Proto-oncogene expression in germ cell development

Phylogenetic conservation of cytostatic factor related genes in the ascidian Ciona intestinalis

In all vertebrates, mature oocytes arrest at the metaphase of the II meiotic division, while some invertebrates arrest at metaphase-I, others at prophase-I. Fertilization induces completion of meiosis and entry into the first mitotic division. Several experimental models have been considered from both vertebrates and invertebrates in order to shed light on the peculiar aspects of meiotic division, such as the regulation of the cytostatic factor (CSF) and the maturation promoting factor (MPF) in metaphase I or II. Recently, we proposed the oocytes of ascidian Ciona intestinalis as a new model to study the meiotic division. Here, taking advantage of the recent publication of the C. intestinalis genome, we presented a phylogenetic analysis of key molecular components of the CSF-related machinery. We showed that the Mos/MAP kinase pathway is perfectly conserved in ascidians. We demonstrated the presence of a CSF-like activity in metaphase-I arrested C. intestinalis oocytes able to block cell division in two-cell embryos. We further investigated the regulation of CSF by demonstrating that both CSF and MPF inactivation, at the exit of metaphase-I, are independent from protein synthesis, indicating the absence of short-lived factors that regulate metaphase stability, as in other invertebrate species. The results obtained suggest that meiotic regulation in C. intestinalis resembles that of vertebrates, such as Xenopus accordingly to the position of this organism in the evolutionary tree.

Molecular cloning and characterization of SRG-L, a novel mouse gene developmentally expressed in spermatogenic cells

Full-length cDNA of a novel mouse gene upregulated in late stages of spermatogenic cells was cloned from mouse testis using overlapping RT-PCR and RACE. The mRNA of the gene was expressed mainly in diplotene/pachytene spermatocytes, round and elongating spermatids. We named this gene as SRG-L (Spermatogenesis Related Gene expressed in late stages of spermatogenic cells, GenBank Accession No. AY352586). The tissue-specific analysis showed a higher expression level in testis and spleen. The gene is mapped on chromosome 8q33.1 and contains 18 exons. The full-length of cDNA is 2,843 bp with an open reading frame (ORF) of 2,625 bp that encodes a 104 kDa protein (874 amino acids) with a putative transmembrane region. The bioinformatics analysis revealed that the SRG-L has two conserved regions, transglutaminase-like homologues domain and D-serine dehydratase domain, rich phosphorylation sites and methylation sites. The SRG-L protein was detected in diplotene/pachytene spermatocytes and spermatids by immunohistochemical staining and Western blot. The results suggest that SRG-L may play definite roles regulating differentiation of germ cells during spermatogenesis, particularly during meiosis and spermiogenesis.

cAMP-response element modulator-tau activates a distinct promoter element for the expression of the phospholipid hydroperoxide/sperm nucleus glutathione peroxidase gene

PHGPx (phospholipid hydroperoxide glutathione peroxidase) is a selenoprotein present in at least three isoforms in testis: cytosolic, mitochondrial and nuclear. All of these derive from the same gene and are structurally related with the exception of the snPHGPx (sperm nucleus-specific form), which differs from the others due to the presence of an arginine-rich N-terminus. It has been demonstrated recently that this N-terminus is encoded by an alternative exon located in the first intron of the PHGPx gene. The expression of snPHGPx has been attributed either to an alternative pre-mRNA splicing or to the presence of a distinct promoter region. Nevertheless, the exact molecular mechanism by which the expression of snPHGPx occurs has not been demonstrated so far. Preliminary sequence analysis of the region located upstream of the alternative exon revealed some potential DNA-binding sites, one of which is specific to the binding of CREM (cAMP-response element modulator) transcription factors. By using electrophoretic mobility-shift assays, we demonstrated that both nuclear protein extract from highly purified rat spermatid cells and recombinant CREM-tau protein can specifically bind to this element. Furthermore, we cloned a 1059 bp comprising the intron and the alternative exon for snPHGPx in the pCAT3 reporter vector. By transient transfection experiments, we demonstrated that the expression of the transcription factor CREM-tau can induce the activation of the reporter gene in NIH-3T3 cell line. These results were confirmed by chromatin immunoprecipitation experiments performed on highly purified rat spermatid cells. On the basis of these results, we demonstrate that snPHGPx expression is mediated by the transcription factor CREM-tau, which acts as a cis-acting element localized in the first intron of the PHGPx gene.

Aging and carcinogenesis--insufficient metabolic cell repair as the common link

BACKGROUND

The mechanisms of the development of cancer in old age and also the mechanisms of aging are not well understood. This paper tries to interpret consequences of malignant tissue transformation from the viewpoint of aging, or in other words, from an insufficient cell adaptation to the needs of repair and proliferation.

SUBJECT

A hypothesis is presented that a unified but quite opposite at different stages of ontogenesis mechanism is the basis of atypical growth and embryonic development. In the beginning of a malignant dedifferentiation is an insufficiency of an effective self-renovation and disturbed preservation of its adaptation capability. The suppression of regenerating cell proliferation is the primary event of the development of a dedifferentiated tissue growth. The transformation of normal cells into tumor cells is an adaptive reaction in reply to a shortage of self-regeneration capability and repair. Allowing for the process of rebirth, i.e. the complete restoration of tissues leading to the restrain of senescence proceeds by the type of embryonic growth of tissues, the possibility to use the potential of transformed cells for restraining senescence is proposed. The latter will permit to direct the process of transformation to an integrated growth channel, to prevent the clinical phenomenon of malignancy, and use the potential of transformed cells for realization of the self-renovation program and program of unlimited life duration of the whole organism.

CONCLUSION

By a stimulation or compensation of the age-induced shortage of cell metabolism, two effects can be expected: prevention of cancer and retardation of aging.

