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Query: EC:3.1.27.5 (
RNase
)
17,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
For the first time testosterone is shown to be an important regulator of the
insulin-like growth factor-I
(
IGF-I
) in the rat uterus under in vivo conditions. In this study the regulation of
IGF-I
and the estrogen receptor (ER) by gonadal steroids in the uterus and liver of female rats was monitored. The ER level was assayed by hormone binding after treatment with testosterone, 5 alpha-dihydrotestosterone or estradiol and specific mRNA species were analyzed by a solution hybridization/
RNase
protection assay using 35S-labeled RNA probes. Ovariectomized rats restored uterine weight after treatment with testosterone. Uterine
IGF-I
mRNA was more than 20-fold higher in testosterone treated rats compared to untreated ovariectomized controls after 48 h treatment. The effects of testosterone on ovariectomized animals was followed in a timecourse study. Testosterone administration increased uterine
IGF-I
mRNA expression during the first 48 h and the maximally induced level was maintained throughout the duration of the experiment (168 h). Since induction of
IGF-I
mRNA by estrogen is transient, these data indicate that androgen and estrogen increase
IGF-I
mRNA by different mechanisms. Regulation of
IGF-I
mRNA by gonadal steroids was also studied in hypophysectomized animals. The rats were given either testosterone, 5 alpha-dihydrotestosterone or estradiol, and uterine
IGF-I
mRNA was measured after 1 week of treatment. At this timepoint estrogen treated rats showed levels of
IGF-I
mRNA not significantly different from those of hypophysectomized controls. In contrast testosterone and 5 alpha-dihydrotestosterone increased the
IGF-I
mRNA level 30 and 40 times, respectively, relative to hypophysectomized control animals. Since 5 alpha-dihydrotestosterone is not convertable to estrogen, the induction by testosterone was considered to be a true androgenic phenomenon.
...
PMID:Androgen regulation of the insulin-like growth factor-I and the estrogen receptor in rat uterus and liver. 794 51
In uremia, reduced longitudinal growth and decreased hepatic
insulin-like growth factor-I
(
IGF-I
) secretion despite elevated GH serum levels point to an insensitivity to the action of GH. The molecular basis that accounts for this insensitivity could comprise decreased GH receptor expression in the target organs for GH or binding of GH in the circulation to substances that compete with the receptor. To address this hypothesis, the abundance of hepatic GH receptor mRNA was measured by solution hybridization
RNase
protection assay in uremic female Sprague-Dawley rats, following two-stage 5/6 nephrectomy, and in pair-fed and in ad libitum-fed sham-operated controls; rat GH binding protein (GHBP) plasma concentration was measured by a sensitive direct RIA. Uremia was associated with a 50% decrease of hepatic GH receptor expression compared to pair-fed controls, which themselves showed a 25% reduction of hepatic GH receptor mRNA abundance when compared to ad libitum-fed controls. Plasma GHBP levels in uremia were markedly higher than in both control groups. Treatment with recombinant human GH (rhGH) (10 IU/kg body wt per day s.c. for 10 days) led to a comparable induction of
IGF-I
plasma levels and weight gain in uremia and pair-fed controls, indicating that the insensitivity to GH in uremia can be overcome by large rhGH doses. Subcutaneous rhGH injections did not significantly alter the hepatic GH receptor transcript abundance or plasma GHBP levels in any of the groups.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Reduced hepatic growth hormone (GH) receptor gene expression and increased plasma GH binding protein in experimental uremia. 800 78
Autocrine expression of polypeptide growth factors may be important in the growth regulation of cancer cells. Different growth factor activities have been identified in a variety of tumors. This article describes a case of malignant ascites in a patient recently treated for breast cancer. The use of growth factor mRNA expression as a factor to differentiate between breast and ovarian origins of cancer cells contained in malignant ascites was examined. Expression of
insulin-like growth factor-I
(
IGF-I
), IGF-II, and transforming growth factor alpha mRNA was examined by
ribonuclease
protection assay. The tumor cells expressed IGF-II and transforming growth factor alpha, but not
IGF-I
mRNA. This pattern of growth factor expression is compatible with a breast cancer primary of the malignant cells contained in the ascites fluid. Therefore,
IGF-I
mRNA expression may be useful in distinguishing between adenocarcinomas of breast or ovarian origins.
...
