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Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The process of liver regeneration involves the concerted action of certain growth factors, which stimulate hepatocyte proliferation, and other antiproliferative factors, which prevent uncontrolled growth of this organ. Some of the biological actions of insulin-like growth factor-II (IGF-II), a mitogenic polypeptide closely related to insulin, may be mediated by the
IGF-II receptor
. This receptor consists of a single chain extracellular domain and a very small cytoplasmic domain, and can bind lysosomal enzymes that contain mannose-6-phosphate (M-6-P) residues. Since these enzymes may be involved in remodelling processes in certain tissues, we measured the expression of the IGF-II/M-6-P receptor in the liver after subtotal hepatectomy. Binding of [125I]IGF-II to crude plasma membranes from regenerating liver was maximal 2 days after hepatectomy (4.9% specific binding/60 micrograms protein) and subsequently decreased. Both control livers (livers removed at the time of operation) and sham-operated control livers demonstrated specific [125I]IGF-II binding of 1.1% throughout the experimental period. This increase in binding in regenerating liver was shown to be associated with an increase in the concentration of
IGF-II receptor
protein by means of Western blot analysis using a polyclonal anti-IGF-II/M-6-P receptor antiserum (3637). Similarly, steady state levels of IGF-II/M-6-P receptor mRNA, measured by solution hybridization/
RNase
protection assays, were significantly increased in the regenerating liver (2.0-fold over the control value 2 days after hepatectomy). Five and 10 days postsurgery, the levels of
IGF-II receptor
mRNA were markedly reduced, and they were even lower than the levels in control livers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Liver regeneration is associated with increased expression of the insulin-like growth factor-II/mannose-6-phosphate receptor. 217 19
The major excreted protein of transformed mouse fibroblasts (MEP) has recently been identified as the lysosomal cysteine protease, cathepsin L. The synthesis and intracellular trafficking of this protein in mouse fibroblasts are regulated by growth factors and malignant transformation. To further define the basis for this regulation, a cDNA encoding MEP/cathepsin L was isolated from a mouse liver cDNA library and used to compare cathepsin L of normal and Kirsten sarcoma virus-transformed NIH 3T3 fibroblasts. Although cathepsin L message levels were elevated 20-fold in the transformed fibroblasts, normal and transformed cells displayed similar cathepsin L genomic DNA digest patterns and gene copy numbers, and cathepsin L mRNA sequences appeared identical by
RNase
protection analysis. These findings indicate that (i) cathepsin L is synthesized from the same gene in normal and transformed cells and (ii) cathepsin L polypeptides made by these cells are translated with the same primary sequence. Cathepsin L polypeptides synthesized by quiescent, growing, and transformed cells displayed similar isoelectric focusing patterns, suggesting similar post-translational modification. Site-directed mutagenesis of the mouse liver cDNA and expression in COS monkey cells was used to examine the glycosylation of mouse cathepsin L. The results indicated that only one of the two potential N-linked glycosylation sites (the one at Asn221) is glycosylated. Analysis by ion exchange chromatography on QAE-Sephadex, and affinity chromatography on
mannose 6-phosphate receptor
-Affi-Gel 10, indicated that the cathepsin L oligosaccharide was phosphorylated similarly in normal and transformed cells. Although several phosphorylated oligosaccharide species were observed, the major species contained two phosphomonoester moieties and bound efficiently to the receptor. These findings suggest that cathepsin L made by normal and transformed mouse fibroblasts are identical and substantiate the hypothesis that trafficking of cathepsin L in these cells is regulated by growth-induced changes in the lysosomal protein transport system.
...