Testis-specific TTF-D binds to single-stranded DNA in the c-mos and Odf1 promoters and activates Odf1

We recently identified testis-specific nuclear factor binding sites in the testis-specific promoters of the c-mos gene and the Odf1 gene, which are 80% identical. Here we characterize a testis-specific nuclear factor, TTF-D, which is able to complex with both binding sites and stimulates Odf1 promoter activity. TTF-D is detectable in mouse testis as early as day 11 postpartum and contains three peptides of 22, 25, and 35 kDa in size. Surprisingly, TTF-D binds specifically to its cognate double-stranded DNA binding site as well as to its single-stranded DNA binding site. Both double-stranded and single-stranded binding site oligonucleotide DNA can specifically repress Odf1 promoter activity. Our results suggest that TTF-D is involved in positive transcription regulation of a pre-meiotic and a post-meiotic gene in the testis.

The human Pim-2 proto-oncogene and its testicular expression

In this study we describe the cloning of a human gene, encoding a protein that shares 90% identity and 93% similarity at the primary structure level, with the mouse Pim-2 gene. The gene was designated hPim-2. Structural features suggest that like the mouse Pim-2, hPim-2 is also a serine threonine kinase. At the RNA level, two hPim-2 transcripts were identified. The first, 2.2 kb, is highly expressed in hematopoietic tissues and in leukemic and lymphoma cell lines (K-562, HL-60 and RAJI). It also shows considerable high levels in testis, small intestine, colon and human colorectal adenocarcinoma cells (SW480). A second transcript, 5.0 kb in size, could be detected only in spleen, thymus, small intestine and colon and in the K-562 and RAJI cell lines. In situ hybridization analysis of biopsies taken from testes of men with complete or partial spermatogenesis revealed that the gene is expressed in primary spermatocytes. In the absence of germ cells, signal could be detected over specific cells in the well developed interstitial region. These results suggest a role for hPim-2 in proliferating cells as well as during meiosis. A possible connection between hPim-2 and apoptosis is discussed.

A novel transcript encoding truncated LIM kinase 2 is specifically expressed in male germ cells undergoing meiosis

LIM kinases, composed of LIMK1 and LIMK2, have unique structural features that contain two LIM motifs at the N-terminus and a catalytic domain at the C-terminus. We report evidence of a novel type of mouse LIMK2 (Limk2) transcript specifically expressed in testis. cDNA cloning showed this Limk2 variant, designated tLimk2, lacked LIM domains at the N-terminus, due to usage of a testis-specific, alternative initiation exon. In Northern blot analysis, tLimk2 was detected in intact adult testis, but not in germ-cell-deficient or immature testis, indicating the stage-specific expression of tLimk2 in spermatogenic cells. In situ hybridization clearly demonstrated that tLimk2 was restrictedly expressed in differentiated germ cells (pachytene spermatocytes to round spermatids) and not expressed in early stages of spermatogenic cells and somatic cells in testis. These results suggested the possibility that the tLimk2 product is involved in spermatogenesis, especially in meiotic and/or postmeiotic processes.

Nucleotide sequence of the ring3 gene in the class II region of the mouse MHC and its abundant expression in testicular germ cells

The RING3 (NAT) gene is the first and only locus with no obvious function associated with the immune system in the class II region of the human major histocompatibility complex. This gene is a homologue of the Drosophila homeotic gene female sterile homeotic (fsh) and encodes a nuclear serine-threonine kinase. To study more about the physiological function of the RING3 gene, we isolated a mouse homologue from a genomic library, determined its gene structure, and investigated its expression profile. The mouse Ring3 gene spans approximately 8 kb and consists of 12 exons encoding a 798-amino-acid protein, sharing as high as 96% amino acid identity with the human RING3 protein. Northern hybridization revealed that the Ring3 gene abundantly produced 3.8- and 3.0-kb transcripts in the testis but was weakly expressed with 4.6- and 3.8-kb transcripts in somatic tissues. It appears that testis-specific 3.0-kb transcript gives rise to a smaller size Ring3 protein resulting from the usage of the second ATG codon for translational initiation compared to the almost ubiquitous 4.6-kb transcript. In RNAs isolated from fractionated testicular germ cells, the two testicular mRNAs were detected exclusively in the fractions containing a large population of round spermatids and pachytene spermatocytes. Furthermore, in situ hybridization on cross sections of seminiferous tubules in the testis showed that the expression of the Ring3 gene was initiated at the pachytene spermatocyte stage during meiosis and persisted throughout the round spermatid stage during spermiogenesis. These results suggest that the Ring3 gene plays an important role in spermatogenesis.

Genomic organization and identification of an enhancer element containing binding sites for multiple proteins in rat pituitary tumor-transforming gene

The rat pituitary tumor transforming gene (PTTG) genomic structure was characterized in this study. Northern blot analysis showed that PTTG mRNA is highly expressed in testicular cell lines. Transfection of testicular cell lines with fusion constructs containing various portions of PTTG 5'-flanking sequences linked to luciferase showed that at least 745 base-pair (bp(s)) 5'-flanking sequences are required for PTTG transcriptional activation. DNaseI footprinting assays indicated that nuclear protein(s) from testicular cell lines interacts with PTTG 5'-flanking sequence between -509 and -624 bp, including two consensus Sp1 binding sites. Western and Southwestern blot analysis showed that three nuclear proteins in addition to Sp1 protein specifically interact with this DNA sequence and that two of these proteins are testicular cell-specific. Deletion of this 115-bp sequence from PTTG promoter resulted in complete loss of promoter function. Site-directed mutagenesis within the Sp1 consensus sequences indicated that the Sp1 binding sites are not critical components of the enhancer sequence for PTTG trancriptional activation in testicular cell lines. Finally, the 115-bp enhancer sequence was shown to be able to activate transcription from a heterologous promoter. These results suggest that PTTG transcriptional activation in testicular cell lines involves interactions of multiple nuclear factors with the PTTG 5' enhancer sequence.

The Pem homeobox gene. Androgen-dependent and -independent promoters and tissue-specific alternative RNA splicing

The Pem gene encodes an atypical homeodomain protein, distantly related to Prd/Pax family members, that we demonstrate is regulated in a complex transcriptional and post-transcriptional manner. We show that the rat Pem genomic structure includes three 5'-untranslated (5'-UT) exons and four coding exons, three of which encode the homeodomain. Several alternatively spliced transcripts were identified, including one that skips an internal coding exon, enabling this mRNA to express a novel form of the Pem protein. Other alternatively spliced mRNAs were characterized that possess different 5'-UT regions, including a muscle-specific transcript. The different 5'-UT termini present in Pem transcripts conferred different levels of translatability in vitro. Two promoters containing multiple transcription initiation sites were identified: a distal promoter (Pd) in the first 5'-UT exon and a proximal promoter (Pp) located in the "intron" upstream of the first coding exon. The Pd was active in placenta, ovary, tumor cell lines, and to a lesser extent in skeletal muscle. In contrast, transcripts from the Pp were only detectable in testis and epididymis and were only expressed in epididymis in the presence of testosterone. To our knowledge no transcription factors have previously been identified that exhibit androgen-dependent expression in the epididymis.

