Molecular cloning, cDNA structure and tissue-specific expression of the human regulatory subunit RI beta of cAMP-dependent protein kinases.

Complementary DNA clones for the regulatory subunit RI beta of cAMP-dependent protein kinases were isolated from a human testis cDNA library using a mouse RI beta cDNA probe. One clone 2.4 kilobases (kb) in length contained an open reading frame of 1137 bases, and encoded a protein of 379 amino acids (excluding the initiator methionine). The human RI beta protein was one amino acid shorter than the corresponding protein in mouse and rat. The nucleotide similarity to mouse and rat sequences was 85.6% and 84.8%, respectively, while the amino acid similarity was 97.6% and 97.3%, respectively. Northern blot analyses revealed a 2.7 kb mRNA in human tissues and a 2.8 kb mRNA in mouse tissues. Both mouse and human RI beta mRNA were found to be expressed in most tissues, and not restricted to brain and testis as reported by others.     

Expression and characterization of isoform 1 of human mitochondrial elongation factor G

Elongation factor G (EF-G) catalyzes the translocation step of protein biosynthesis. Genomic analysis suggests that two isoforms of this protein occur in mitochondria. The region of the cDNA coding for the mature sequence of isoform 1 of human mitochondrial EF-G (EF-G1(mt)) has been cloned and expressed in Escherichia coli. The recombinant protein has been purified to near homogeneity by chromatography on Ni-NTA resins and cation exchange high performance liquid chromatography. EF-G1(mt) is active on both bacterial and mitochondrial ribosomes. Human EF-G1(mt) is considerably more resistant to fusidic acid than many bacterial translocases. A molecular model for EF-G1(mt) has been created and analyzed in the context of its relationship to the translocases from other systems.     

Molecular cloning and characterization of a protein tyrosine phosphatase enriched in testis, a putative murine homologue of human PTPMEG

Protein tyrosine phosphorylation is regulated by protein tyrosine kinase and protein tyrosine phosphatase activities. These two counteracting proteins are implicated in cell growth and transformation. Using polymerase chain reaction with degenerate primers, we have identified a novel mouse protein tyrosine phosphatase (PTP). This cDNA contains a single open reading frame of the predicted 926 amino acids. Those predicted amino acids showed significant identity with human megakaryocyte protein-tyrosine phosphatase by 91% in nucleotide sequences and 94% in amino acid sequences. We have identified that expression of this PTP is highly enriched in the testis in mouse and human and has been termed here as a 'testis-enriched phosphatase' (TEP). Northern analysis detected two mRNA species of 3.7 and 3.2kb for this PTP in mouse testis and the expression of TEP is regulated during development. The recombinant phosphatase domain possesses protein tyrosine phosphatase activity when expressed in Escherichia coli. Immunohistochemical analysis of the cellular localization of TEP on mouse testis sections showed that this PTP is specifically expressed in spermatocytes and spermatids within seminiferous tubules, suggesting an important role in spermatogenesis.     

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.     

Cloning and tissue distribution of a novel human cytochrome p450 of the CYP3A subfamily, CYP3A43

On the basis of the detection of an expressed sequence tag ('EST') similar to the human cytochrome P450 3A4 cDNA, we have identified a novel member of the human cytochrome P450 3A subfamily. The coding region is 1512-bp long and shares 84, 83, and 82% sequence identity on the cDNA level with CYP3A4, 3A5, and 3A7, respectively, with a corresponding amino acid identity of 76, 76, and 71%. Quantitative real time based mRNA analysis revealed CYP3A43 expression levels at about 0.1% of CYP3A4 and 2% of CYP3A5 in the liver, with significant expression in 70% of the livers examined. Gene specific PCR of cDNA from extrahepatic tissues showed, with the exception of the testis, only low levels of CYP3A43 expression. The CYP3A43 cDNA was heterologously expressed in yeast, COS-1 cells, mouse hepatic H2.35 cells and in human embryonic kidney (HEK) 293 cells, but in contrast to CYP3A4 which was formed in all cell types, no detectable CYP3A43 protein was produced. This indicates a nonfunctional protein or specific conditions required for proper folding. It is concluded that CYP3A43 mRNA is expressed mainly in liver and testis and that the protein would not contribute significantly to human drug metabolism.     

Isolation, characterization, and chromosome mapping of a human A-C1 Ha-Ras suppressor gene (HRASLS)

Recently, we cloned a cDNA encoding a novel mouse protein, named A-C1, by differential display between two mouse cell lines, embryonic fibroblast C3H10T1/2 and chondrogenic ATDC5. Mouse A-C1 has homology with a ras-responsive gene, rat Ha-rev107 (Hrasls), and modulates a Ha-ras-mediated signaling pathway. Here, we report a cDNA encoding a human homolog of mouse A-C1. The deduced amino acid sequence of human A-C1 consists of 168 amino acids, and shows 83% identity with that of mouse A-C1. Human A-C1 mRNA was expressed in skeletal muscle, testis, heart, brain, and thyroid in vivo. Moreover, expression of human A-C1 mRNA was detected at a high level in human osteosarcoma-derived U2OS cells in vitro. By FISH analysis the human A-C1 gene (HRASLS) was mapped to human chromosome 3q28--> q29.     

NYD-SP16, a novel gene associated with spermatogenesis of human testis

By hybridizing human adult testis cDNA microarrays with human adult and embryo testis cDNA probes, a novel human testis gene NYD-SP16 was identified. NYD-SP16 expression was 6.44-fold higher in adult testis than in fetal testis. NYD-SP16 contains 1595 base pairs (bp) and a 762-bp open reading frame encoding a 254-amino acid protein with 73% amino acid sequence identity with the mouse testis homologous protein. The NYD-SP16 gene was localized to human chromosome 5q14. The deduced structure of the NYD-SP16 protein contains one transmembrane domain, which was confirmed by GFP/NYD-SP16 fusion protein expression in the cytomembrane of the transfected human choriocarcinoma JAR cells, suggesting that it is a transmembrane protein. Multiple tissue distribution indicated that NYD-SP16 mRNA is highly expressed in the testes and pancreas, with little or no expression elsewhere. Further analysis of abnormal expression in infertile male patients revealed complete absence of NYD-SP16 in the testes of patients with Sertoli-cell-only syndrome and variable expression in patients with spermatogenic arrest. Homologous gene expression in mouse testis was confirmed in spermatogenic cells by in situ hybridization. The results of cDNA microarray, in situ hybridization, and semiquantitative polymerase chain reaction in mouse testis of different stages indicated that NYD-SP16 expression is developmentally regulated. These results suggest that the putative NYD-SP16 protein may play an important role in testicular development/spermatogenesis and may be an important factor in male infertility.