-3 mRNA was present in the epididymis but not in testis or other tissues, and that E-3 mRNA was predominantly expressed in the corpus and cauda of the epididymis, but not in the initial segment or caput. Similarly, Western blots detected the E-3 protein only in the epididymal fluid and sperm from the corpus and caudal regions. Finally, indirect immunofluorescence localized E-3 on the entire tail, and with less intensity on the head of the sperm. These observations indicate that E-3 is a secreted epididymal protein that becomes associated with the sperm as it transits through the corpus and cauda. The presence of a defensin-like motif suggests that E-3 may play a role in protecting the sperm from microbial infections in the epididymis and in the female reproductive tract.

Transcriptional regulation of spermiogenesis: insights from the study of the gene encoding the acrosomal protein SP-10.

Spermiogenesis is the terminal differentiation process of the male germ cell during which haploid spermatids acquire unique structures such as the acrosome and flagellum and undergo extensive cellular reorganization. Although well described morphologically, the molecular mechanisms underlying spermiogenesis are not well understood. The SP-10 gene, which codes for the acrosomal protein SP-10, has been well characterized in mice and men. This single copy gene is localized to syntenic regions of chromosomes 9 and 11 in mouse and human, respectively. The SP-10 gene is testis-specific, and is transcribed and translated in round spermatids. The differentiation marker SP-10 serves as a useful model to address questions regarding the regulation of round spermatid-specific gene transcription and acrosome biogenesis. This paper defines the temporal pattern of SP-10 gene expression during spermiogenesis and reviews the work done on analysis of the SP-10 promoter. Transgenic mice demonstrated that either the -408/+28 or the -266/+28 region of the SP-10 promoter could drive round spermatid-specific expression of a GFP reporter gene whereas the -91/+28 region lacked promoter activity. The transgene expression mimicked the spatial and temporal patterns of expression of the endogenous SP-10 gene. Surprisingly, none of the transgenic lines showed expression of GFP in tissues other than testis. Given the complexity of eukaryotic transcriptional regulation, the fact that a short 294-bp promoter is capable of conferring developmental stage- and cell type-specific transcription of a gene is intriguing and paradoxical.

Tektin B1 demonstrates flagellar localization in human sperm.

The human flagellar protein tektin B1 (h-tekB1) in human sperm was cloned, and its sequence and subcellular location were determined. Human sperm proteins were separated by 2-dimensional electrophoresis, and a resolved protein spot of 54 kDa with an isoelectric point (pI) of 5.3 was removed from the gel, trypsinized, and microsequenced by tandem mass spectrometry. The resulting peptides did not match any protein in the (then current) protein databases. Degenerate oligonucleotides based on the microsequences were used with a polymerase chain reaction to amplify a partial cDNA clone from human testis poly(A)(+) mRNA, and subsequently a full-length 1.5-kilobase (kb) clone (GenBank AF054910) was obtained from a testis cDNA library. The open reading frame encoded a 430-amino acid protein with 47% homology to the sea urchin tektin B1. Hybridization of labeled h-tekB1 cDNA to a multiple-tissue Northern blot demonstrated a transcript of 1.7 kb in human testis, and a multiple tissue dot-blot demonstrated high levels of expression in testis, trachea, and lung, intermediate levels in fetal brain and appendix, and low levels in ovary, pituitary, and fetal kidney. Rat polyclonal serum generated against a recombinant h-tekB1 demonstrated 3 h-tekB1 isoforms of pI 5.25, 5.5, and 5.35 at 53.5 kDa on a 2-dimensional Western blot of human sperm proteins. Immunofluorescent studies localized h-tekB1 to the principal piece of human sperm, but the endpiece was unstained.