A cell- and developmental stage-specific promoter drives the expression of a truncated c-kit protein during mouse spermatid elongation

In the postnatal testis, the c-kit transmembrane tyrosine-kinase receptor is expressed in type A spermatogonia, and its transcription ceases at the meiotic phase of spermatogenesis. Alternative, shorter c-kit transcripts are expressed in post-meiotic germ cells. These transcripts should encode a truncated version of the c-kit protein, lacking the extracellular, the transmembrane and part of the intracellular tyrosine-kinase domains. The 5′ end of the alternative c-kit transcripts maps within an intron of the mouse c-kit gene. We now show that this intron contains a promoter active in nuclear extracts of round spermatids, and that two discrete sequences upstream of the transcriptional start site bind spermatid-specific nuclear factors. Deletion of both these sequences abolishes activity of the promoter in vitro. We have also established that this promoter is functional in vivo, in a tissue-and cell-specific fashion, since intronic sequences drive the expression of the E. coli lacZ reporter gene in transgenic mice specifically in the testis. Transgene expression is confined to haploid germ cells of seminiferous tubules, starting from spermatids at step 9, and disappearing at step 13, indicating that cryptic promoter within the 16th intron of the mouse c-kit gene is active in a short temporal window at the end of the transcriptional phase of spermiogenesis. In agreement with these data, western blot experiments using an antibody directed against the carboxy-terminal portion of the mouse c-kit protein showed that a polypeptide, of the size predicted by the open reading frame of the spermatid-specific c-kit cDNA, accumulates in the latest stages of spermatogenesis and in epididymal spermatozoa. An immunoreactive protein of the same size can be produced in both eukaryotic and prokaryotic artificial expression systems.

Homeobox genes and male reproductive development

PURPOSE

Homeobox genes encode transcription factors that dictate developmental events in philogenetically diverse organisms. In comparison to what is known about their role in embryogenesis, we know very little concerning homeobox gene function in neonates or adults. In this communication, we review studies that address the possible role of homeobox genes in male reproductive development, a system active in neonate and adult animals.

METHODS

Studies have shown that many homeobox genes are expressed in germ cells of the testis, while less is known about the identity of homeobox genes expressed in somatic cells of the testis or epididymis. Hox homeobox genes display a pattern of expression in testis that is dependent on their paralogous and orthologous position within the Hox gene chromosome clusters. Other homeobox genes are expressed in the male reproductive system, including many POU and Prd/Pax homeobox gene family members. More recently, it has been shown that the orphan homeobox gene, Pem, originally isolated by subtraction hybridization on the basis of its differential expression in tumor cell lines, is selectively expressed in reproductive tissue. Alternatively spliced Pem transcripts accumulate in testis and epididymis that differ from those expressed in tumors and placenta. Pem transcripts accumulate postnatally in the epididymis in a developmentally regulated manner.

CONCLUSIONS

The highly regulated pattern of expression exhibited by many homeobox genes in the male reproductive system suggests that homeobox transcription factors may dictate developmental events in this system. However, future studies are needed to determine the specific functional roles homeobox genes in male reproductive development and spermatogenesis.

A 252 bp upstream region of the rat spermatocyte-specific hst70 gene is sufficient to promote expression of the hst70-CAT hybrid gene in testis and brain of transgenic mice

The rat hst70 gene belongs to a heat shock hsp70 multigene family and its expression has been detected so far solely in spermatocytes. To investigate the cis-elements responsible for testis-specific expression of the hst70 gene we produced several lines of transgenic mice carrying fragments of the 5'-flanking regions of the hst70 gene fused to the chloramphenicol acetyltransferase (CAT) reporter gene. Hybrid genes of series B were constructed such that, besides the 780 bp, 343 bp and 163 bp 5'-flanking region these plasmids contained no other sequences of the hst70 gene. In hybrid genes of series D the CAT gene was ligated to 343 bp and 252 bp 5'-flanking regions together with the 57 bp of the 5'-end nontranslated (leader) sequences of the hst70 gene. We found that in 780/B, 343/B, 343/D and 252/D adult mice the transgene was specifically and highly expressed in testes. In developing testes the high CAT activity appeared in transgenic mice aged 3 weeks and older. None of the three 163/B transgenic lines exhibited CAT activity in any tissue analyzed. In all CAT expressing lines a weak but significant CAT activity (up to 5% of that in testis) was detected also in the brain. RNase protection assay confirmed that the endogenous hst70 gene transcripts are present in testis as well as in brain of nontransgenic rats and mice. Our data show that the cis-regulatory sequences responsible for testis-specific and developmentally regulated expression of the hst70 gene are localized within the 252 bp region 5' to the gene and neither the 5'-end nor 3'-end nontranslated sequences of the gene are important for this specificity.

Characterization of a novel spermatogenic cell antigen specific for early stages of germ cells in mouse testis

To study the mechanism of spermatogenesis during the premeiotic phase, a hybridoma producing monoclonal antibody (mAb) specific for early stages of spermatogenic cells was obtained. In immunohistochemical staining of adult testis, this mAb, designated as EE2, was able to react with type A to B spermatogonia and early meiotic cells, but not with Sertoli cells, Leydig cells, and other somatic tissues. Precursor cells of type A spermatogonia (gonocytes) were also positive for EE2 in perinatal mouse testis. The antigenic molecule recognized by mAb EE2 was a novel glycoprotein with molecular weight of 114 kDa, which had affinity with Con A and WGA lectins, and was susceptible to N-glycanase, suggesting the presence of asparagine-linked sugar chains. Furthermore, EE2 antigen was found to localize on the germ cell surface. The specific expression of this antigenic molecule suggests that it may play an important role in early spermatogenesis, of which only a little information is available at present.

