Expression of GH, TSH beta, LH beta and FSH beta genes during fetal pituitary development in the pig

Molecular cloning of paired related homeobox 2 (prx2) as a novel pituitary transcription factor

This study aimed to identify protein(s) that bind(s) to the highly AT-rich sequence of porcine Fshb promoter region -852/-746 (named Fd2) by the Yeast One-Hybrid Cloning System and finally a paired related homeodomain transcription factor, Prx2, known as a key factor for skeletogenesis was cloned. RT-PCR analysis of fetal and postnatal porcine pituitaries demonstrated that Prx2 starts to be expressed at around fetal days 40-50 just before the beginning of Lhb-expression and that the level of Prx2 increases after birth. Immunohistochemical analysis of the prepubertal porcine pituitary revealed that some Prx2-positive cells overlap some Lh beta-positive cells. Transient transfection assay using non-pituitary CHO cells and pituitary tumor-derived LbetaT2 cells revealed that Prx2 plays a cell-type dependent role in modulation of the Fshb promoter, showing stimulation in CHO cells and repression in LbetaT2 cells via the regions of Fd2 and -596/-239. The binding ability of Prx2 to the regions of Fd2 and -596/-239 was confirmed by electrophoretic mobility shift assay. DNase I footprinting revealed that broad regions of Fd2 were bound by Prx2 and that -596/-239 contained seven Prx2-binding sites. The SELEX method using a random N15-mer oligonucleotide pool demonstrated that Prx2 monomer binds to a TAATT motif, which is present in Fd2 and -596/-239. However, the binding of Prx2 to TAATT with a single molecule and its inverted repeat with two molecules could not induce transcriptional activation, indicating that the Prx2-dependent transcriptional modulation demonstrated in cultured cells is not introduced by Prx2 alone. Thus, this study demonstrated for the first time that Prx2 is expressed in the pituitary gland and at least in a part of gonadotropes in which Prx2 may play a role in repression of the Fshb gene.

Cloning and characterization of porcine CArG binding factor A expression in the anterior pituitary

CArG binding factor A (CBF-A) is a transcription factor first isolated from mouse C2 myogenic cells. Several lines of evidence indicate that CBF-A is also present in the anterior pituitary lobe and participates in the process of development and cell transformation. This study was performed to clone porcine CBF-A and to investigate its roles in the porcine anterior pituitary lobe. The predicted amino acid sequence of porcine CBF-A showed a unique insertion of five TG-repeats in the N-terminal region in comparison with those of other mammals, whereas the other regions appeared to be mostly conserved including two RNA recognition motifs in the middle region. Investigation of the expression of CBF-A gene during porcine pituitary development by RT-PCR showed an exclusive and temporary decrease in expression level shortly after birth in both sexes that was gradually but insufficiently restored. The expression of fluorescence protein-fused CBF-A in CHO cells demonstrated that CBF-A is located in the nuclei. We examined whether CBF-A regulates the expression of pituitary hormone genes in CHO cells and found that CBF-A significantly stimulated the promoter activity of growth hormone and prolactin by about 2-fold but did not stimulate the LHbeta gene. The specific DNA binding ability of porcine CBF-A was examined using serial oligonucleotides, CArG box and CC(W)0-6GG (W=A or T). As a result, porcine CBF-A was shown to have a high binding affinity for double- and single-stranded CC(W)6GG but no affinity for the known sequences of the CBF-A-target genes. Accordingly, this study demonstrated that porcine CBF-A may play a role in regulating at least two pituitary hormone genes, GH and PRL.

