326. SPIF - A NOVEL TESTIS-SPECIFIC GENE AND ITS INTERACTION WITH PKA

The activation of protein kinase A (PKA) is strongly implicated in capacitation and sperm motility. However, the full pathway is yet to be elucidated. To identify potential PKA binding partners in sperm, a yeast two-hybrid assay was performed using the testis specific catalytic subunit (Cs) of PKA as the ‘bait’ to screen a mouse testis cDNA library. A novel cDNA clone termed Sperm PKA Interacting Factor (SPIF) was identified from the screen on three separate occasions. The interaction was confirmed by a protein pull-down using a C-terminal recombinant protein to SPIF and a PKACs antibody. During cloning and sequence analysis, SPIF was found to contain two isoforms; a full length (4770 bp) and a truncated form (2784 bp) with alternate start sites and an identical 3′ end, with only the full length isoform containing the PKA binding motif. SPIF was found to be testis specific using PCR and Northern Blotting with high expression levels in round spermatids and adult testis. The interaction between SPIF and PKA was further demonstrated with protein co-localisation in round spermatids and in the midpiece and flagellum of mouse sperm. In summary, we have identified a novel testis specific gene that in concert with PKA could prove to be an essential link in the incomplete capacitation pathway

A novel testis protein, RSB-66, interacting with INCA1 (inhibitor of Cdk interacting with cyclin A1)

rsb-66 is a novel gene from a suppression subtracted hybridization (SSH) library of round spermatid-specific cDNAs against those of primary spermatocytes. It was found to be specifically expressed in round spermatids. To explore the function of RSB-66, a yeast two-hybrid system was used to screen for potential interacting partners in a human testis cDNA library. HSD45, also known as INCA1 (inhibitor of Cdk interacting with cyclin A1), was identified as one of the positive clones. The interaction between RSB-66 and INCA1 was demonstrated to occur by GST pull down and coimmunoprecipitation. Using immunofluorescence, RSB-66 was found to be specifically expressed in round spermatids, mainly in the cytoplasm. When being transfected into HeLa cells, RSB-66 and INCA1 were found to be co-localized principally in the cytoplasm. The α helix in the RSB-66 C terminal and two amino acid residues (tyr117 and his119) appear to be crucial for its function.

Identification of a Novel Gene SRG4 Expressed at Specific Stages of Mouse Spermatogenesis

Spermatogenesis is a complex process. Two spermatocytes expression sequence tags (ESTs) BG101130 and BG100990 were found. Their putative amino acid sequences have high homology with rat Spag4 (sperm antigen 4). By electrical hybridization, a novel cDNA encoding polypeptide of 348 amino acid residues was identified from a mouse testis cDNA library. The new gene was designated as SRG4 (Spermatogenesis related gene 4) (GenBank accession No. AY307077). Results of Northern blot and RTPCR revealed that SRG4 expressed specifically in mouse testis. Changes of SRG4 expression in mouse different development stages were observed by RT-PCR. The SRG4 mRNA was hardly detected in 2 weeks postpartum, and expressed abundantly from 3 weeks later, reaching top lever at 4–5 weeks, while slightly down in aging mouse testis. Results of in situ hybridization showed that SRG4 gene expressed abundantly in spermatocytes, round spermatids. This indicated SRG4 gene may play an important role in mouse meiotic divisions of spermatocytes.

Identification of a Novel Leucine-rich Repeat Protein as a Component of Flagellar Radial Spoke in the Ascidian Ciona intestinalis

Axonemes are highly organized microtubule-based structures conserved in many eukaryotes. In an attempt to study axonemes by a proteomics approach, we selectively cloned cDNAs of axonemal proteins by immunoscreening the testis cDNA library from the ascidianCiona intestinalis by using an antiserum against whole axonemes. We report here a 37-kDa protein of which cDNA occurred most frequently among total positive clones. This protein, named LRR37, belongs to the class of SDS22+ leucine-rich repeat (LRR) family. LRR37 is different from the LRR outer arm dynein light chain reported inChlamydomonas and sea urchin flagella, and thus represents a novel axonemal LRR protein. Immunoelectron microscopy by using a polyclonal antibody against LRR37 showed that it is localized on the tip of the radial spoke, most likely on the spoke head. The LRR37 protein in fact seems to form a complex together with radial spoke protein 3 in a KI extract of the axonemes. These results suggest that LRR37 is a component of the radial spoke head and is involved in the interaction with other radial spoke components or proteins in the central pair projection.

Identification and characterization of a gene coding a novel isoform of DEAD-box protein

A gene coding a novel isoform of DEAD-box protein named testicular DEAD-box protein (tDbp), presumably involved in testicular function, was identified and characterized. Testicular DEAD-box protein was cloned from a human testis cDNA library. The cDNA microarray hybridization showed that it was expressed at a higher level in adult testis than in embryo testis. Reverse transcription-polymerase chain reaction indicated that tDbp was specifically expressed in testis, but not in some other tissues.