Expression of the mouse and rat mas proto-oncogene in the brain and peripheral tissues

We isolated the mas proto-oncogene from a mouse genomic library. Sequence analysis showed that it contains an open reading frame without intervening sequences. The amino acid sequence deduced confirms the seven-transmembrane-domain structure and exhibits 97% and 91% amino acid homology with the rat and the human Mas, respectively. In mice and rats, mas mRNA was detected in the testis, kidney, heart, and in the brain regions: hippocampus, forebrain, piriform cortex, and olfactory bulb. Testicular mas mRNA from rats increases markedly during development, while cerebellar mRNA is high postnatally but completely disappears at later stages. We conclude that the product of the mouse mas gene may be involved in the development of the brain and testis.

Association of the regulatory subunit of a type II cAMP-dependent protein kinase and its binding proteins with the fibrous sheath of rat sperm flagellum

Demembranated rat sperm flagellar polypeptides capable of binding the regulatory subunit (RII) of a type II cAMP-dependent protein kinase, having apparent subunit molecular masses of 120, 80 and 57 kDa were identified by an RII overlay procedure [Horowitz, J. A., Wasco, W., Leiser, M. & Orr, G. A. (1988) J. Biol. Chem. 263, 2098-2104]. In this study it is shown that all three polypeptides capable of binding RII on a solid-phase blot are tightly associated with the fibrous sheath. Purified fibrous sheath preparations were capable of binding (a) [3H]cAMP and (b) purified catalytic subunits of cAMP-dependent protein kinase forming a functional holoenzyme. The 57-kDa protein was identified as RII by photoaffinity labeling with 8-azido[32P]cAMP. This peptide was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase. RII alpha was also shown to form tight, specific complexes with the fibrous sheath demonstrating the presence of functional RII alpha-binding sites. Truncated RII beta fusion proteins were used to identify the N-terminal amino acids at positions 1-50 as a primary determinant for RII-binding protein interaction. Differential extraction of adult testis with buffers containing Triton X-100, urea and sodium dodecyl sulfate revealed the presence of 80-kDa (major) and 120-kDa (minor) RII-binding proteins in particulate extracts. The 80-kDa polypeptide is only expressed at late stages of spermatogenesis, i.e. during spermiogenesis, suggesting a developmental role for RII anchoring to the sperm flagellar fibrous sheath.

Embryonic growth and the evolution of the mammalian Y chromosome. I. The Y as an attractor for selfish growth factors

The fitness of a mammalian zygote is affected by its probability of implantation and of postimplantation maintenance as well as the level of transplacental and transmammary uptake of resources. As with paternally expressed imprinted genes, in a species in which females are not obligately monogamous, a Y-linked sequence that can positively alter any of the above parameters could spread in a population even if it harms the prospects of other embryos. Such a selfish Y-linked gene could act as a sex ratio distorter. In contrast to autosomal imprinted loci, the patrilineal inheritance of the Y ensures that selfish Y-linked growth-promoting genes need not evolve a means to ensure correct parent-dependent expression rules. Thus, as the conditions for both their initial evolution and spread are relatively relaxed, the mammalian Y chromosome is expected to be an attractor for growth-promoting genes. Data from mice and humans indicate that, as expected and in contrast to the Y of flies, the mammalian Y harbours growth factors, sex ratio factors and multiple foetally expressed genes. The accumulation of Y-linked genes may also be explained in terms of sexual antagonism. Sexual antagonism and the model presented here are not mutually exclusive.

The silencer of mouse Pgk-2 consists of two discrete DNA elements that individually have no effect

Pgk-2 encodes a testis-specific phosphoglycerate kinase isozyme (PGK), and the expression of mouse Pgk-2 is activated during the spermatogenic pathway at the pachytene spermatocyte stage. We previously reported the identification of a silencer-like cis-acting element in a region between nucleotides (nt) -1404 and -685 of mouse Pgk-2, which could be responsible for the repression of Pgk-2 expression in somatic tissues and pre-meiotic testicular germ cells. In the present study, the silencer was precisely located within an 87-bp region between nt -882 and -796. This region contained two distinct sequences that individually bound factors present in nuclear extracts of mouse cultured cells and rat tissues. The two sequences, when aligned in tandem upstream from the Pgk-2 promoter, inhibited cat expression driven by the promoter in mouse erythroleukemia cells, whereas either sequence alone did not show any effect. The results indicate that the Pgk-2 silencer consists of two distinct DNA elements which do not individually influence promoter activity. Binding of distinct nuclear factors to each DNA element appeared to be required for the silencer action.

Characterization of a testis specific protein localized to endoplasmic reticulum of spermatogenic cells

BACKGROUND

In order to understand the mechanism of spermiogenesis, it is important to characterize germ cell specific genes and proteins expressed during spermatogenesis. We previously reported that a mouse monoclonal antibody, 1C9, raised against golden hamster testis homogenate, recognized a 103 kDa protein in hamster spermatogenic cells (Ohsako et al.; J. Vet. Med. Sci., 53:969-974, 1991). In the present study, we have determined the precise stage and intracellular localization of this protein.

MATERIALS AND METHODS

Hamster, mouse, and rat tissues were used for immunocytochemistry, SDS-PAGE, and immunoblotting. Immunoelectron microscopy was performed using Lowicryl K4M embedded hamster testis and colloidal gold conjugated second antibody. Furthermore, immuno-affinity purification was carried out using a 1C9-Sepharose column.

RESULTS

In immunoblot analysis, 1C9 also recognized a 103 kDa protein and a 101 kDa protein in the rat and the mouse testes, respectively. Ten different hamster tissues other than testis did not show reactivity against 1C9. In immunostained paraffin sections of hamster testis, the initial staining appeared in middle pachytene spermatocytes and persisted until maturation phase spermatids (step 15). However, it was no longer detectable in the subsequent steps of spermatids. In addition, strong staining was observed in the post-nuclear region of elongated spermatids. Immunoelectron microscopic analysis showed that the protein was localized to the endoplasmic reticulum (ER) and nuclear envelope of spermatogenic cells, but not in the other organelles, such as Golgi apparatus and acrosome of the spermatids. This protein appears to be associated with ER membrane. Furthermore, this protein is found exclusively in the testicular microsomal fraction, not in the cytosol. By affinity purification, approximately 320 micrograms of the 103 kDa protein was obtained from 10 hamster testes. The purified 103 kDa protein was unaffected by N-glycanase, indicating it does not have asparagine-linked glycoconjugates.