PMID:Case report: use of insulin-like growth factor-I gene expression to distinguish between breast and ovarian cancer. 814 Nov 35
Recent results suggest that
insulin-like growth factor-I
(
IGF-I
) may be involved in the transition of a hemodynamic load into cardiac hypertrophy and that the expression of
IGF-I
seems to be coupled to increased wall stress. The present study investigated the role of growth hormone (GH) and
IGF-I
in myocardial hypertrophy induced by volume overload. An aortocaval fistula (ACF) was created in male Wistar rats, and experiments were performed 2, 4, and 7 days after the onset of volume overload. Right and left ventricular (RV and LV, respectively) myocardial expression of GH receptor mRNA and
IGF-I
mRNA were quantitated by a solution hybridization
RNase
protection assay. RV GH receptor mRNA content was elevated on the fourth and seventh days after the induction of the shunt, with peak levels (0.63 +/- 0.16 versus 0.14 +/- 0.03 amol/microgram DNA for the sham-operated animals; P < .01) after 4 days. Similarly,
IGF-I
mRNA was significantly increased in the RV of shunted animals (1.26 +/- 0.13 versus 0.56 +/- 0.05 amol/micrograms DNA; P < .01) 7 days after surgery. In the left ventricle, where systolic pressure was reduced in ACF rats, no differences could be detected in GH receptor and
IGF-I
mRNA content between ACF and sham-operated rats on any of the experimental days. There was no difference in the ratio of RV to LV weight during the experimental period. We have shown that the thin-walled right ventricle responds to volume overload with an increase of GH receptor mRNA content followed by elevated expression of
IGF-I
mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Increased expression of growth hormone receptor mRNA and insulin-like growth factor-I mRNA in volume-overloaded hearts. 820 22
The effects of feed restriction and refeeding on ovarian and hepatic
insulin-like growth factor-I
(
IGF-I
) gene expression, systemic and ovarian
IGF-I
concentrations and on associated metabolic changes were measured in prepubertal gilts. Eleven pairs of littermate gilts (70.7 +/- 4.7 kg) were placed on a maintenance level of feeding for 7 days (days 1-7). On day 8, littermates were either fed at a maintenance level of energy or fed to appetite for a further 6 days. Blood samples were taken on day 13 (07.00-16.00 h) to determine plasma insulin and
IGF-I
, and on day 14 (02.00-06.00 h) to determine plasma GH levels. Following slaughter on day 14, one ovary from each animal was retained to measure follicular fluid
IGF-I
and oestradiol concentrations. The remaining ovary and a sample of liver were retained for
IGF-I
mRNA analysis using a
ribonuclease
protection assay. Six days of refeeding significantly increased plasma
IGF-I
(P < 0.005) and basal insulin (P < 0.05) but there was no effect on plasma GH. Ovarian follicular volume and diameter were significantly larger after refeeding (P < 0.05), with no effect on follicular fluid oestradiol concentrations. Mean follicular fluid
IGF-I
concentrations were unaffected by treatment. However, the relationships between individual follicular
IGF-I
concentrations, absolute follicular fluid
IGF-I
contents and follicle volume were affected by feeding level (P < 0.05). Regression analysis of the same data also revealed that at this stage of maturity, small follicles had greater follicular fluid concentrations of
IGF-I
than larger follicles. Refeeding increased the amount of
IGF-I
mRNA in hepatic but not ovarian tissue. We conclude that there is differential regulation of the
IGF-I
gene in porcine hepatic and ovarian tissues, and that ovarian factors other than, or as well as,
IGF-I
are involved in the regulation of ovarian responses to refeeding.
...
PMID:Ovarian and hepatic insulin-like growth factor-I gene expression and associated metabolic responses in prepubertal gilts subjected to feed restriction and refeeding. 825 87
The present study was designed to evaluate a possible role for the
insulin-like growth factor-I
(
IGF-I
) system in mediating the suppression of growth hormone (GH) secretion observed in food-deprived rats by measuring
IGF-I
mRNA, receptor concentration and receptor mRNA in neuroendocrine tissues (hypothalamus and pituitary). Rats were deprived of food (food-deprived) for 72 h or had free access to food (fed). Tissues were processed for measurement of steady-state levels of: (a)
IGF-I
and IGF-I receptor mRNA (by solution hybridization/
RNase
protection assay); (b)
IGF-I
in serum and tissue extracts (by RIA) and (c)
IGF-I
displaceable [125I]
IGF-I
binding to plasma membrane preparations. Food deprivation resulted in decreased serum and liver levels of
IGF-I
. Kidney
IGF-I
mRNA levels were reduced 80% in food-deprived rats with a concomitant increase in IGF-I receptor concentration and mRNA levels. Refeeding of food-deprived rats fully normalized these perturbations. Pituitary
IGF-I
content was reduced 50% in food-deprived rats while
IGF-I