PMID:Comparison of cathepsin L synthesized by normal and transformed cells at the gene, message, protein, and oligosaccharide levels. 227 56
Insulin-like growth factor-II (IGF-II) and lysosomal enzymes bearing the mannose 6-phosphate (Man6P) recognition marker, bind to two distinct binding sites of the IGF-II/
M6P
receptor. The two classes of ligands reciprocally modulate the binding of the other class of ligand to the receptor [Kiess, W., Thomas, C. L., Greenstein, L., Lee, L., Sklar, M. M., Rechler, M. M., Sahagian, G. G. & Nissley, S. P. (1989) J. Biol. Chem. 264, 4710-4714]. We asked whether or not overexpression of pro-IGF-II by cells in culture leads to missorting of lysosomal enzymes. Human embryonal kidney fibroblasts were transfected with the full-length human IGF-II cDNA or a control cDNA. Solution hybridization/
RNase
protection experiments using a human IGF-II riboprobe showed that two transfectants expressed large quantities of IGF-II mRNA, whereas the non-transfected cells did not. The analysis of conditioned media revealed that these cells secrete approximately 0.15 micrograms and 1.0 micrograms immunoreactive IGF-II/ml and 22 x 10(6) cells and 24 x 10(6) cells within 24 hours. Immunoreactive IGF-II was shown by Western blotting to represent 17-kDa pro-IGF-II. The amount of the lysosomal enzyme, beta-hexosaminidase, was approximately twofold increased in the conditioned media from pro-IGF-II overexpressing cells compared with control media, as shown by Western-blot analysis and immunoprecipitation of media extracts of metabolically labeled cells. The synthesis rate of beta-hexosaminidase was not affected by pro-IGF-II overexpression. In addition, the basal amount of another newly synthesized lysosomal enzyme, the cathepsin D precursor, was also twofold higher in pro-IGF-II overexpressing cells than in control cells. In contrast, the surface binding and cellular uptake rate of a Man6P-containing neoglycoprotein did not differ between the cell lines. The results indicate that the overexpression of pro-IGF-II doubles the secretion and/or reduces the re-uptake of beta-hexosaminidase and cathepsin D to approximately 20% of the total synthesized enzymes in human embryonal kidney fibroblasts compared to control cells. We hypothesize that, in cells synthesizing high amounts of pro-IGF-II, the growth factor may modulate the targeting of a portion of lysosomal enzymes, mainly by partially enhancing the secretion of newly synthesized enzymes and, in addition, possibly by affecting the re-uptake mechanism.
...
PMID:Does the overexpression of pro-insulin-like growth factor-II in transfected human embryonic kidney fibroblasts increase the secretion of lysosomal enzymes? 755 47
Glucocorticoids have a number of effects on bone cell function, some of which might be mediated by changes in the synthesis or activity of insulin-like growth factors (IGFs). Glucocorticoids inhibit IGF-I, but not IGF-II, synthesis in osteoblasts and decrease the expression of selected IGF-binding proteins. The effects of glucocorticoids on IGF-I and -II receptor messenger RNA (mRNA) expression in osteoblasts are not known, and changes in IGF-I or -II receptor levels could result in changes in IGF activity. We examined the effects of glucocorticoids on IGF-I and -II receptor mRNA expression in cultures of osteoblast-enriched cells from 22-day-old fetal rat calvariae (Ob cells). Cortisol at 1 microM for 2-48 h did not alter IGF-I receptor transcripts, as determined by Northern blot analysis and
ribonuclease
protection assay. In contrast, cortisol caused a time- and dose-dependent inhibition of
IGF-II receptor
mRNA levels. The effect was maximal at 0.1-1 microM for 24-48 h and was accompanied by a decrease in
IGF-II receptor
levels, as determined by affinity labeling, cross-linking and polyacrylamide gel electrophoresis, Western immunoblot, and Scatchard analysis. The effect of cortisol on
IGF-II receptor
transcripts was not dependent on de novo protein synthesis. Cortisol did not modify the
IGF-II receptor
mRNA half-life in transcriptionally arrested Ob cells and decreased the rate of
IGF-II receptor
RNA transcription in nuclear run-on assays. In conclusion, cortisol decreases transcription of the
IGF-II receptor
in Ob cell cultures, an effect that could mediate selected actions of glucocorticoids in bone.
...