CONCLUSIONS

These results indicate that the protein recognized by 1C9 appears to be a unique protein that is localized in the ER and nuclear envelope of spermatogenic cells.

Changes in protooncogene expression correlated with general and sex-specific differentiation in murine primordial germ cells

Primordial germ cells (PGCs) of the mouse undergo key developmental transitions during embryonic days 12-15. On day 12 they complete migration into the gonads. They cease mitotic proliferation on day 13 and subsequently enter sex-specific pathways of development. The molecular mechanisms controlling these transitions are poorly understood, yet they are crucial to production of normal gametes later in life. We have used the polymerase chain reaction (PCR) to directly compare levels of expression of several protooncogenes proposed to be involved in control of cell proliferation and differentiation in proliferating and differentiating PCGs of both sexes over a 4 day time course. We report here that mRNA levels for nuclear protooncogenes c-myc, c-fos, and c-jun increase dramatically in both sexes from little or no detectable expression on day 12 to high expression on days 13-15. We observe c-kit message on day 12 in combined PGCs of both sexes, in female but not male PGCs on day 13, and in both sexes on day 14, c-kit mRNA is undetectable on day 15 in either sex, c-mos is not expressed at detectable levels on day 12 in either sex, but increases gradually in female PGCs to very high levels on day 15. In male PGCs, c-mos is expressed at high levels on days 13-15. Our results are consistent with a role for protooncogenes c-myc, c-fos and c-jun in mediating the initial differentiation of PGCs of both sexes that occurs upon colonization of the gonad. Because c-kit and c-mos are expressed differentially in male and female day 13-15 germ cells, they may play roles in initiating or mediating progress along the sex-specific pathways of development that PGCs embark upon at this time.

Circular transcripts of the testis-determining gene Sry in adult mouse testis

Sry is expressed at higher levels in the adult testis, where no function has been determined, than in the genital ridge, its critical site of action. cDNA and 5' RACE clones isolated from testis or from Sry-transfected cell lines have an unusual structure, with 3' sequences located in a 5' position. RNAase protection assays and reverse transcription polymerase chain reactions confirmed that these unusual RNA molecules represent the most abundant transcript in testis. Furthermore, oligonucleotide hybridization and RNAase H digestion proved that these Sry RNA molecules are circular. Similar transcripts were detected in the testes of mice with Mus musculus musculus, Mus musculus domesticus, and Mus spretus Sry genes. The circular RNA is found in the cytoplasm but is not substantially bound to polysomes. We suggest that the circles arise from normal splicing processes as a consequence of the unusual genomic structure surrounding the Sry locus in the mouse.

Analysis of the mouse protamine 1 promoter in transgenic mice

Protamines are small arginine-rich proteins that package DNA in spermatozoa. The mouse protamine 1 (Prm-1) gene is transcribed exclusively in post-meiotic spermatids. To identify elements in the Prm-1 promoter required for spermatid-specific transcription, we generated transgenic mice by microinjection of transgenes containing Prm-1 5' flanking sequences with 5' truncations or internal deletions of conserved sequences linked to a marked Prm-1 gene. We also tested Prm-1 promoter regions with a heterologous human growth hormone reporter gene. We conclude that a 113-bp region can direct spermatid-specific transcription and we have defined sequences within this region that are essential for proper function. These results will facilitate the isolation and characterization of transcription factors essential for post-meiotic gene expression.

A factor stimulating transcription of the testis-specific Pgk-2 gene recognizes a sequence similar to the binding site for a transcription inhibitor of the somatic-type Pgk-1 gene

The glycolytic enzyme phosphoglycerate kinase (PGK) consists of two isozymes, somatic-type PGK-1 and testis-specific PGK-2. The isozyme switch from PGK-1 to PGK-2 occurs during spermatogenesis at the mRNA level. The distal upstream region of the gene encoding mouse PGK-2 (Pgk-2) possesses a silencer-like negative cis element. In the present study, a positive cis element located in the proximal upstream region and factor(s) bound to it were analyzed in vitro. Cell-free transcription using nuclear extracts of rat organs demonstrated that the region between nucleotide positions -82 and -64, relative to the most distal transcription initiation site at +1, stimulates transcription in testis extracts. The cis element did not act on the promoter of the thymidine kinase gene, suggesting that it stimulates Pgk-2 transcription in a promoter-specific manner. The cis element bound a nuclear factor(s), which we designated TAP-1. Introducing various base substitutions within the cis element revealed that TAP-1-binding to the element requires the sequence 5'-GGAA-3', which is the binding motif for Ets oncoproteins. We previously reported that TIN-1, a transcription inhibitor of Pgk-1, binds to a sequence similar to the Ets-binding site. The addition of an oligo DNA containing the TIN-1-binding sequence of Pgk-1 prevented TAP-1 from binding to the Pgk-2 cis element, and vice versa. These results suggest that both TIN-1 and TAP-1, which are presumably involved in transcription regulation of the two Pgk genes, recognize DNA sequences related to the Ets-binding motif.

High-level expression in male germ cells of murine P68 RNA helicase mRNA

The complete cDNA coding for mouse P68 RNA helicase was cloned and its nucleotide sequence was determined. The sequence is about 95% identical to the human equivalent. Whereas the 5'-untranslated region is less conserved (71%), the 3'-ends of mouse and human mRNAs are nearly identical. Between stop codon and poly(A)-tail both sequences are 97% conserved. At the level of amino acid sequence, the similarity of both, mouse and human, DEAD box family proteins is as high as 98%. In situ hybridizations using cDNA subfragments as probes revealed a testis-selective expression of P68 RNA helicase mRNA. The signal was restricted to late pachytene spermatocytes and haploid spermatids. Northern blot analyses corroborated these results but suggested that expression of related mRNA species occurs in a variety of other tissues.