mRNA levels were unaffected. A modest increase was seen in pituitary IGF-I receptor concentration; however, IGF-I receptor mRNA levels were not changed. Hypothalamic
IGF-I
mRNA content was reduced in 72 h food-deprived rats while IGF-I receptor binding capacity and mRNA were unaffected. In conclusion,
IGF-I
mRNA levels are decreased in liver, kidney and hypothalamus together with a reduction in plasma
IGF-I
in food-deprived rats but is unaffected in anterior pituitary. IGF-I receptor gene expression and binding capacity are coordinately regulated in kidney and hypothalamus, but not in the pituitary.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Pituitary and hypothalamic insulin-like growth factor-I (IGF-I) and IGF-I receptor expression in food-deprived rats. 834 28
Osteoblast-enriched (Ob) cultures isolated from fetal rat bone synthesize
insulin-like growth factor-I
(
IGF-I
), which functions as a locally acting growth and differentiation factor in the skeleton. Consistent with prior studies demonstrating that
IGF-I
production is enhanced in bone by agents that induce cAMP, prostaglandin E2 (PGE2) stimulates both cAMP synthesis and
IGF-I
mRNA in Ob cells. However, little is known about how cAMP regulates
IGF-I
expression in this or any other cell system. In rat tissues, multiple mechanisms influence levels of
IGF-I
mRNA, including transcription from two promoters, differential RNA splicing and stability, and alternative RNA polyadenylation. To determine how cAMP influences
IGF-I
gene expression in Ob cultures, we examined the responses of these cells to treatment with PGE2. PGE2 rapidly enhanced the accumulation of both large and small
IGF-I
transcripts, with increases in
IGF-I
mRNA detected within 2 h of treatment and persisting for 24 h. Analysis of precursor RNA by a highly specific and sensitive
ribonuclease
protection assay demonstrated a rise in nascent
IGF-I
mRNA within 30 min of exposure to PGE2, with a peak stimulation of 4-fold above control levels seen by 2 h and levels remaining elevated for up to 24 h.
IGF-I
transcripts in Ob cells were directed only by promoter 1, the more 5' of the two rat
IGF-I
gene promoters. As additionally assessed using the RNA polymerase II inhibitor 5,6-dichloro-1-beta-D-ribofuranosyl benzimidazole, PGE2 treatment had little effect on
IGF-I
mRNA stability. In aggregate, these studies show that in fetal rat Ob cultures, PGE2 enhances
IGF-I
gene expression primarily through transcriptional mechanisms that are limited to a single
IGF-I
gene promoter. Ob cells, therefore, may be an excellent model for determining how cAMP regulates
IGF-I
gene transcription.
...
PMID:Prostaglandin E2 rapidly stimulates insulin-like growth factor-I gene expression in primary rat osteoblast cultures: evidence for transcriptional control. 839 6
Hemopoietic cells have been reported to synthesize
insulin-like growth factor-I
(
IGF-I
) messenger RNA (mRNA), but the relative contribution of specific cell lineages that express these transcripts remains unknown. Reverse transcription and amplification of complementary DNA (cDNA) by the polymerase chain reaction were used to characterize full-length
IGF-I
mRNA transcripts in murine hemopoietic cells. The identity of transcripts encoding the entire prepropeptide was confirmed by restriction endonuclease digestion, Southern blotting, cloning, and Sanger sequencing. Abundance of
IGF-I
mRNA transcripts was assessed both by Northern blotting and sensitive
ribonuclease
protection assays followed by quantification with Phosphor-Imager analysis. Whereas
IGF-I
cDNA transcripts could be detected in a variety of leukocytes after polymerase chain reaction amplification,
IGF-I
mRNA was negligible or nondetectable in T and B cell lines and in those tissues containing a predominance of these cell types (e.g. spleen and thymus) by Northern blotting and
ribonuclease
protection assays. In contrast, elicited peritoneal macrophages, a macrophage cell line, microglia, and bone marrow macrophages differentiated in vitro expressed abundant
IGF-I
mRNA transcripts, whereas neither a premyeloid cell line nor freshly isolated bone marrow cells expressed significant transcripts. The 5'-identity of macrophage
IGF-I
transcripts was established using an exon 2-derived
IGF-I
cDNA probe. All protected transcripts were foreshortened, indicating transcript initiation exclusively within exon 1, characteristic of extra-hepatic
IGF-I
mRNA. However, at the 3'-end, both
IGF-I
Ea (lacking exon 5) and
IGF-I
Eb (containing exon 5) mRNA transcripts were evident, with the Eb product being detected at levels similar to those present in hepatic cellular RNA. A large molecular size (26 kilodaltons) prepro-
IGF-I
peptide was also detected in macrophage cell lysates by Western blotting. Collectively, our observations show that: 1) among hemopoietic cells, myeloid rather than lymphoid cells are the major source of
IGF-I
; 2) macrophage
IGF-I
mRNA consists of class I Ea and Eb transcripts; 3) these transcripts are translated into protein; and 4) expression of
IGF-I
is directly associated with differentiation of bone marrow macrophages.
...
