Glucocorticoids regulate the induction of phosphoenolpyruvate carboxykinase (GTP) gene transcription during diabetes

The hormonal regulation of transcription of the phosphoenolpyruvate carboxykinase (GTP) (4.1.1.32) (PEPCK) gene during diabetes was studied using transgenic mice containing a chimeric gene consisting of segments of the PEPCK promoter (-2000/+73, -460/+73, -355/+73) linked to bovine growth hormone (bGH) reporter gene. The effect of diabetes and insulin on transgenic mice containing a mutation in cAMP regulatory sequences at -90/-82 and -250/-234 was also studied. In addition, we analyzed the transcriptional response of the PEPCK gene to adrenalectomy, the administration of glucocorticoids, and alterations in dietary protein and carbohydrate. Our results indicate that deletion of the insulin regulatory sequence of the PEPCK promoter did not affect dietary control of PEPCK gene expression. However, glucocorticoids and the glucocorticoid regulatory unit appear to be essential for induction of PEPCK gene transcription by diabetes. By contrast, mutation of cAMP regulatory elements of the PEPCK promoter did not limit induction of PEPCK transcription by diabetes, nor did it affect negative regulation of transcription by insulin. These results provide evidence for the interaction of insulin and glucocorticoid regulatory elements in the control of PEPCK gene transcription and suggest an important role of glucocorticoids as a gluconeogenic activator during diabetes.

Glucose metabolism in transgenic mice containing a chimeric P-enolpyruvate carboxykinase/bovine growth hormone gene

Transgenic mice, containing the chimeric gene obtained by linking the promoter-regulatory region of P-enolpyruvate carboxykinase (PEPCK) gene to the bovine growth hormone structural gene (bGH), were used to investigate the long-term effects of bGH on glucose metabolism. Expression of the PEPCK/bGH gene was markedly enhanced by feeding a diet high in protein and inhibited by a high carbohydrate diet. All transgenic mice had normal levels of blood glucose but were hyperinsulinemic, indicating that they were insulin resistant. The glycogen synthase activity ratios in the muscle and liver of transgenic mice were lower than noted for control animals, and remained unchanged in liver after feeding a standard high carbohydrate or a high protein diet. Similar effects were detected in the activity of glycogen phosphorylase, except that a high carbohydrate diet activated this enzyme in the liver. The activation of glycogen phosphorylase in both muscle and liver correlated with the expression of their genes. These animals had a significant content of glycogen and glucose 6-phosphate, which was related to the levels of glucokinase mRNA in the liver. The concentration of fructose 2,6-bisphosphate in the liver of all fed transgenic mice was lower than noted in livers from fed animals. In addition, a decrease in the hepatic expression of the endogenous genes for PEPCK, tyrosine aminotransferase (TAT), and the glucose transporter GLUT-2 was observed and directly correlated with the expression of bGH. Thus, bGH can control glucose metabolism in vivo, at least in part, by modifying the expression of several genes coding for proteins of importance in carbohydrate metabolism. Taken together, these results indicate a state of insulin resistance caused by chronic exposure of the animals to an elevated concentration of bGH.

Gonadotropin secretion, synthesis, and gene expression in human growth hormone transgenic mice and in Ames dwarf mice

