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ABSTRACT

During pregnancy, a placental calcium pump maintains the fetus in a hypercalcaemic state relative to the mother, a condition which has been thought to facilitate normal development of the fetal skeleton. Based on experiments performed in the sheep, parathyroid hormone-related protein (PTHrP) has been implicated as the hormone responsible for maintaining the placental calcium pump. In the present study on mice in which the PTHrP gene has been ablated by homologous recombination, we have measured both fetal and maternal circulating total and ionised calcium levels, as well as fetal total body calcium, in order to determine whether absence of PTHrP during fetal development has an effect on fetal calcium levels. Our results show that, in fetuses lacking PTHrP, circulating ionised calcium levels are significantly lower than those of heterozygote and wild-type littermates, but circulating total calcium levels show no difference. Total body calcium levels of null mutants are significantly higher than those of normal littermates.

The role of PTHrP in maintaining the integrity of the transplacental calcium pump in the rodent thus remains unclear. It may be that the lower levels of fetal blood ionised calcium in mutant animals are due to disruption of the placental pump, but, if this is the case, compensatory mechanisms have operated to allow the excessive calcium deposition seen in the skeletons of these animals. Alternatively, the increased avidity of the bones for calcium may in itself have produced a lower equilibrium level of available ionised calcium.

ABSTRACT

DNA elements governing transcription of the ovine cytochrome P-450 side-chain cleavage (CYP11A1) gene were investigated. Three overlapping genomic clones for the ovine CYP11A1 gene were isolated and characterized. The transcriptional start site was located 51 nucleotides upstream from the initiating methionine. Gene transfer experiments were conducted in murine adrenocortical Y1 cells and human choriocarcinoma JEG-3 cells using chloramphenicol acetyltransferase reporter gene constructs containing promoter fragments from −2700 to −177 bp.

The results demonstrate that DNA elements sufficient to convey a basal level of expression and cyclic AMP (cAMP) responsiveness lie within 177 bp of the transcriptional start, although the possibility that additional regulatory elements reside outside this 177 bp has not been excluded. The ovine 5′ flanking sequence demonstrated 92% homology with the bovine sequence, extending over the entire fragment. In contrast, only four significant regions of conservation between the ovine, murine, rat and human CYP11A1 promoters were found. These regions are positioned within 200 bp upstream of the transcriptional start site.

DNase 1 footprinting was performed to identify DNA elements able to bind nuclear proteins. Primary adrenocortical and placental tissues from sheep were used as the source of nuclear extracts to detect DNA-protein interactions relevant to CYP11A1 gene expression in vivo. Five regions of protection were detected in the first −634 bp of the ovine CYP11A1 promoter. Three of these elements corresponded to the regions which are well-conserved between species. The other two elements resembled activating protein-1 (AP-1) and AP-4 sites and overlapping AP-2/Sp1 sites, and are conserved in the bovine gene but not in other species.

Nuclear protein extracts from adrenals of sheep with different serum ACTH levels (i.e. ACTH-treated, dexamethasone-treated and untreated sheep) protected similar regions of the ovine CYP11A1 promoter fragment. Similarly, the regions protected did not differ when nuclear protein from JEG-3 cells treated with cAMP was compared with that of untreated JEG-3 cells. These results suggest that induction of CYP11A1 gene transcription by ACTH in the ovine adrenal and by cAMP in JEG-3 cells in culture is not mediated by changes in binding of the proteins that interact directly with these footprinted elements.

The elements footprinted by extracts from primary ovine tissue lie within the 177 bp sufficient for cAMP-regulated expression. The correspondence of these elements either to regions conserved between species or to known consensus binding sites suggests that these sequences are cis elements involved in regulating transcription of the ovine CYP11A1 gene in vivo.

ABSTRACT

The gene encoding rhesus monkey relaxin has been investigated. A cDNA library was prepared using corpus luteal RNA from a pregnant rhesus monkey, cDNA clones encoding relaxin were isolated and the nucleotide sequence was determined. The amino acid sequence of rhesus monkey preprorelaxin, predicted from the cDNA, demonstrates that the sequence has not been strongly conserved when compared with that of man, although features characteristic of the relaxin molecule have been maintained. This structural information will allow production of rhesus monkey relaxin, leading to studies investigating the bioactivity of relaxin in a homologous primate system. Southern blot analysis indicated that there is only one relaxin gene in the rhesus monkey and baboon genomes. In this respect these primate genomes are different from the human genome which contains two relaxin genes.

ABSTRACT

Relative levels of rat ovarian α inhibin (αI) and βA inhibin (βAI) mRNAs were measured during pregnancy by dot-blot hybridization of ovarian poly(A⁺) RNA. Follicular patterns of αI and βAI expression in contralateral ovaries from the same rats were also studied by hybridization histochemistry. Oligodeoxynucleotide probes specific for porcine αI and βAI were synthesized, ³²P end-labelled and used as hybridization probes on dot-blots of ovarian RNA and frozen sections of ovarian tissue from pregnant rats. During pregnancy, levels of αI and βAI mRNAs remained fairly constant from day 7 after mating until parturition and then fell within 16 h post partum. In all ovaries observed, expression of inhibin genes was located in granulosa cells of healthy antral follicles. In general, the strongest signals for αI and βAI mRNAs were obtained in large follicles, with weaker signals in smaller follicles. Follicular patterns of αI and βAI expression during pregnancy were often dissimilar when βI and βAI were compared over a range of follicles. Considerable βI mRNA was detectable in some follicles in which βAI was reduced or undetectable, despite strong signals for both αI and βAI in an adjacent follicle. Essentially, αI mRNA levels were relatively consistent between groups of follicles, whereas βAI levels varied considerably. βAI mRNA was never observed in a follicle in the absence of αI mRNA, indicating that activin production in any follicle occurs in the presence of αI mRNA. Similar patterns of expression were observed in ovaries from pregnant mice. We have shown that expression of αI and βAI inhibin genes is not regulated uniformly within follicles of pregnant rat and mouse ovaries.