Takako Kato

Molecular cloning of c-jun and c-fos cDNAs from porcine anterior pituitary and their involvement in gonadotropin-releasing hormone stimulation

The presence of the typical transcription factors c-Jun, c-Fos and cAMP-responsive element (CRE)-binding protein in the porcine anterior pituitary was examined by molecular cloning and their involvement in the membrane signal cascade, especially their roles in gonadotropin-releasing hormone (GnRH) stimulation, were studied. Several cDNA clones were isolated from a porcine anterior pituitary cDNA library using cDNA probes. They were identified as porcine c-jun and c-fos by determining their nucleotide sequences, but a homologue for CREB341 which is a member of CRE-binding protein was not detected in porcine anterior pituitary. Reverse transcription-polymerase chain reaction (RT-PCR) analysis was performed to estimate the c-jun and c-fos mRNA contents in GnRH-, forskolin- (cAMP activator) and tetradecanoyl phorbol acetate- (TPA; protein kinase C activator) treated primary cultures of porcine anterior pituitary cells. Densitometric quantification demonstrated that GnRH and TPA treatment increased c-jun and c-fos mRNA levels significantly, whereas forskolin reduced the levels of both. Therefore, c-Jun and c-Fos are definitely present in porcine anterior pituitary and their mRNAs differentially involved in the signal transduction pathway mediated by two kinases. In particular, GnRH might regulate gonadotropin expression by increasing of c-jun and c-fos levels.

Porcine growth hormone: molecular cloning of cDNA and expression in bacterial and mammalian cells

Porcine growth hormone (PGH) precursor cDNAs were cloned from a pituitary cDNA library constructed in lambda gt11 by immunoscreening. One of the three clones characterized contained an entire nucleotide sequence for the 216-amino-acid precursor molecule. The deduced amino-acid sequence of PGH confirmed the sequence previously reported for that of the genomic DNA of PGH except for one base difference in the coding sequence. Expression of the full-length PGH cDNA was achieved in bacteria and mammalian cells. The mammalian cell line, COS-1, produced the GH molecule which processed the signal peptide and had the same molecular weight as standard PGH, in contrast to the higher molecular weight of the bacterial product. Radioimmunoassay of the recombinant PGH produced in COS-1 cells also revealed an inhibition curve similar to that of the standard PGH.

Multiple binding sites for nuclear proteins of the anterior pituitary are located in the 5′-flanking region of the porcine follicle-stimulating hormone (FSH) β-subunit gene

Gonadotropins, follicle-stimulating hormone (FSH), and luteinizing hormone (LH), are synthesized specifically in the gonadotropes of the anterior pituitary. The aim of this study was to investigate nuclear factors that bind specifically to the porcine FSH beta-subunit gene. We examined nuclear protein binding to 2.75 kilobase pairs (kbp) of DNA adjacent to the porcine FSH beta-subunit gene: about 2.32 kbp of upstream DNA and 0.43 kbp of downstream DNA. The upstream region contains only TATA box, CACCC element, and some imperfect sequences of cAMP-responsive element, activator protein-1 binding site, and activator protein-2 binding site. Gel mobility shift assay using nuclear proteins extracted from the porcine anterior pituitary revealed that the proteins bound to a limited region of DNA, 107 bp long (designated as Fd2), located about -800 bp upstream from the transcription initiation site. Competitive binding assays demonstrated that the protein binding was sequence specific; the addition of excess amounts of several putative regulatory sequences and plasmid (non-homologous) DNA fragments did not reduce the binding. Furthermore, all five subfragments of Fd2 were also bound by the pituitary nuclear proteins, showing that the entire region of Fd2 is involved in this interaction. Southwestern blotting demonstrated that at least seven protein species of 110, 98, 78, 63, 52, 42, and 35 kDa recognize Fd2. Nuclear proteins from several other porcine tissues were also able to bind to the Fd2 fragment but the gel shift patterns were different and the bindings were weak, although only the cerebellum showed a pattern of binding that was similar to that of the anterior pituitary. These data suggest that multiple proteins of the anterior pituitary recognize a specific region of the porcine FSH beta-subunit gene.

Baculovirus-insect cell production of bioactive porcine FSH

The in vitro and in vivo bioactivity of recombinant porcine FSH (rpFSH) produced from insect cells through use of a baculovirus expression system were studied and compared with those of natural FSH preparations. Determination of in vitro bioactivity, using the rat Sertoli cell aromatase bioassay, indicated that rpFSH is as active as purified pituitary FSH. Determination of in vivo bioactivity, using the mouse uterine weight bioassay, indicated that rpFSH is as active as purified pituitary FSH. Using the mouse Leydig cell testosterone bioassay, it was demonstrated that the intrinsic LH bioactivity of rpFSH is negligible. The increases in ovarian and uterine weight, and the stimulation in follicular growth in immature hypophysectomized rats induced by rpFSH supplemented with hCG were comparable to those induced by natural FSH preparations. Furthermore, rpFSH alone in hypophysectomized mice stimulated preantral follicular growth to preovulatory stages, and the subsequent injection of hCG caused ovulation. These results demonstrate that in vitro and in vivo biological characteristics of rpFSH produced from baculovirus-insect cells are indistinguishable from those of FSH isolated from natural sources.

Recombinant porcine follicle stimulating hormone produced in baculovirus-insect cells induces rat ovulation in vivo and gene expression of tissue plasminogen activator in vitro.