The expression of the mouse metallothionein-I (MT) promoter/human GH (hGH) fusion gene leads to reduced fertility and increased plasma LH levels in male MT/hGH transgenic mice. To determine the effects of hGH on gonadotropin synthesis and release, we have examined basal and GnRH stimulated LH and FSH release in pituitary incubations and perifusions; and pituitary content of LH, FSH, LH-beta messenger RNA (mRNA), and FSH-beta mRNA in MT/hGH transgenic males and in their normal littermates. For comparison, similar studies were performed in GH and PRL deficient Ames dwarf mice in which plasma gonadotropin levels are known to be reduced. We have also measured the LH and FSH release from normal pituitaries transplanted under the kidney capsule of MT/hGH transgenic or normal mice. We found that in MT/hGH transgenic mice, there were parallel increases in unstimulated and GnRH stimulated LH release from pituitary incubation, in pituitary LH content and in LH-beta mRNA levels. In pituitary perifusion, the basal LH secretion was elevated, whereas LH responses to GnRH pulses were not altered. In transgenic males, FSH-beta mRNA was increased, whereas basal and GnRH-stimulated FSH release and pituitary FSH content did not differ from their normal controls. After normal pituitaries were transplanted to kidney capsules of MT/hGH transgenic mice, the expected decrease in LH and FSH secretion was attenuated and the responsiveness to GnRH stimulation was maintained. In Ames dwarf mice, all gonadotropin content and release, as well as pituitary beta-mRNA contents were decreased. We conclude that in MT/hGH transgenic mice, the expression of LH-beta and FSH-beta gene is increased. In addition, there is a translational or posttranslational inhibitory influence on FSH synthesis. Although our previous studies suggest that the effects of hGH gene expression on LH and FSH release are exerted primarily at the hypothalamic level, the present results suggest existence of GnRH unrelated peripheral factors which can directly stimulate pituitary gonadotropin synthesis and release. In Ames dwarf mice, the deficiency of GH and PRL, as well as TSH, is associated with decreased LH-beta and FSH-beta gene expression which may account for the reduction in plasma gonadotropin levels.

Transgenic female mice with high human growth hormone levels are fertile and capable of normal lactation without having been pregnant

Transgenic mice carrying the phosphoenolpyruvate carboxykinase promoter region-human growth hormone (PEPCK-hGH) fusion gene are characterized by accelerated growth and plasma hGH levels ranging from 100 to 700 ng/ml. Both sexes are fertile, in contrast to previous findings in metallothionein-I/hGH transgenic mice in which females are sterile, apparently due to luteal failure. Virgin transgenic PEPCK/hGH females from this line produce milk and can successfully raise foster litters to weaning. We conclude that the life-long presence of very large amounts of hGH in the circulation is compatible with ovulation, can override the effects of hGH-induced suppression of endogenous PRL release, and can support full lactation in animals that have not been primed by hormonal changes associated with pregnancy.

Effects of expression of human or bovine growth hormone genes on sperm production and male reproductive performance in four lines of transgenic mice

Reproductive performance was studied in transgenic males from lines expressing and transmitting four hybrid genes: mouse metallothionein-I/human growth hormone (GH) (MT/hGH), MT/hGH placental variant (MT/hGH.V), MT/bovine GH (MT/bGH) and phosphoenolpyruvate carboxykinase/bGH (PEPCK/bGH). Each male was exposed to three normal females for 1 week and to three different normal females for another week. Females were examined for vaginal plugs and necropsied on day 14 of pregnancy. Males were killed for analysis of organ weights, numbers of testicular spermatids, numbers of epididymal sperm and measurements of plasma glucose concentration. Fertility of MT/hGH and MT/hGH.V transgenic males was significantly lower than in normal males, primarily because most males failed to impregnate any females. In females that became pregnant, the numbers of corpora lutea, total fetuses and live fetuses did not differ from those in females mated to normal (nontransgenic) males. Fetal crown-rump length on day 14 of pregnancy did not differ between litters sired by normal or by transgenic males. Weights of testes and seminal vesicles were significantly greater in all four types of transgenic male, but daily sperm production per unit weight (g-1) of testis was not affected and epididymal sperm reserves were either normal or slightly higher than normal. Plasma glucose concentrations were significantly higher in PEPCK/bGH mice than in other mice. Average or individual reproductive performance of transgenic males from the various lines did not correlate with any of the parameters examined except for significantly heavier seminal vesicles in MT/hGH and MT/hGH.V males than in normal males; these transgenic males exhibited a high incidence of infertility. Since hGH and hGH.V, but not bGH, are lactogenic in rodents, it was concluded that chronic stimulation of GH and prolactin receptors by ectopically produced human GHs in transgenic mice compromises male fertility by an unknown mechanism. Reduced fertility of transgenic males with MT/hGH or MT/hGH.V hybrid genes is due to failure to inseminate or impregnate females rather than to reduced numbers of spermatozoa or gross changes in the male reproductive system.