PMID:Cortisol represses insulin-like growth factor II receptor transcription in skeletal cell cultures. 766 43
The first indication that the insulin-like growth factor-II/
mannose 6-phosphate receptor
(IGF-II/M6PR) is developmentally regulated came from studies of the serum form of the receptor in the rat. By immunoblotting, the circulating form of the receptor, which was 10 kDa smaller than the tissue receptor, was high in 19 day fetal and 3, 10, and 20 day postnatal sera and then declined sharply. We next used quantitative immunoblotting to measure the total tissue IGF-II/M6PR in the rat. The receptor levels were high in fetal tissues and in most tissues declined dramatically in late gestation and/or in the early postnatal period. The rank order of receptor expression was heart > placenta > lung = intestine > muscle = kidney > liver > brain. In heart, the receptor was 1.7% of total protein in the extract. More recently, we have examined the expression of IGF-II/M6PR mRNA using Northern blotting and a solution hybridization/
RNase
protection assay. The rank order of receptor mRNA concentration among fetal tissues agreed with the rank order of receptor protein. The concentration of receptor mRNA was significantly lower in postnatal tissue than in fetal tissue. Thus IGF-II/M6PR mRNA concentration is an important determinant of receptor protein in most tissues. What is the function of the IGF-II/M6PR in embryonic and fetal tissues? The M6PR in birds and frogs does not bind IGF-II. It is intriguing that the rat IGF-II/M6PR is prominent during the embryonic and fetal periods, times at which the differences between mammals, on the one hand, and frogs and birds, on the other, are most striking.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Developmental expression of the IGF-II/mannose 6-phosphate receptor. 839 20
The insulin-like growth factor-II/cation-independent
mannose 6-phosphate receptor
(IGF-II/MPR) is a multifunctional protein that binds IGF-II and ligands containing a mannose 6-phosphate recognition marker. Recent studies have shown that this receptor plays a critical role in mammalian development, and that its expression is controlled by both epigenetic and tissue-specific factors. Our laboratory has cloned the 93-kilobase mouse gene and characterized its 48 exons. In this report we describe the structure and function of the IGF-II/MPR gene promoter. To study promoter function, a series of chimeric plasmids linking different segments of IGF-II/MPR 5' flanking DNA to the reporter gene, firefly luciferase, were transiently transfected into HepG2 and C3H 10T1/2 cells. Promoter activity was orientation-specific and was maximal (550- to 4250-fold above promoterless control) with a plasmid containing 266 base pairs (bp) of IGF-II/MPR DNA. The fusion gene accurately directed transcription as measured by
ribonuclease
protection assay using RNA extracted from transfected cells. DNA-protein binding studies by in vitro DNase I footprinting revealed an extended 54-bp footprint within the proximal promoter that contained two E-boxes and potential binding sites for transcription factors Sp1, NGF-IA, and related proteins. Gel mobility shift experiments with double-stranded oligonucleotides containing this region gave rise to several specific DNA-protein complexes, and the addition of specific antibodies indicated that proteins antigenically related to Sp1 and c-Myc were components of one or more of these bands. Deletion of this 54-bp segment led to an 8-fold decline in promoter activity, and its transfer to a heterologous promoter stimulated gene expression by nearly 7-fold. Mutational analyses indicated that each E box contributed to more than half of the enhancer's activity. These results define a strong minimal IGF-II/MPR promoter of no more than 266 bp and identify a 54-bp enhancer within this promoter fragment. Our observations thus represent a first step toward characterizing the developmental, epigenetic, and tissue-specific factors that control IGF-II/MPR gene expression.
...