The ubiquitous transactivator Zfp-38 is upregulated during spermatogenesis with differential transcription

We describe the complete nucleotide sequence of a full length cDNA clone encoding a new mouse zinc finger protein gene, Zfp-38 and localize it on chromosome 5 by the interspecific backcross analysis. The N-terminal domain of the Zfp-38 protein (64 kDa) contains 358 amino acids and the C-terminal domain of 197 residues encodes 7 zinc fingers. We also present evidence that Zfp-38 is a strong transcriptional activator. The transactivation domain was localized in the non finger region and a fusion protein containing 112 amino acid residues from this region of the Zfp-38 and the DNA binding domain of the yeast Gal 4 protein, very efficiently transactivated the expression of a reporter CAT plasmid, harboring the Gal4 target site. By in situ hybridization and northern blotting technique, the Zfp-38 transcript can be detected at a highly elevated level during spermatogenesis. Its expression accompanies the progression from pachytene spermatocytes to round spermatids. The undifferentiated spermatogonia or the haploid elongated spermatid and the spermatozoa do not show any detectable level of the transcript. Interestingly, other tissues express low levels of a slightly shorter transcript with a different 5' end as determined by RNase protection. The presence of both a transcriptional activating domain and 7 DNA binding zinc fingers, coupled with the cell type(s) specific expression pattern, suggests that Zfp-38 has the potential to regulate transcription during spermatogenesis.

Allelic deletions in the long arm of chromosome 12 identify sites of candidate tumor suppressor genes in male germ cell tumors

Human male germ cell tumors (GCTs) result from malignant transformation of premeiotic or early meiotic germ cells and exhibit embryonal-like differentiation of the three germinal layers. The genetic basis of origin and expression of differentiated phenotypes by GCTs are poorly understood. Our recent cytogenetic analysis of a large series of GCTs has shown that two chromosome 12 abnormalities, an isochromosome for the short arm [i(12p)] and deletions in the long arm [del(12q)], characterize these tumors, which led us to suggest that the deletions represent loss of one or more candidate tumor suppressor genes whose products regulate the normal proliferation of the spermatogonial stem cells. We undertook a molecular mapping of the deletions by comparing germ-line and tumor genotypes of eight polymorphic loci in paired normal/tumor DNA samples from 45 GCT patients. Analysis of loss of constitutional heterozygosity at these loci revealed two regions of frequent loss (> 40%), one at 12q13 and the other at 12q22, identifying the sites of the postulated tumor suppressor genes. One tumor (no. 143A) exhibited a homozygous deletion of a region of 12q22, which included the MGF gene. The KIT and MGF genes have been shown to play key roles in embryonal and postnatal development of germ cells; therefore, we evaluated their expression by Northern blot analysis in a panel of three GCT cell lines and 24 fresh GCT biopsies. Deregulated expression of MGF and KIT, which was discordant between seminomatous and nonseminomatous lesions, was observed.

Analysis of the expression of a large number of novel genes isolated from mouse prepubertal testis

The analysis of genes expressed in a restricted temporal and spatial manner during spermatogenesis has given insights into different gene-regulatory mechanisms active in germ cells. However, very few genes have so far been described that are predominantly active in spermatogonia and the early meiotic cell types of testis. To isolate a battery of such genes, more than 100 different mRNA molecules were isolated from a mouse prepubertal testicular cDNA library, and their expression patterns in different tissues analyzed. Thirty mRNAs, 26 of them previously not described in the literature, were found to be predominantly expressed in mouse testis. A detailed analysis of their expression patterns identified a number of mRNA molecules differentially expressed in testicular cell types, including both germ cells and somatic cell types. Characterization of these mRNAs also revealed five distinct temporal phases of gene expression during prepubertal germ cell development. Three different genes, mainly active in the spermatogonial and the early meiotic cell types of testis, were isolated and will be used to characterize further stage-specific gene expression during germ cell differentiation.

A silencer-like cis element for the testis-specific phosphoglycerate-kinase-2-encoding gene

Phosphoglycerate kinase (PGK), a glycolytic enzyme, possesses two isozymes: somatic-type PGK-1 and testis-specific PGK-2, encoded by distinct genes. Tissue-specific expression of the two PGK-encoding genes (Pgk) seems to be transcriptionally controlled, since tissue distribution of the mRNAs coincides well with that of the proteins. In the present study, we determined the cis-acting DNA elements that regulate the transcription of mouse Pgk-2. A transient expression assay of DNAs having various portions of the Pgk-2 upstream region linked to the chloramphenicol acetyltransferase (CAT)-encoding gene (cat) was performed using mouse cell lines that exclusively express Pgk-1. A substantial increase in cat expression was observed when the region between nucleotides (nt) -1404 and -685, relative to the most distal transcription start point at nt +1, was lost. This cis-acting region appeared to function as a silencer, since it repressed cat expression independently of either orientation to or distance from the Pgk-2 promoter. Moreover, the cis element inhibited Pgk-2 transcription with no effect on Pgk-1 transcription in a cell-free system using nuclear extracts of rat liver. These results suggest that a silencer-like negative cis element is responsible, at least partly, for tissue-specific transcription of Pgk-2.

A novel c-kit transcript, potentially encoding a truncated receptor, originates within a kit gene intron in mouse spermatids

We have cloned a novel c-kit mRNA of 3.2 kb expressed in postmeiotic male germ cells. This transcript initiates in the genomic region immediately upstream of the exon coding for the second box of the split c-kit tyrosine kinase domain. The open reading frame (ORF) contains 12 novel amino acids in frame with the C-terminal 190 amino acids of the c-kit protein. It lacks therefore the upstream region in the 5.5-kb c-kit mRNA encoding the extracellular and transmembrane domain, the ATP-binding site and the kinase insert domain present in the c-kit protein.