Conversion of bovine growth hormone cysteine residues to serine affects secretion by cultured cells and growth rates in transgenic mice

GHs have been found to possess two disulfide bonds. We set out to determine the importance of bovine (b) GH's disulfide bonds relative to the ability of the hormone to be secreted by cultured cells in vitro and to promote growth in transgenic mice. We have generated six mutated bGH genes that encode serine (Ser) substitutions for cysteines (Cys). These mutated genes were used to generate bGH analogs in which either one or both disulfide bonds are destroyed. When the small loop of bGH was destroyed (Cys181-Ser or Cys189-Ser), the bGH analogs were found to be secreted by mouse L-cells at levels comparable to those of wild-type bGH. However, secretion was drastically reduced when the large loop was abolished (Cys53-Ser or Cys164-Ser). An immunofluorescence study of these bGH analogs revealed two distinct patterns of subcellular localization. Bovine GH analogs with mutations in the small loop demonstrated a perinuclear distribution similar to that of wild-type bGH, but analogs containing a disrupted large loop revealed a uniform cytoplasmic distribution pattern. When these mutated bGH genes were individually introduced into transgenic mice, only those animals that expressed bGH analogs with the large loop intact demonstrated a growth-enhanced phenotype. Transgenic mice that expressed bGH analogs lacking the large loop showed growth rates similar to those of nontransgenic mice. These results suggest that the integrity of the large loop, but not that of the small loop, is essential for the growth-enhancing activity of bGH in transgenic mice.

Metabolic control of gene expression: in vivo studies with transgenic mice

Transgenic animals provide a comprehensive model for investigating genes encoding inducible enzymes involved in metabolism, since the molecular mechanisms regulating gene transcription can be studied in the whole animal. Studies on the promoters of the genes encoding two key enzymes in the gluconeogenic and glycolytic pathways--phosphoenol-pyruvate carboxykinase and pyruvate kinase are described as examples of this approach. Work on the phosphoenolpyruvate carboxykinase promoter using transgenic mice has been particularly informative: the cis-acting elements involved in hormonal regulation, tissue specificity and developmental inhibition of gene expression have been identified and their function in vivo examined.

Fertility of transgenic female mice expressing bovine growth hormone or human growth hormone variant genes

Although growth hormone (GH) exerts various direct and indirect stimulatory effects on gonadal development and function, excessive levels of GH in acromegalic patients and in transgenic animals are often associated with reproductive disorders. We have examined reproductive performance of transgenic female mice expressing the following hybrid genes: mouse metallothionein-1 (MT)/human placental GH variant (hGH.V), MT/bovine GH(bGH), and phosphoenolpyruvate carboxykinase (PEPCK)/bGH. This allowed us to evaluate the effects of chronic GH excess in three animal models and to obtain some information on the significance of the lactogenic activity of the foreign GH (hGH.V vs. bGH) and on the developmental stage of transgene expression (MT vs. PEPCK). Transgenic animals from each line had elevated plasma insulin-like growth factor-I levels and greatly increased adult body weight. Plasma bGH levels were significantly higher in PEPCK/bGH than in MT/bGH transgenic mice. Approximately 20% of transgenic MT/hGH.V and MT/bGH females and over 60% of transgenic PEPCK/bGH females were infertile. Transgenic females that did reproduce ovulated either a normal or increased number of eggs but exhibited a variety of reproductive disorders including increased interval between pairing with a male and conception, increased interval between litters, reduced number of litters, reduced fetal growth, increased pre- and postnatal mortality, and alterations in sex ratio. Among adult offspring of these females, the proportion of transgenic animals was significantly less than the expected 50%. While some characteristics (e.g., fetal crown-rump length and weight on Day 14 of pregnancy) were affected to a comparable extent in transgenic females from all three lines, MT/hGH.V and PEPCK/bGH females were, in general, more severely affected than the MT/bGH animals. Sterility of PEPCK/bGH females appeared to be due to luteal failure since treatment with progesterone led to pregnancy. Greatly increased intervals between successive litters appeared to be due to failure to mate during postpartum estrus and to sterile matings during this period. Reduced fetal size and weight may have been due to chronic glucocorticoid excess because comparable changes could be induced in normal females by injections of dexamethasone during pregnancy, and plasma corticosterone levels were previously shown to be elevated in transgenic mice from each of these lines. Comparison of these results with data obtained from matings of normal female mice to transgenic males from the same lines suggests that reduced fetal growth is due primarily to maternal genotype, while reduced "transmission" of the hybrid genes is not, and presumably reflects increased mortality of transgenic progeny at various stages of development.(ABSTRACT TRUNCATED AT 400 WORDS)