The Chlamydomonas PF6 Locus Encodes a Large Alanine/Proline-Rich Polypeptide That Is Required for Assembly of a Central Pair Projection and Regulates Flagellar Motility

Efficient motility of the eukaryotic flagellum requires precise temporal and spatial control of its constituent dynein motors. The central pair and its associated structures have been implicated as important members of a signal transduction cascade that ultimately regulates dynein arm activity. To identify central pair components involved in this process, we characterized aChlamydomonas motility mutant (pf6-2) obtained by insertional mutagenesis. pf6-2 flagella twitch ineffectively and lack the 1a projection on the C1 microtubule of the central pair. Transformation with constructs containing a full-length, wild-type copy of the PF6 gene rescues the functional, structural, and biochemical defects associated with the pf6 mutation. Sequence analysis indicates that the PF6 gene encodes a large polypeptide that contains numerous alanine-rich, proline-rich, and basic domains and has limited homology to an expressed sequence tag derived from a human testis cDNA library. Biochemical analysis of an epitope-tagged PF6 construct demonstrates that the PF6 polypeptide is an axonemal component that cosediments at 12.6S with several other polypeptides. The PF6 protein appears to be an essential component required for assembly of some of these polypeptides into the C1-1a projection.

Cloning and characterization of the cDNA encoding the PH20 protein in the European red fox Vulpes vulpes

The PH20 protein is thought to play a crucial role in mammalian fertilization. The fox PH20homologue has been cloned from a testis cDNA library and the deduced protein sequence shows high levels of homology to PH20 proteins isolated from other species. Unlike other PH20 proteins the fox protein does not appear to be membrane associated through a GPI-linkage nor does it show the presence of a transmembrane domain at the C-terminus of the protein. It is in this region that the proteins appear to be least conserved. Immunolocalization studies on fox sperm show that the PH20 protein is located on the inner acrosomal membrane. Transcription of PH20 in the fox is seasonally regulated, with the mRNA expressed during those months when spermatogenesis is at its peak. The PH20 sequence described in this paper has been submitted to the Genbank database and has the accession number U41412.

Su(Ste) Diverged Tandem Repeats in a Y Chromosome of Drosophila melanogaster Are Transcribed and Variously Processed

We report the organization and transcription of diverged tandemly repeated Y-linked Su(Ste) genes that are considered as suppressors of testis-expressed X-linked-repeated Stellate genes that encode a protein sharing extensive homology with β-subunit of casein kinase 2. Clustering of restriction variants is confirmed. Size variants of Su(Ste) repeats appeared to be nonhomogeneously distributed among the P1 phage clones. Different ways of Su(Ste) RNA processing because of the appearance of new splice sites and polyadenylation signals were detected. The high extent of homology between Stellate and Su(Ste) repeats suggested a possibility of Stellate suppression by antisense transcription of Su(Ste) elements. The detection of only “sense” Su(Ste) cDNAs in testis cDNA library allows us to reject this proposal. The genomic and cDNA clones are shown to be equally diverged. This indicates widespread rather than restricted transcription capacity of these repeats.

A gene that is related to SRY and is expressed in the testes encodes a leucine zipper-containing protein.

SRY-related cDNA encoding a protein with a high-mobility-group (HMG) box and a leucine zipper motif, which was designated SOX-LZ, was isolated from a rainbow trout testis cDNA library. Comparison of this cDNA with the mouse homologous cDNA isolated from a testis cDNA library exhibits an overall amino acid sequence identity of 77%, which is in striking contrast to the abrupt loss of amino acid sequence homology outside the HMG box found among mammalian SRY genes. In both rainbow trout and mice, Northern (RNA) blot analyses have revealed the presence of a testis-specific 3-kb-long SOX-LZ mRNA, and this transcript appeared coincidentally with the protamine mRNA, suggesting its expression in the germ line. A recombinant HMG box region protein encoded by SOX-LZ could bind strongly with an oligonucleotide containing an AACAAT sequence, which is also recognized by mouse Sry and Sox-5. Upon cotransfection into CHO cells, SOX-LZ transactivated transcription through its binding motif when the region including the leucine zipper motif was deleted [SOX-LZ (D105-356)]; however, the intact SOX-LZ failed to transactivate. The intact SOX-LZ could form homodimers through the leucine zipper, which resulted in inhibition of DNA binding by the HMG box, while SOX-LZ (D105-356), which was incapable of dimerization, showed specific binding with the AACAAT sequence. Thus, the repressed transactivation of the intact SOX-LZ in CHO cells was primarily attributable to the low level of DNA binding of SOX-LZ homodimers.