Specific distribution of an epididymal 50 kDa protein revealed by an anti-Mos protein monoclonal antibody

An anti-Mos protein monoclonal antibody, 4A6, was used to investigate the distribution of the antigen in the epididymis, in which the c-mos gene is reportedly expressed. The 4A6-reactive antigen was found on the basement membrane and luminal surface of the epithelial cells in the caput epididymis of BALB/c male mice as well as in the proximal corpus epididymis, the cauda epididymis, and the vas deferens. The 4A6 antigen was also found on the luminal surface of the epithelial cells in the epididymis of male germ cell-deficient C57BL/6J-Wv/Wv mice. This confirmed that the 4A6 antigen does not derive entirely from the testicular c-Mos protein but is synthesized in the epididymis. Western blot analysis revealed that the molecular weight of the epididymal 4A6 antigen was 50 kDa, which is unusually high for the c-Mos protein. With its specific distribution in the epididymis, the protein should play a specific role in functions of the epididymis.

Characterization by enriched polyclonal antibodies of developmentally regulated and cell type specific mouse testis antigens

Polyclonal antisera directed against testicular proteins were characterized by immunocytochemistry and Western blot analysis. Antibodies binding to testis-specific, developmentally regulated protein bands were eluted from their antigens and used for further characterization of the developmental profile and cell type-specific expression of two antigens, PSM33 and NNA75. While PSM33 was found to be present in spermatocytes from the late pachytene stage on, NNA75 could be localized in neonatal interstitial cells. NNA75 expression ceases by to postnatal day ten, when first meiosis starts within the seminiferous tubules, thus suggesting an interactive role of Leydig cells during the onset of meiotic divisions.

junD mRNA expression differs from c-jun and junB mRNA expression during male germinal cell differentiation

The members of the jun family of protooncogenes (junB, c-jun, and junD) share a high degree of sequence homology and function as transcriptional regulators. Here we compare the pattern of junD mRNA expression during spermatogenesis to that of junB and c-jun (Alcivar et al.: J Biol Chem 265:20160-20165, 1990). junD transcripts are present at high levels in total RNA obtained from both prepuberal and adult intact testes, with the highest levels at stages containing predominantly premeiotic and postmeiotic germ cells. Analyses of cells isolated from testes of 8-day-old mice indicate that the level of the 1.8 kb junD mRNA is higher in type B spermatogonia than in type A spermatogonia. In testes of 17-day-old mice, the highest junD mRNA levels are detected in preleptotene spermatocytes compared to leptotene/zygotene and prepuberal pachytene spermatocytes. In cells from adult testes, the junD mRNA levels are higher in postmeiotic round spermatids and residual bodies/cytoplasts than in meiotic pachytene spermatocytes. An additional junD transcript of about 1.6 kb is detected in postmeiotic cells. Analyses of polysomal and nonpolysomal RNAs prepared from isolated testicular cells indicate that in early meiotic cell types the junD transcript is more efficiently loaded onto polysomes than in later cell types. In summary, the pattern of expression of junD differs from that of junB and c-jun during spermatogenesis most notably in that 1) junD mRNA levels do not increase following dissociation of testicular cells and 2) in contrast to the nearly undetectable levels of junB and c-jun mRNAs in adult postmeiotic testicular cells, high levels of junD mRNAs are seen.(ABSTRACT TRUNCATED AT 250 WORDS)

Analysis of a murine male germ cell-specific transcript that encodes a putative zinc finger protein

A cDNA species, corresponding to a gene with testis-specific expression (TSGA), was isolated from a testis cDNA library. The temporal and spatial expression of TSGA was studied by in situ hybridization as well as RNA filter hybridization. In tissue sections, the TSGA sequence was confined to cells within the seminiferous tubules. For filter hybridization, RNA was isolated from testis of prepubertal rats of different ages as well as from enriched populations of various germ cell types. It was found that TSGA is expressed only in male germ cells and that the steady-state level of TSGA transcripts reaches a maximum during the meiotic and the postmeiotic stages of germ cell development, suggesting a meiotic or postmeiotic function for the encoded protein. TSGA encodes a putative protein having 1,214 amino acids and contains a zinc finger, a structure that previously has been shown to mediate binding to nucleic acids.

Expression of the Wilms' tumor gene WT1 in the murine urogenital system

The Wilms' tumor gene WT1 is a recessive oncogene that encodes a putative transcription factor implicated in nephrogenesis during kidney development. In this report we analyze expression of WT1 in the murine urogenital system. WT1 is expressed in non-germ-cell components of the testis and ovaries in both young and adult mice. In situ mRNA hybridization studies demonstrate that WT1 is expressed in the granulosa and epithelial cells of ovaries, the Sertoli cells of the testis, and in the uterine wall. In addition to the 3.1-kb WT1 transcript detected by Northern blotting of RNA from kidney, uterus, and gonads, there is an approximately 2.5-kb WT1-related mRNA species in testis. The levels of WT1 mRNA in the gonads are among the highest observed, surpassing amounts detected in the embryonic kidney. During development, these levels are differentially regulated, depending on the sexual differentiation of the gonad. Expression of WT1 mRNA in the female reproductive system does not fluctuate significantly from days 4 to 40 postpartum. In contrast, WT1 mRNA levels in the tesis increase steadily after birth, reaching their highest expression levels at day 8 postpartum and decreasing slightly as the animal matures. Expression of WT1 in the gonads is detectable as early as 12.5 days postcoitum (p.c.). As an initial step toward exploring the tissue-specific expression of WT1, DNA elements upstream of WT1 were cloned and sequenced. Three putative transcription initiation sites, utilized in testis, ovaries, and uterus, were mapped by S1 nuclease protection assays. The sequences surrounding these sites have a high G + C content, and typical upstream CCAAT and TATAA boxes are not present. These studies allowed us to identify the translation initiation site for WT1 protein synthesis. We have also used an epitope-tagging protocol to demonstrate that WT1 is a nuclear protein, consistent with its role as a transcription factor. Our results demonstrate regulation of WT1 expression during development of the gonads, implicate WT1 in genitourinary development, and provide a molecular framework toward understanding genitourinary defects observed among hereditary cases of Wilms' tumor.