Inhibition of Moloney murine leukemia virus-induced leukemia in transgenic mice expressing antisense RNA complementary to the retroviral packaging sequences

Recombinant plasmids pLP psi as and pCP psi as were constructed by positioning the Moloney murine leukemia virus (M-MuLV) proviral packaging (psi) sequences in reverse orientation under the transcriptional regulation of lymphotropic promoter/regulatory elements from the M-MuLV long terminal repeat or the cytomegalovirus immediate-early region. Linear fragments containing the antisense psi and the appropriate transcriptional regulatory sequences from these plasmids were introduced into the mouse germ line by zygote microinjection. The chromosomal integration, germ-line transmission, and lymphocyte-directed expression of the antisense psi RNA were confirmed. Control (nontransgenic) and transgenic mice containing either the pLP psi as or the pCP psi as sequences were infected with M-MuLV on the day of birth and assayed for signs of leukemia between 12 and 14 weeks of age with standard assay procedures. While 31% (11 of 36) of the control, nontransgenic, mice developed leukemia, none of the antisense psi transgenic mice developed any symptoms of leukemia. The pCP psi as sequences were also introduced into mouse NIH 3T3 cells and stably transformed cell lines were isolated. When infected with M-MuLV these cells were shown to produce virus devoid of packaged viral RNA.

Effects of heterologous growth hormones on hypothalamic and pituitary function in transgenic mice

The expression of the mouse metallothionein-I (mMT) promoter/human growth hormone (hGH) fusion gene in transgenic mice leads to female sterility and major alterations in the function of the hypothalamic-adenohypophyseal system. These alterations include increases in median-eminence norepinephrine turnover and plasma LH levels, and a decrease in plasma prolactin levels in intact males, and an increase in median-eminence dopamine turnover combined with the suppression of plasma prolactin levels in ovariectomized females. To further characterize these changes and to determine whether they are due to the lactogenic or somatotropic activity of hGH, we have studied hypothalamic and pituitary function in transgenic mice expressing mMT/hGH, mMT/hGH.B 'variant', or mMT/bGH fusion genes. In males, the expression of the hGH.B gene was associated with a reduction in pituitary prolactin release in vitro and an increase in LH response to LHRH stimulation, while the bGH transgene did not affect any of the examined parameters of LH and prolactin release. Median-eminence norepinephrine turnover was increased in each of the three lines of transgenic males, while median-eminence dopamine turnover was reduced only in animals expressing the hGH.B gene. In ovariectomized females, plasma LH was suppressed by hGH variant expression, while median-eminence norepinephrine turnover was suppressed in both hGH.B and bGH animals. The turnover of dopamine was increased in the median eminence of females expressing either of the human genes (hGH or gHG.B) and reduced in the median eminence of ovariectomized bGH females. We conclude that the hGH.B gene is weakly lactogenic in mice, and that the chronic stimulation of either GH receptors (by bGH) or both GH and prolactin receptors (by hGH or hGH.B) can lead to profound alterations in the metabolism of hypothalamic neurotransmitters and pituitary hormone release.