Analysis of Genes Expressed During Porcine Fetal Pituitary Development by Suppressive Subtraction Hybridization

Pituitary organogenesis is modulated by temporal and special expression of various genes at the fetal stage. Suppressive subtraction cloning was employed to search for genes expressed during porcine fetal pituitary development. The variations in the genes expressed in the pituitaries on fetal days 40 and 110, respectively, were analyzed by subtraction with the inverted combination. Genes encoding growth arrest specific-2, coated vesicle membrane protein, steroid membrane binding protein, putative protease cancer tumor suppressor, secretogranin, calumenin and others exhibited elevated expression during pituitary development, in addition to genes encoding GH, prolactin and glycoprotein hormone common alpha subunit. Concomitantly, we also found a gene that encodes a porcine ortholog of c-myc transcription factor and determined its entire nucleic acid sequence. On the other hand, histone H3.3B, GTP-binding alpha-stimulatory subunit, stathmin and others were found as gene expression decreased. Thus, the expression levels of many genes change during pituitary development.

Transcriptional control during mammalian anterior pituitary development

The mammalian anterior pituitary gland is a compound endocrine organ that regulates reproductive development and fitness, growth, metabolic homeostasis, the response to stress, and lactation, by actions on target organs such as the gonads, the liver, the thyroid, the adrenals, and the mammary gland. The protein and peptide hormones that control these physiological parameters are secreted by specialized pituitary cell types that derive from a common origin in the early ectoderm. Collectively, the broad physiological importance of the pituitary gland, its intriguing organogenesis, and the clinical and agricultural significance of its actions, have established pituitary development as an excellent model system for the study of the gene-regulatory cascades that guide vertebrate cell determination and differentiation. We review the transcriptional pathways that regulate the commitment of the individual pituitary cell lineages and that subsequently modulate trophic hormone gene activity in the differentiated cells of the mature gland.

Germ cell development in Meishan and White Composite gilts

This study compared dynamics of the germ cell population in two swine breeds that differ in prolifacy, White Composite (WC) and Meishan (MS), during fetal and neonatal life and in mature sows. Germ cell populations developed in a similar pattern in these two diverse breeds during fetal life. Maximal germ cell number was observed at 90 days postcoitum (dpc) in both WC and MS gilts, and substantial oogonial apoptosis was evident thereafter with approximately 30% of maximal numbers present at 25 days postpartum (dpp). Neither gilt nor sow germ cell number was correlated with maternal ovulation rate. Postnatal MS gilts had larger pools of primordial follicles and consistently greater proportions and numbers of primary and secondary follicles compared to postnatal WC gilts, indicative of enhanced follicular recruitment and primordial follicle activation. Occasional antral follicles were present in MS ovaries by 25 dpp and numerous surface follicles were observed at 56 dpp in MS but not WC ovaries, indicative of more rapid ovarian maturation and early onset of puberty. Total germ cell number is unlikely to influence or to predict subsequent ovulation rate. These observations highlight important developmental events during late fetal and early postnatal life that prepare the ovarian environment for early onset of puberty and subsequent ovulation in MS gilts.

Identification of porcine Lhx3 and SF1 as candidate genes for QTL affecting growth and reproduction traits in swine

The distal portion of the long arm of porcine chromosome 1 has been shown to harbour several quantitative trait loci affecting growth and reproductive traits in swine. In order to identify potential candidate genes that might underlie these effects, a comparative mapping analysis was undertaken to define the extent of orthologous segments of human chromosome 9. A microsatellite associated with heat shock protein (HSP) A5 was used to define the proximal boundary of the quantitative trait loci (QTL) region, which suggests the human orthologue of the gene(s) responsible for the observed effects lies between HSPA5 and the q arm telomere of human chromosome 9. Examination of this region revealed two candidate genes with known roles in production of hormones essential to growth and reproductive function. The steroidogenic factor 1 and Lhx3 LIM homeodomain transcription factor genes were mapped to 123 and 155 cM, respectively, of the Sus scrofa chromosome 1 (SSC1) linkage group, placing both genes within the confidence interval for the observed QTL. To further evaluate Lhx3, we examined the expression profile during porcine embryonic development. Low levels were detected at early embryonic stages, when development of the nervous system is proceeding. A transient increase in expression level is observed during the time of pituitary organogenesis and again at the time of differentiation of anterior pituitary cells, with relatively high levels of expression persisting in the adult pituitary gland. This ontology is consistent with Lhx3 being a candidate gene for the QTL.