Transcription inhibition of the somatic-type phosphoglycerate kinase 1 gene in vitro by a testis-specific factor that recognizes a sequence similar to the binding site for Ets oncoproteins

To elucidate the mechanism by which transcription of the somatic-type phosphoglycerate kinase 1 gene is inactivated during mammalian spermatogenesis, we examined the presence of specific transcription inhibitor(s) in the testis by a cell-free transcription system. Transcription of the mouse phosphoglycerate kinase 1 gene using nuclear extracts of the rat liver was significantly inhibited by the addition of testis extracts, whereas brain extracts had little effect. Transcription inhibition required the binding of a testis-specific factor, designated TIN-1, to the region between positions -268 and -259 relative to transcription initiation site at +1. This region had the sequence 5'-AGGAAGTTCC-3' that includes an inverted repeat of the binding motif, 5'-GGAA-3', for the oncoprotein Ets. A UV-crosslinking experiment revealed that 43- and 45-kDa polypeptides present in testis extracts bind to that sequence. These results suggest that a testis-specific transcription inhibitor TIN-1 inactivates the phosphoglycerate kinase 1 gene in the mammalian spermatogenic pathway.

Novel zinc finger gene implicated as myc collaborator by retrovirally accelerated lymphomagenesis in E mu-myc transgenic mice

To search for genes that can collaborate with myc in lymphomagenesis, we exploited retroviral insertional mutagenesis in E mu-myc transgenic mice. Moloney murine leukemia virus accelerated development of B lymphoid tumors. Three quarters contained a provirus within the known pim-1 or pim-2 loci, new loci bmi-1 and emi-1, or combinations of these. bmi-1 insertions predominated, occurring in half the tumors, and resulted in elevated bmi-1 mRNA levels. Significantly, the bmi-1 gene, which is expressed in diverse normal cells, encodes a Cys/His metal-binding motif (C3HC4) that resembles those in several DNA-binding proteins and defines a new category of zinc finger gene. Thus, myc-induced lymphomagenesis can entail the concerted action of several genes, including the presumptive nuclear regulator bmi-1.

Expression of the mRNA for the ligand of c-kit in mouse Sertoli cells

The expression of the mRNA for SLF (the c-kit ligand), a product of the "steel" locus, has been investigated in postnatal mouse testis and homogeneous populations of testicular cells. The message was found expressed in postnatal mouse testis but not in germ cells. Studies on primary mouse Sertoli cell cultures from 18 day old mice show that Sertoli cells are the site of SLF mRNA expression in the seminiferous tubules. Treatment of Sertoli cell cultures with cAMP analogs led to a significant increase in the SLF mRNA levels.

Dissection of the mouse N-ras gene upstream regulatory sequences and identification of the promoter and a negative regulatory element

The 5' flanking region of the mouse N-ras gene was investigated to determine the elements governing transcriptional activity of the gene. The promoter did not contain typical TATA or CCAAT boxes, and according to primer extension and RNase protection analyses, transcription started at several sites. These assays also confirmed the short nucleotide distance interposed between the N-ras transcription unit and the previously described upstream unr gene. Chromatin studies performed by digestion of nuclei with DNase I revealed the presence of four hypersensitive sites: a, b, c, and d. Deletion mutagenesis of the 5' flanking region revealed sequences responsible for both promotion and inhibition of transcription. These sequences resided within 230 bp upstream of the transcription initiation site. Hypersensitive site b colocalized with the 76-bp segment with promoter activity. The negative regulatory element at position -180 colocalized with hypersensitive site a, was active on the N-ras promoter in stable as well as transient assays, and down-regulated the heterologous herpes simplex virus thymidine kinase promoter. Footprint analysis and in vivo transfection-competition experiments indicated that a trans-acting factor is responsible for the negative effect on transcription. The interaction between the cis-acting negative regulatory element and the promoter region may play a role in the tissue- and developmental-stage-specific patterns of expression of the N-ras gene.

Dissection of the mouse N-ras gene upstream regulatory sequences and identification of the promoter and a negative regulatory element

The 5' flanking region of the mouse N-ras gene was investigated to determine the elements governing transcriptional activity of the gene. The promoter did not contain typical TATA or CCAAT boxes, and according to primer extension and RNase protection analyses, transcription started at several sites. These assays also confirmed the short nucleotide distance interposed between the N-ras transcription unit and the previously described upstream unr gene. Chromatin studies performed by digestion of nuclei with DNase I revealed the presence of four hypersensitive sites: a, b, c, and d. Deletion mutagenesis of the 5' flanking region revealed sequences responsible for both promotion and inhibition of transcription. These sequences resided within 230 bp upstream of the transcription initiation site. Hypersensitive site b colocalized with the 76-bp segment with promoter activity. The negative regulatory element at position -180 colocalized with hypersensitive site a, was active on the N-ras promoter in stable as well as transient assays, and down-regulated the heterologous herpes simplex virus thymidine kinase promoter. Footprint analysis and in vivo transfection-competition experiments indicated that a trans-acting factor is responsible for the negative effect on transcription. The interaction between the cis-acting negative regulatory element and the promoter region may play a role in the tissue- and developmental-stage-specific patterns of expression of the N-ras gene.

Effect of busulphan treatment and elevated temperature on the expression of the beta-pol gene in rat testis

Changes in the expression pattern of the DNA polymerase beta gene during inhibition of spermatogenesis by busulphan and by temperature (artificial cryptorchidism) have been studied. Transient arrest of spermatogenesis in two-month-old rats after injection of a single dose of busulphan (10 mg/kg) resulted in parallel but transient decrease in the 1.4 kb of beta-pol mRNA level to an undetectable value, followed by its reappearance after resumption of spermatogenesis. An artificial cryptorchidism also caused a drastic decrease of beta-pol mRNA level. Both results as well as morphological examination of testis after busulphan injection and artificial cryptorchidism revealed that spermatocytes and spermatids represent the testicular cell fraction containing the elevated amount of beta-pol mRNA. Involvement of DNA polymerase beta in meiotic recombination is discussed.

A relative of the catalytic subunit of cyclic AMP-dependent protein kinase in Aplysia spermatozoa

Transcripts encoding CAPL-B, an apparent member of the cyclic-nucleotide-regulated kinase subfamily in Aplysia californica, are found exclusively in the ovotestis and are concentrated in meiotic and postmeiotic spermatogenic cells. The CAPL-B polypeptide is present in mature spermatozoa, suggesting that the kinase plays a part in regulating events associated with fertilization.