Elevated corticosterone levels in transgenic mice expressing human or bovine growth hormone genes

Ectopic expression of human or bovine growth hormone (GH) genes in 6 lines of transgenic mice was associated with a significant increase in plasma corticosterone levels. Elevated corticosterone levels were detected in both sexes under basal conditions and after ether stress. The adrenal activity of 3 beta-hydroxysteroid dehydrogenase was measured in two of these lines and was found to be significantly increased in transgenic animals. Plasma corticosterone levels in transgenic mice did not correlate with known differences between the various lines in male and female fertility or in the life span.

Metabolic effects of developmental, tissue-, and cell-specific expression of a chimeric phosphoenolpyruvate carboxykinase (GTP)/bovine growth hormone gene in transgenic mice

Transgenic mice were used to investigate sequences within the promoter of the gene for the cytosolic form of phosphoenolpyruvate carboxykinase (GTP) from the rat (EC 4.1.1.32) (PEPCK) which are involved in tissue-specific and developmental regulation of gene expression. Segments of the PEPCK promoter between -2000 and -109 were linked to the structural gene for bovine growth hormone (bGH) and introduced into the germ line of mice by microinjection. Bovine growth hormone mRNA was found in tissues that express the endogenous PEPCK gene, mainly in the liver but to a lesser extent in the kidney, adipose tissue, small intestine, and mammary gland. In the liver the chimeric PEPCK/bGH(460) gene was expressed in periportal cells, which is consistent with the zonation of endogenous PEPCK. The PEPCK/bGH gene was not transcribed in the livers of fetal mice until immediately before birth; at birth the concentration of bGH mRNA increased 200-fold. Our results indicate that the region of the PEPCK promoter from -460 to +73 base pairs contains regulatory sequences required for tissue-specific and developmental regulation of PEPCK gene expression. Mice transgenic for PEPCK/bGH(460) were not hyperglycemic or hyperinsulinemic in response to elevated bGH, as were transgenic mice with the MT/bGH gene. The number of insulin receptors in skeletal muscle was no different in mice transgenic for MT/bGH when compared with mice transgenic for PEPCK/bGH(460) and control animals. However, mRNA abundance for the insulin-sensitive glucose transporter in skeletal muscle was decreased in mice transgenic for the MT/bGH gene. The differences in glucose homeostasis noted with the two types of transgenic mice may be the result of the relative site of expression, the different developmental pattern, or hormonal regulation of expression of the bGH gene.

The human growth hormone transgene: expression in hemizygous and homozygous mice

Female transgenic mice carrying the mouse metallothionein-I/human growth hormone (hGH) fusion gene are sterile. Transmission of the transgene has been limited to the male germ line, resulting in the production of hemizygous (He) progeny containing only a single (paternal) copy of the gene. Using ovary transfer, we have developed procedures for producing homozygous (Ho) TG mice, viz., male TG mice were mated with control (non-TG) females carrying ovaries donated by female TG mice. In both He and Ho TG animals, serum levels of hGH were higher (1.5-fold) in males than in females, tended to decrease with age of the animal, and were increased (about 5-fold) by zinc induction. However, in comparison to He animals of the same sex, the Ho TG mice attained a greater body weight and had more than 2-fold higher levels of liver hGH-mRNA and serum hGH, both under basal conditions and in response to zinc induction. That is, the expression of the transgene was qualitatively similar in He and Ho TG mice, but the level of transgene activity was greater in the Ho animals. We interpret this to indicate that both copies (maternal and paternal) of the transgene were active and expressed additively (or cooperatively) in the Ho TG animal.