Neuroendocrine regulation of growth hormone and luteinizing hormone in fetal and neonatal pig

Ontogeny of the production and the regulation of growth hormone and Luteinizing hormone is studied in a series of experiments utilizing male and female pigs at different fetal and neonatal stages. Growth hormone mRNA is detectable in both sexes as early as d. 50 p.c. The mRNA levels increase to reach the maximum levels at d. 95-110 p.c. Plasma levels of GH follow the developmental patterns of GH mRNA. A sex difference is evident around d. 80-90 p.c. with males having higher GH levels than females. The stimulatory but not the inhibitory mechanisms of GH secretion are fully functioning in the pig fetus. LHbeta mRNA is detectable earlier in females (d. 50 p.c.) than in males (d. 65 p.c.). Plasma concentrations of LH increase with fetal age in female fetuses, but in male fetuses there is no distinct developmental pattern evident. Basal LH secretion achieves maximum levels in both sexes after birth. Opioids do modulate fetal LH secretion, however, the mode of their action is age-dependent.

Biochemical and genetic characterization of the porcine Prophet of Pit-1 pituitary transcription factor

Prophet of Pit-1 (Prop-1) is a paired class homeodomain transcription factor that is specifically expressed in the pituitary gland. Mutations in the Prop-1 gene cause compound pituitary diseases in mouse models and human patients. We have cloned and analyzed the porcine ortholog of Prop-1. Analysis of cDNAs revealed that the porcine Prop-1 sequence is similar to the mouse and human proteins within the homeodomain and carboxyl terminus, but the amino terminus is poorly conserved. The Prop-1 gene consists of three exons and two introns and spans 3.8 kilobases of genomic DNA. In addition, we mapped Prop-1 to the q arm of pig chromosome two. During development, Prop-1 is expressed at the time of pituitary organogenesis. In the adult, expression was observed at low levels only in the pituitary gland. The porcine Prop-1 protein displays similar biochemical, DNA binding, and transcriptional activities to human PROP-1. We conclude that, although the structural divergence between the porcine and human PROP-1 molecules may indicate some distinct functions, the porcine Prop-1 gene encodes a pituitary transcription factor with similar overall activities to the human ortholog.

Neuroendocrine regulation of gonadotropins in the male and the female

For the past decade, neuroendocrinology, in general, and neuroendocrine regulation of reproduction, in particular, were strongly dominated by molecular genetics and molecular endocrinology. In very recent years, however, neuroendocrinology is taking back its place. Beyond doubt GnRH is the neuroendocrine signal for ovulation. But there are still many unexplored pathways within the 'black box' triggering and regulating this signal. Neuroendocrine control of reproduction starts very early in life, well before birth. Hypophyseal gonadotropin secretion is under hypothalamic control at around mid-gestation in the fetal sheep and the fetal pig. These two species could be considered as best-studied farm animals considering neuroendocrinology. This minireview thus will give in the first part a short survey of developmental processes of some of the neuroendocrine systems in the pig and sheep. In the second part, the opioidergic and catecholaminergic control of gonadotropins in adults will be briefly discussed. The last part will focus on the new less known pathways mediating effects on hormones which regulate the reproductive functions.

