Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 invasive property of trophoblast cells is dependent on the activity of proteolytic enzymes of the metallo- and serine proteases family. Interleukin-1 (IL-1) was found to be involved in the regulation of these proteases in various systems, serving as an important modulator in trophoblast physiology (e.g. induction of hCG beta, cytokines, and others). Therefore, consideration is given in this report to the role of IL-1 in the regulation of metalloprotease activity in human trophoblasts. Human trophoblast cells were isolated from first trimester placentas by trypsin degradation and Percoll fractionation. Primary cell cultures of first trimester trophoblasts constitutively elaborated two species of collagenase type IV (92 and 72 kDa), as assessed in gelatin matrix. Treatment with IL-1 further augmented the 92-kDa type IV collagenase secretion in a dose-dependent manner. Furthermore, IL-1 significantly (P < 0.01) increased 92-kDa collagenase gene expression by trophoblast cells, as determined by solution hybridization/ribonuclease protection assay. Both the increase in gene expression and protein biosynthesis of the 92-kDa collagenase type IV were neutralized by the soluble IL-1 receptor, indirectly suggesting a receptor-mediated response. Interestingly, transforming growth factor-beta a putative modulator of IL-1 induced effects, was shown to induce the 92-kDa collagenase type IV secretion as well. These results provide indirect evidence supporting the idea that IL-1 and transforming growth factor-beta may play an intermediary role in trophoblast invasion at the feto-maternal interface by regulating trophoblast expression of 92-kDa type IV collagenase, a protease of prime importance in trophoblast invasion.
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PMID:Cytokine-mediated regulation of type IV collagenase expression and production in human trophoblast cells. 876 80

In previous studies using specific G alpha s antibodies we have identified several human myometrial G alpha s protein isoforms with molecular masses of 45, 46, 47, 54, and 58 kDa, respectively. During pregnancy, levels of the 46- and 54-kDa proteins are significantly increased compared to those in nonpregnant myometrium and then decreased at the onset of labor. In this study we investigated the expression of G alpha s messenger ribonucleic acid (mRNA) splice variants, which are generated as a result of alternative splicing of a single mRNA precursor, in term pregnancy and parturition to determine whether there was any correlation with the observed changes in G alpha s protein isoforms. A myometrial G alpha s complementary DNA was synthesized using RT-PCR and cloned into pCRtmII suitable for preparation of riboprobes for use in ribonuclease protection assays. Using this technique, we identified at least three myometrial G alpha s mRNAs, including two forms of G alpha s-Large (with or without the serine at amino acid 87) and one form of G alpha s-Small (with the serine at amino acid 72). G alpha s Small (with the serine) and G alpha s-Large (with the serine) mRNAs encode for the 46- and 54-kDa G alpha s protein isoforms, respectively, and were increased in term pregnancy and then subsequently decreased after the onset of labor. Our data suggest that posttranscriptional regulation of G alpha s mRNAs may be important in the differential expression of G alpha s protein isoforms during pregnancy and labor.
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PMID:Human myometrial G alpha s-small (with serine) and Gs-large (with serine) messenger ribonucleic acid splice variants promote the increased expression of 46- and 54-kilodalton G alpha s protein isoforms in pregnancy and their down-regulation during labor. 877 78

Receptor serine-threonine kinases (RSTK) mediate inhibitory as well as stimulatory signals for growth and differentiation by binding to members of the transforming growth factor-beta (TGF-beta) superfamily. Over 12 different RSTKs have been isolated so far, displaying wide expression in peripheral tissues and in the nervous system. Here we report the isolation and characterization of a novel type I RSTK termed activin receptor-like kinase-7 (ALK-7) that, unlike other members of this receptor family, is predominantly expressed in the adult central nervous system. The ALK-7 gene encodes a 55-kDa cell-surface protein that exhibits up to 78% amino acid sequence identity in the kinase domain to previously isolated type I receptors for TGF-beta and activin. In the extracellular domain, however, ALK-7 is more divergent, displaying comparable similarities with all members of the ALK subfamily. RNase protection and in situ hybridization studies demonstrated a highly specific mRNA distribution restricted to neurons in several regions of the adult rat central nervous system, including cerebellum, hippocampus, and nuclei of the brainstem. Receptor reconstitution and cross-linking experiments indicated that ALK-7 can form complexes with type II RSTKs for TGF-beta and activin in a ligand-dependent manner, although direct binding of ALK-7 to ligand in these complexes could not be demonstrated. The specific expression pattern of ALK-7, restricted to the postnatal central nervous system, indicates that this receptor may play an important role in the maturation and maintenance of several neuronal subpopulations.
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PMID:A novel type I receptor serine-threonine kinase predominantly expressed in the adult central nervous system. 894 33