Neuroendocrine function in transgenic male mice with human growth hormone expression

The neuroendocrine effects of human growth hormone (hGH) secretion were studied in adult male mice into which an hGH gene fused with mouse metallothionein 1 (mMT-1) promoter had been introduced. Intact transgenic mice had significantly greater plasma luteinizing hormone (LH) levels than did normal littermate controls. Castration increased LH levels in normal mice but was without effect on plasma LH levels in the transgenic mice. In vitro LH secretion and pituitary LH content were higher in the intact transgenic mice than in intact controls, while there was no significant difference in pituitary LH levels and in vitro LH secretion between the 2 groups of castrate animals. Intact transgenic mice exhibited a greater median eminence (ME) norepinephrine (NE) turnover than control animals, but ME NE turnover did not increase after castration in the transgenic animals as was the case in control mice. Castrate mice expressing the hGH gene had plasma levels of prolactin (PRL) similar to those seen in castrate controls, which was unexpected based on a previous study showing greatly attenuated PRL levels in intact hGH mice when compared to intact controls from the same line. Dopamine (DA) turnover in the ME was not significantly affected by the presence of the hGH gene, suggesting that the difference in plasma PRL levels between normal and transgenic mice is mediated through changes in PRL-regulating factors other than DA. In conclusion, the expression of the mMT-1/hGH hybrid gene in male mice leads to major alterations in LH secretion and lesser changes in PRL secretion.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of transgenes for human and bovine growth hormones on age-related changes in ovarian morphology in mice

The expression of human growth hormone (GH) in female transgenic mice (TM) is accompanied by sterility, whereas females expressing the bovine GH gene are fertile. A light and electron microscopic study was conducted to examine whether expression of these foreign GH genes in mice is associated with structural changes in the ovaries of young adult (3-month-old) or middle-aged (7-month-old) mice. One ovary was serially sectioned for light microscopy, and the contralateral ovary was used for electron microscopy. The numbers of preantral (PAF) and antral (AF) follicles, with and without signs of atresia, as well as the number of corpora lutea (CL), were determined. As expected, body weights of both young and middle-aged TM of either kind were significantly increased over those of their normal littermates. However, the ovarian weights of TM and control mice did not differ. In the 3-month-old TM, the ovaries were grossly normal at the light microscopic level. However, significantly more CL were counted in the ovaries of human GH-TM than in those of the other two groups. The percentage of PAF with signs of atresia was significantly reduced in ovaries of bovine GH-TM compared with the other groups, while the percentages of AF undergoing atresia were significantly different in all groups, with the highest values in normal animals, intermediate ones in human GH-TM, and the lowest in bovine GH-TM. In the ovaries of 7-month-old human GH-TM, conspicuous clusters of large, foamy light cells were present in the cortex and the medulla. Ultrastructurally, these cells appeared as interstitial cells in various stages of degeneration, accumulating cholesterol crystal-like inclusions. Although degeneration of interstitial cells was observed also in the other types of animals, it involved usually only single cells and no cytoplasmic crystal inclusions. Moreover, in the ovaries of 7-month-old human GH-TM the percentages of PAF were significantly reduced and the percentages of AF significantly increased compared with those in the two other groups, which did not differ from each other with respect to these parameters. No significant differences in the numbers of CL were found between the groups. Percentages of atretic PAF were significantly reduced in bovine GH-TM and comparable in the other two groups, while percentages of atretic AF were not different between normal and bovine GH-TM, but were significantly increased in human GH-TM.(ABSTRACT TRUNCATED AT 400 WORDS)