PMID:Control of insulin-like growth factor-II/mannose 6-phosphate receptor gene transcription by proximal promoter elements. 858 25
The IGFs have been implicated in the development of the intestinal tract. We have studied the human colon carcinoma cell line CaCo-2 to gain more insight into the function of the IGFs in the gut. [125I]IGF-I and -II bound specifically to CaCo-2 cells as measured in competitive binding experiments. The existence of IGF-I receptors was further demonstrated by affinity crosslinking studies using DSS as the crosslinking agent. Western blotting of CaCo-2 cell extracts using an anti IGF-II/
M6P
receptor antiserum provided additional evidence for the expression of the IGF-II/
M6P
receptor. In addition, Northern blotting experiments showed specific IGF-I receptor and IGF-II/
M6P
receptor gene expression in CaCo-2 cells. An 11 kb band was visualized with a 614 bp PstI IGF-I receptor probe on autoradiographs. Hybridization with a 663 bp IGF-II/
M6P
receptor probe yielded a 9 kb RNA species. Analysis of CaCo-2 cell RNA using solution hybridization/
RNase
protection assays yielded two protected fragments, approximately 379 bases in length, with a 394 base IGF-I receptor riboprobe and a 250 base protected fragment with a 260 base IGF-II/
M6P
receptor riboprobe. In a subset of experiments a PstI 700 base fragment of the IGF-I cDNA and a 554 base SalI fragment of the IGF-II cDNA were used for hybridization: no hybridization was detected with the IGF-I probe. However, using the [32P]IGF-II probe bands at 6.0 and 5.0 kb were labeled in Northern blotting experiments. Analysis of CaCo-2 cell RNA using solution hybridization/
RNase
protection assays yielded a 289 base protected fragment and a faint 534 base species with a 556 base human IGF-II riboprobe. In addition, IGF-II immunoreactivity was measured in CaCo-2 cell-conditioned medium using an IGF-binding protein blocked radioimmunoassay. CaCo-2 cell-conditioned medium contained 5-15 ng/ml IGF-II immunoreactivity. In conclusion, (1) CaCo-2 cells express both IGF-I receptor mRNA and IGF-II/
M6P
receptor mRNA and contain functional IGF-I receptor and IGF-II/
M6P
receptor protein. (2) CaCo-2 cells express IGF-II mRNA and secrete IGF-II immunoreactivity. We hypothesize that in human colon carcinoma cells IGF-II could act as an autocrine growth factor or alternatively could serve as a regulatory factor during differentiation.
...
PMID:Human colon carcinoma cells (CaCo-2) synthesize IGF-II and express IGF-I receptors and IGF-II/M6P receptors. 939 46
The B10/B10.A congenic mouse pair serves as a model for identifying specific genes related to morphogenesis and dysmorphogenesis of the embryonic palate and other organs. The present report describes our initial investigation of the Fraser-Juriloff paradigm, which proposes that susceptibility to malformation results from genetically determined differences in normal developmental patterns. Specifically, we evaluated the relationship between Igf2r gene expression, transforming growth factor-beta (TGF-beta) activation, and cdk4 gene expression. By using in situ hybridization,
RNase
protection assays, indirect immunofluorescence, Western blots, and bioassays, we show 1) the presence of insulin-like growth factor II (IGF-II),
IGF-II receptor
(IGF-IIR), IGF-IR, TGF-beta, plasminogen, plasminogen activators [urokinase plasminogen activator (uPA) and tissue plasminogen activator (tPA)], and Cdk4 in developing palates; 2) on embryonic day 14 (E14), which is a critical day for palatal growth, B10.A embryos have 82% greater IGF-IIR mRNA than B10; 3) on E14, B10.A embryonic palates have a 57% greater level of active TGF-beta2 than B10, although the total TGF-beta2 is nearly identical; and 4) on E14, B10 embryonic palates have a 52% greater level of Cdk4 mRNA than B10.A palates, a measure of cell cycle progression. Because cellular activation of latent TGF-beta appears to require binding to the mannose-6-phosphate (M6P) binding site of the IGF-IIR and is plasmin and plasminogen activator dependent, the positive correlation of IGF-IIR levels and active TGF-beta2 levels seems to be key. Thus, the strain variation of TGF-beta2/IGF-IIR-mediated growth inhibition in late G1 phase would appear to account for the slower growth and development of B10.A palates relative to B10. Elevated corticosteroid (CORT) exposure in E14 B10.A embryos significantly increases TGF-beta levels, 87% of which is TGF-beta2, as well as the levels of active TGF-beta, 64% of which is TGF-beta2. Without exogenous CORT, B10.A embryos do not have clefts; hence, we present an outline of pathogenesis: slower growing B10.A embryos have an up-regulation of IGF-IIR, which serves to sequester IGF-II from the growth-promoting IGF-IR and to bind more CORT-up-regulated, latent TGF-beta2 for subsequent plasmin-dependent activation; higher levels of TGF-beta2 signaling down-regulate Cdk4 and result in greater palatal growth inhibition at a critical stage of palatogenesis and, thus, cleft palate. We present an epigenetic model of information processing related to cell proliferation. The model is a dynamical network that uses continuous logic to learn its rules from changing conditions.
...
PMID:Insulin-like growth factor II receptor, transforming growth factor-beta, and Cdk4 expression and the developmental epigenetics of mouse palate morphogenesis and dysmorphogenesis. 943 20