Superovulatory responses in cattle are known to be highly variable. In the present study, a recombinant porcine follicle stimulating hormone (rpFSH) produced in baculovirus-insect cells was utilised to evaluate the role of this recombinant FSH in control of the ovulatory process. Immature hypophysectomised rats were implanted with oestrogen pellet (10 mg diethylstilbestrol) and then primed with pregnant mare serum gonadotropin (PMSG, 17.5 IU, sc). Fifty-two hours later, 100 microg rpFSH or saline was injected (sc) to induce ovulation. All rats that received rpFSH ovulated with about eight ova rat(-1), whereas none of the control animals did. Ovulation induced by rpFSH was associated with an increase in the ovarian activity and message levels of tissue-type plasminogen activator (tPA), a protease important in the preovulatory degradation of the follicle wall. Furthermore, addition of rpFSH to the cultured rat granulosa cells resulted in a significant increase in tPA enzyme activity. These results demonstrate that rpFSH produced in baculovirus-insect cells has biological potency in ovulation as well as gene expression of tPA, providing a large advantage of this massive expression system in the reproduction of domestic animals.

Presence of the same transcript of pro-opiomelanocortin (POMC) genes in the porcine anterior and intermediate pituitary lobes

The existence of heterogeneous molecular species of pro-opiomelanocortin (POMC) has been reported and it has been inferred that this explains the distinct release patterns of POMC-derived peptide hormones by the anterior and intermediate lobes of the pituitary gland. The aim of this study was to determine the nucleotide sequences of porcine pituitary anterior and intermediate lobar POMC from animals of the same strain. The POMC cDNAs were obtained using immunoscreening (anterior lobe) and the polymerase chain reaction (intermediate lobe), and their nucleotide sequences determined. Comparisons of the coding and the 5-untranslated regions of the two POMCs demonstrated that their nucleotide sequences were identical and Northern blot analysis showed that both mRNAs were the same length. Therefore, the results of this study confirm that the same POMC transcript is present in both the anterior and intermediate pituitary lobes. The differences between the nucleotide and amino acid sequences of porcine POMC found hitherto may be attributable to strain differences. Comparisons of porcine and several vertebrate POMCs revealed highly conserved amino acid sequences in the regions corresponding to the peptide hormones, but the regions between them show considerable evolutionary divergence.

Presence of nuclear factors bound to both cAMP-responsive element and AP1 factor binding site in the porcine anterior pituitary

Factors binding to consensus sequences of the cAMP-responsive element (CRE) and the AP1 factor binding site (AP1) were investigated using porcine anterior pituitary nuclear extracts. Each element showed specific gel mobility shifts. By reciprocal competition for the AP1 and CRE binding, CRE prevented AP1 binding completely. On the other hand, AP1 decreased the CRE binding considerably to 20%, suggesting that approximately 80% of the total CRE binding is due to factors which bind to a common site shared by both CRE and AP1, whereas proteins binding to AP1 alone are absent. Relative binding affinities of AP1 against CRE estimated from the reciprocal competition data were 0.17 for CRE binding and 0.56 for AP1 binding. UV cross-linking experiments showed that CRE and AP1 gave different patterns consisting of different molecular size. Inconsistency of the relative binding affinities and the multiple molecular size of binding factors, cannot be explained simply by the presence of two types of binding factor, common CRE/AP1-binding and specific CRE-binding factors. A more likely explanation is that the CRE/AP1-binding factors alter the dimer form by changing each respective partner to bind CRE and/or AP1.

Ectopic Expression of Human Herpesvirus 1 Thymidine Kinase Induces Male Infertility

The herpesvirus family comprises several widespread infectious pathogens. They infect a variety of animal hosts, including humans and cause complex clinical outcomes. Recently, the possible correlation between genital infection by human herpesviruses (HHVs) and male infertility has attracted considerable attention. In this chaper, we investigated the mechanism of HHV‐1‐induced infertility in transgenic (Tg) rats and its possible correlation with infertility in human males. Ectopic expression of HHV‐1 thymidine kinase (TK) in the testis of Tg rats increased male infertility. In addition, truncated TK proteins were found in postmeiotic spermatids of Tg rat testis, leading to progressive degeneration of germ cells and vacuolization of the seminiferous epitheli‐ um. These findings suggest the possibility that a similar process occurs within HHV‐ infected human germ cells.

Increased Thermo-Stability of Rat Prolactin after Replacing Glutamic Acid at Position 118 by Lysine

Abstract We examined the structural stabilities after heat treatment of 22 mutants of rat prolactin (rPRL) with amino acid replacements at 15 different positions and recombinant wild-type rPRL (WT-PRL) as part of our series of studies on site-directed mutagenesis of rPRL. When WT-PRL at low concentrations (0.1 ∼ 10 ng/ ml) was heated at 100°C for 20 min, it lost its Nb2 proliferation activity, whereas at high concentrations (above 1 fig/ml), its activity remained. Temperature-dependent loss of the proliferation activity of 10 ng/ml WT-PRL after heat treatment for 5 min was observed. Next, we examined the proliferation activities of the 22 mutants heated at 60 and 70°C for 5 min. After treatment at 60°C, all the mutants retained their initial proliferation activities, whereas treatment at 70°C reduced their activities to about 63%, except for one in which glutamic acid at position 118 was replaced by lysine (E118K), suggesting that the mutations did not induce structural instability. The mutant E118K retained 84% of its initial activity after treatment at 70°C, significantly (P < 0.01) higher than the WT-PRL value. The temperature-dependency profile of the Nb2 proliferation activity of E118K also showed it had significantly increased thermo-stability. Meanwhile another mutant (E118Q) at the same residue showed no increased thermo-stability, suggesting that changing a negative charge (E) to a positive one (K) at position 118 induces ionic bond formation with a neighboring negative charge, resulting in thermostabilization of the structure of PRL.