Stress-induced secretion of human growth hormone in transgenic mice

The effect of stress on human growth hormone (hGH) secretion was studied in transgenic mice. Experiments were conducted on fourth, fifth, and sixth generation male mice carrying a fusion gene, consisting of the promoter sequence of the mouse metallothionein I gene ligated to the hGH structural gene (mMT-I/hGH). In animals adapted to a controlled photoperiod, basal (unstimulated) levels of plasma hGH exhibited a diurnal cycling, with peak values occurring during the later half of the light period (15.5 +/- 1.0 vs 10.7 +/- 0.9 ng/ml, mean +/- SE, light versus dark, respectively). Food deprivation (5 days) led to elevated levels of plasma hGH (11.0 +/- 0.7 vs 32.0 +/- 4.2 ng/ml, preversus post-fast, respectively) accompanied by weight loss (49.5 +/- 0.8 vs 34.3 +/- 0.7 g), and hypoglycemia (7.8 +/- 0.2 vs 5.0 +/- 0.3 mM); glucose administration (5% drinking solution ad libitum) blocked the changes in levels of plasma hGH (12.2 +/- 1.1 vs 13.8 +/- 0.8 ng/ml) and plasma glucose (7.4 +/- 0.3 vs 7.9 +/- 0.5 mM), although the animals still sustained significant weight loss (44.9 +/- 1.6 vs 35.2 +/- 1.1 g). Vigorous exercise (swimming, 4 hr) produced a small but significant increase in plasma hGH, 12.1 +/- 1.1 ng/ml (1 hr pre-swim) vs 16.7 +/- 0.6 ng/ml (immediately post-swim). These findings indicate that the mMT-I/hGH transgene is responsive to the physiologic status of the host animal. Taken together with information regarding the heterologous components of the fusion gene, these data are consistent with the view that the hGH (structural) sequence may play a role in the response to stress.

Glucocorticoid regulation of human growth hormone expression in transgenic mice and transiently transfected cells

A mouse metallothionein-I/human growth hormone fusion gene was microinjected into fertilized mouse eggs, the embryos were implanted into pseudopregnant foster mothers, and the offspring analysed. Five of twenty-six mice born after one series of injections contained from one to eight copies of the fusion gene stably integrated into their genomes and had human growth hormone in their serum. When several of these transgenic mice and transgenic offspring were treated with glucocorticoids, serum growth hormone levels were elevated from 1.5- to 6.3-fold. A fourfold induction in fusion gene mRNA in the liver of one of the five mice was also observed after treatment with glucocorticoids. When the fusion gene was transiently transfected into mouse L cells, dexamethasone caused a three- to fourfold induction of fusion gene mRNA and secreted human growth hormone. A deletion analysis of regulatory elements required for inducibility in L cells shows that DNA sequences responsible for the observed inductions are located within the transcribed region of the human growth hormone gene. However, a previously described glucocorticoid receptor binding site in the first intron of the gene is not required for response to the hormone.

Expression of the human growth hormone variant gene in cultured fibroblasts and transgenic mice

The nucleotide sequence of the human growth hormone variant gene, one of the five members of the growth hormone gene family, predicts that it encodes a growth hormone-like protein. As a first step in determining whether this gene is functional in humans, we have expressed a mouse metallothionein I/human growth hormone variant fusion gene in mouse L cells and in transgenic mice. The growth hormone variant protein expressed in transiently transfected L cells is distinct from growth hormone itself with respect to reactivity with anti-growth hormone monoclonal antibodies, behavior during column chromatography, and isoelectric point. Transgenic mice expressing the growth hormone variant protein are 1.4- to 1.9-fold larger than nontransgenic controls, suggesting that the protein has growth-promoting properties.