Differential expression of growth hormone messenger ribonucleic acid by somatotropes and gonadotropes in male and cycling female rats

Past studies have reported the appearance of cells sharing phenotypic characteristics of gonadotropes and GH cells. During diestrus and early proestrus, a subset of somatotropes (40-60%) expressed both GH antigens and gonadotropin (LH-beta, LHbeta, or FSH-beta) messenger RNAs (mRNAs) or GnRH receptors. More recently, we reported that subsets of gonadotropes identified by LHbeta or FSHbeta antigens expressed GH- releasing hormone (GHRH) binding sites. The present studies were designed to learn if these putative multipotential cells also expressed GH mRNA. Biotinylated sense and antisense oligonucleotide probes were developed and cytochemical in situ hybridization tests were optimized for the detection of GH mRNA with GH, LHbeta, and FSHbeta antigens. RNase protection assays were developed with a complementary RNA probe that detected a 380-bp region at the 5' end of the GH mRNA. Both the in situ hybridization and RNase protection assays detected changes in expression of GH mRNA during the estrous cycle with the lowest expression occurring during metestrus and peak expression occurring on the morning of proestrus. Cell counts confirmed the results of the RNase protection assays showing that increases in mRNA levels seen from metestrus to proestrus reflected increased percentages of GH mRNA-bearing cells. In addition, densitometric analyses demonstrated that the higher GH mRNA levels assayed from diestrus to proestrus reflected increased area and density of label per cell. Both types of assays showed sex differences in expression of GH mRNA; male rat cell populations had higher values than female rats in metestrus, diestrus, or estrus. However, percentages of GH cells in male rats were equal to those from proestrous female rats and levels of GH mRNA were lower in male rats than proestrous females. Dual labeling experiments showed that, in male rats and diestrous, proestrous, or estrous females, GH mRNA was expressed in over 70% of GH cells. Expression of GH mRNA was also found in 50-57% of cells with LHbeta or FSHbeta antigens in the same groups. The lowest expression was seen in the metestrous groups (30-40% of GH cells or gonadotropes expressed GH mRNA). Expression of GH mRNA was first increased from metestrus to diestrous largely in GH cells, and slightly in cells with LHbeta antigens. Further increases were seen in GH and LH cells by the morning of proestrus. In contrast, FSH gonadotropes did not show an increased expression of GH mRNA until the morning of proestrus (reaching the same peak reached by LH cells). These data confirm the working hypothesis that a multihormonal cell type develops during diestrus to support both the somatotrope and gonadotrope populations. Collectively, our studies suggest that this multihormonal cell may function to help support the regulatory functions of the gonadotrope during the periovulatory period. In addition, the appearance of significant levels of expression of GH mRNA by male rat gonadotropes suggests that this multihormonal cell may play a role in regulation of the male reproductive system as well.

Multiple binding sites for nuclear proteins of the anterior pituitary are located in the 5'-flanking region of the porcine follicle-stimulating hormone (FSH) beta-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.

Characterization of the porcine Lhx3/LIM-3/P-Lim LIM homeodomain transcription factor

Lhx3/LIM-3/P-Lim is a LIM homeodomain transcription factor which is essential in mice for the development of anterior and intermediate lobes of the pituitary gland. We report the cloning and characterization of porcine Lhx3. The porcine Lhx3 protein exhibits strong similarity to murine Lhx3 within the amino terminal LIM domains and the homeodomain, however, it is diverged in regions outside these motifs. Expression vectors for porcine Lhx3 activated murine and porcine alpha-glycoprotein reporter genes in transfection assays, and recombinant porcine Lhx3 protein specifically bound to a target site within the porcine alpha-glycoprotein gene upstream sequence. In addition, porcine Lhx3 synergistically induced transcription from prolactin enhancer/promoter reporter genes in cooperation with the Pit-1 pituitary transcription factor. Porcine Lhx3 protein interacted with Pit-1 protein in solution and also with the LIM domain-binding protein NLI/Lbd1/CLIM. Together, these data indicate that many aspects of Lhx3 function in the mammalian pituitary are conserved and that Lhx3 may be involved in the activation of trophic hormone genes during early and late stages of pituitary organogenesis. Divergence in the Lhx3 amino acid sequence between mammalian species may suggest distinct activities for this protein in some species and may help identify important functional domains of this key developmental transcription factor.