PMID:Murine macrophages express abundant insulin-like growth factor-I class I Ea and Eb transcripts. 840 86
Linear growth retardation is common in uncontrolled insulin-deficient diabetes, but individual organs such as kidney may hypertrophy. To explore whether this heterogeneity of response might be mediated by differential local
insulin-like growth factor-I
(
IGF-I
) gene regulation, we injected rats with ip saline, 65, 120, or 175 mg/kg streptozotocin (STZ). Diabetics were untreated or received daily insulin. Animals were killed 24, 48, or 72 h after documentation of diabetes, and liver, kidney, and lung messenger RNA (mRNA) content analyzed by solution hybridization/
RNase
protection assay. Untreated diabetics had 10- to 100-fold reductions in hepatic
IGF-I
mRNA apparent as early as 24 h, and the magnitude of these changes varied directly with the severity of diabetes. In contrast, kidney
IGF-I
mRNA content increased by 400-500% at 24 h in untreated diabetics given 175 mg/kg STZ, and by 100-200% at 48 h in those given 120 mg/kg STZ, with return to control levels by 72 h. Renal
IGF-I
mRNA levels actually decreased by 250-350% at 24 h in rats injected with 65 mg/kg STZ, returning to supranormal values by 72 h. These results suggest that severity and/or duration of the metabolic abnormality qualitatively and quantitatively affect this response in the kidney. Liver and kidney
IGF-I
mRNA levels approached normal with insulin therapy and were similar to controls in rats which received STZ but did not develop diabetes. Lung
IGF-I
mRNA levels were minimally altered in all experimental groups. At the time point and STZ dosage at which liver
IGF-I
mRNA changes were most dramatic, little change in liver alpha-tubulin mRNA was noted. At the time point and STZ dosages at which kidney
IGF-I
mRNA induction was most dramatic, renal IGF-I receptor mRNA was only minimally changed, and renal alpha-tubulin mRNA was modestly reduced. In summary: 1) hepatic
IGF-I
mRNAs are dramatically reduced, and renal
IGF-I
mRNAs are significantly increased soon after the onset of insulin-deficient diabetes in STZ-treated rats; 2) insulin therapy restores
IGF-I
mRNA levels toward normal; and 3) these changes in
IGF-I
mRNA content are specific and are not the result of hepatic or renal STZ toxicity. These data suggest that
IGF-I
gene expression is regulated in a discordant, organ-specific manner in diabetes, and that metabolic factors in addition to GH may differentially modulate the endocrine and paracrine effects of
IGF-I
on growth.
...
PMID:Discordant, organ-specific regulation of insulin-like growth factor-I messenger ribonucleic acid in insulin-deficient diabetes in rats. 842 71
In the mammalian
insulin-like growth factor-I
(
IGF-I
) gene, exons 1 and 2 are differentially spliced to exon 3 producing alternate class 1 and class 2 transcripts. The aim of this study was to investigate the tissue expression of these leader exons in lambs growing at different rates as a result of chronic manipulation of nutritional and GH status. Riboprobes were developed so that leader exon-specific and total
IGF-I
gene expression could be determined using a single
RNase
protection assay. Lambs were fed a diet containing high or low protein content either ad libitum or at a restricted intake; within these dietary groups they were treated with either saline or GH for 10 weeks. Total hepatic
IGF-I
messenger RNA (mRNA) transcripts were significantly increased by GH (P = 0.004), protein (P = 0.002), and energy (P < 0.001) status as were circulating
IGF-I
concentrations (GH, P < 0.001; protein, P = 0.026; energy, P < 0.001). Exons 1 and 2 were expressed in liver but to a variable extent. Increased dietary energy and protein induced increased expression from both class 1 and 2 transcripts, but the percent increases was at least 5-fold greater for class 2 than for class 1 mRNA. GH treatment only stimulated significant increases in expression from class 2 transcripts. In the low protein, energy-restricted, saline-treated lambs exon 1 transcripts accounted for approximately 70% of total class 1 and 2 transcripts, and this proportion declined significantly as class 1 and 2 transcripts, and this proportion declined significantly as GH and nutritional status increased to only 30% in the high protein, ad libitum-fed, GH-treated animals; class 2 transcripts therefore displayed the opposite pattern of expression. These data indicate that exon 2 may be far more sensitive than exon 1 in intact animals which have been stimulated within normal physiological limits. Muscle
IGF-I
gene expression was at least 20-fold less than that for the liver and consisted mainly of class 1 transcripts. Muscle total
IGF-I
mRNA was insensitive to changed nutritional status or to GH treatment, even though significant increases in muscle growth occurred in response to ad libitum intake and GH, indicating that hepatically derived endocrine
IGF-I
could have a role in the regulation of muscle growth.
...
PMID:Differential regulation of transcription initiation from insulin-like growth factor-I (IGF-I) leader exons and of tissue IGF-I expression in response to changed growth hormone and nutritional status in sheep. 846 77
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