Infertility in transgenic female mice with human growth hormone expression: evidence for luteal failure

Introduction of the human growth hormone (hGH) gene fused with mouse metallothionein I promoter into domestic mice leads to ectopic synthesis of hGH, marked stimulation of somatic growth, and female sterility. Transgenic females (produced by mating transgenic males to normal females) mated but failed to become pregnant or pseudopregnant as evidenced by the recurrence of vaginal plugs every 5-7 days. Daily injections of 1 mg progesterone, starting on day 1 postcoitum (p.c.), maintained pregnancy, suggesting that the sterility of these animals is due to inadequate luteal function. In ovariectomized female transgenic mice, median eminence (ME) turnover of dopamine (DA) was increased, and plasma prolactin (PRL) levels were reduced, presumably because of the known lactogenic activity of hGH in rodents. From these observations we suspected that either 1) the corpora lutea of these animals are unresponsive to lactogenic hormones, or 2) hGH by stimulating tuberoinfundibular dopaminergic (TIDA) neurons interferes with the increase in PRL release that normally follows mating and this, in turn, leads to luteal failure. To distinguish between these possibilities, transgenic females were treated with PRL-secreting ectopic pituitary transplants from normal females of the same strain on day 1 p.c. Eight of ten treated females became pregnant and delivered litters. We conclude that infertility of transgenic female mice with hGH expression is due to activation of the TIDA system, suppression of endogenous PRL release, and luteal deficiency.

Enhanced viral resistance in transgenic mice expressing the human beta 1 interferon

Recombinant plasmids pMTIF-beta 1A and pMTIF-beta 1B were constructed by fusing the metallothionein I promoter-regulatory region to the human beta 1 interferon (HuIFN-beta 1) gene. These linearized fusion genes were then introduced into mouse germ lines by zygote microinjection. The chromosomal integration and the germ line transmission of the injected DNA sequences in the resulting transgenic mice were detected by DNA dot blot and Southern transfer hybridizations. The sera of at least two strains of metallothionein/HuIFN transgenic mice were found to protect human WISH cells against vesicular stomatitis virus infection, and this activity could be neutralized by preincubation with anti-HuIFN-beta 1 antibody. These transgenic mice demonstrated significantly enhanced resistance to pseudorabies virus compared with nontransgenic mice when inoculated with pseudorabies virus. The level of resistance seemed to correlate with the concentrations of HuIFN-beta 1 in serum. These transgenic mice may be used as models to study IFN-induced responses and may serve as prototypes to generate disease-resistant animals.

Human sperm chromatin has a nucleosomal structure

Digestion of human sperm chromatin with micrococcal nuclease reveals an 160 base pair (b.p.) DNA fragment that is further degraded to a series of DNA fragments remarkably similar to the micrococcal nuclease digestion products of eukaryote somatic cellular chromatin. DNase I digestion of human sperm chromatin also yields an identical pattern of DNA fragments to that observed upon DNase I digestion of somatic chromatin. These data, together with earlier electron microscopic observations, suggest a nucleosomal structure for human sperm chromatin.

Human sperm chromatin organization: isolation of homogeneous (25 K b.p.) DNA fragments from in situ chromatin degradation in human sperm cells

Autodegradation of the chromatin contents of human sperm cells occurs in the presence of dithiothreotol at pH 8.0. The products of this degradation are chromosomal fragments containing DNA molecules approximately 25 K b.p. in length and showing spheroidal subunit structure. From the length of these fragments the direction of one axis of a crystalline organization of human sperm chromatin is suggested.

Intermediate filaments of bovine pulmonary artery smooth muscle distribution, isolation and polypeptide composition

1. The distribution of intermediate filaments in bovine pulmonary artery smooth muscle was studied. 2. These filaments contained at least two polypeptides of 43,000 and 55,000 daltons. 3. The 55,000 dalton polypeptide was purified by ion-exchange chromatography. 4. The amino acid compositions of the polypeptides were determined. 5. The 55,000 dalton polypeptide and a mixture of the 43,000 and 55,000 dalton polypeptide reassembled into structures similar to native intermediate filaments.

Fine structure of human sperm chromatin

The fine structure of human sperm chromatin is revealed by electron microscopy. Human sperm chromatin is characterized by fibers composed of discrete spherical organizational units not unlike somatic nucleosomes. During the decondensation process fibers composed of joined spherical units of both 400-A and 150-A diameters were observed.