We have shown previously that expression of 46 and 54 kDa human myometrial G alpha s protein isoforms is increased during gestation and then subsequently decreased during labour. These proteins appear to be coded for by G alpha s-Small (with a serine residue at position 72) and G alpha s-Large (with a serine residue at position 87) mRNA splice variants respectively. In the study presented here we have used a G alpha s cDNA template to generate [32P]cytidine cRNA riboprobes for use in RNase protection assays, so as to measure total myometrial G alpha s mRNA levels in relation to the pattern of expression of G alpha s mRNA splice variants during pregnancy and labour. We report that total levels of human myometrial G alpha s mRNA remain similar in non-pregnant and pregnant women but are substantially reduced during parturition. Our data also provide strong evidence that alternative splicing of G alpha s precursor mRNA has a primary role in regulating expression of G alpha s protein isoforms during pregnancy and labour. The inclusion of an additional serine codon in G alpha s mRNAs during pregnancy involves a switch in alternative splicing pathways. We speculate that this switch may be due to a change in specificity of splicing factors that are modulated during pregnancy and labour.
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PMID:Expression of human myometrial G alpha s messenger ribonucleic acid transcript during pregnancy and labour: involvement of alternative splicing pathways. 906 3

Granulosa cells are essential for follicular development and corpus luteum formation and their functions are regulated by gonadotrophins through G protein-coupled receptors. The dominant second messenger pathway involves the stimulation of cyclic AMP formation by G alpha s-linked receptors. In this paper we have investigated the expression of G alpha s mRNA splice variants in relation to expression of G alpha s protein isoforms in granulosa cells obtained from patients undergoing in vitro fertilization. We have carried out ribonuclease protection assays using cRNA riboprobes which are capable of detecting all G alpha s mRNA isoforms as well as quantifying total amounts of G alpha s mRNA. Granulosa cells express the message for G alpha s-Large and G alpha s-Small and the presence of two distinct protein products was confirmed by immunoblotting using the antibody RM/1. Moreover, the data show that a significant fraction of G alpha s-Large and G alpha s-Small mRNAs contain an extra CAG codon. This should generate proteins with an extra serine residue, resulting in G alpha s variants with the consensus sequence of a protein kinase C phosphorylation site. These results highlight the possible interaction between different signalling pathways in the control of cAMP production and the need to investigate the relationship between G alpha s variants and different adenylyl cyclase isozymes in patients with normal and abnormal ovarian function.
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PMID:Identification of G alpha s messenger ribonucleic acid splice variants in human granulosa cells. 906 4

The arrangement of the Escherichia coli serC (pdxF) and aroA genes into a cotranscribed multifunctional operon allows coregulation of two enzymes required for the biosynthesis of L-serine, pyridoxal 5'-phosphate, chorismate, and the aromatic amino acids and vitamins. RNase T2 protection assays revealed two major transcripts that were initiated from a promoter upstream from serC (pdxF). Between 80 to 90% of serC (pdxF) transcripts were present in single-gene mRNA molecules that likely arose by Rho-independent termination between serC (pdxF) and aroA. serC (pdxF)-aroA cotranscripts terminated at another Rho-independent terminator near the end of aroA. We studied operon regulation by determining differential rates of beta-galactosidase synthesis in a merodiploid strain carrying a single-copy lambda[phi(serC [pdxF]'-lacZYA)] operon fusion. serC (pdxF) transcription was greatest in bacteria growing in minimal salts-glucose medium (MMGlu) and was reduced in minimal salts-glycerol medium, enriched MMGlu, and LB medium. serC (pdxF) transcription was increased in cya or crp mutants compared to their cya+ crp+ parent in MMGlu or LB medium. In contrast, serC (pdxF) transcription decreased in an lrp mutant compared to its lrp+ parent in MMGlu. Conclusions obtained by using the operon fusion were corroborated by quantitative Western immunoblotting of SerC (PdxF), which was present at around 1,800 dimers per cell in bacteria growing in MMGlu. RNase T2 protection assays of serC (pdxF)-terminated and serC (pdxF)-aroA cotranscript amounts supported the conclusion that the operon was regulated at the transcription level under the conditions tested. Results with a series of deletions upstream of the P(serC (pdxF)) promoter revealed that activation by Lrp was likely direct, whereas repression by the cyclic AMP (cAMP) receptor protein-cAMP complex (CRP-cAMP) was likely indirect, possibly via a repressor whose amount or activity was stimulated by CRP-cAMP.
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PMID:Maximization of transcription of the serC (pdxF)-aroA multifunctional operon by antagonistic effects of the cyclic AMP (cAMP) receptor protein-cAMP complex and Lrp global regulators of Escherichia coli K-12. 917 88

Major histocompatibility complex class II (MHC-II) molecules present peptide antigens to CD4-positive T cells and are of critical importance for the immune response. The MHC-II transactivator CIITA is essential for all aspects of MHC-II gene expression examined so far and thus constitutes a master regulator of MHC-II expression. In this study, we generated and analyzed mutant CIITA molecules which are able to suppress endogenous MHC-II expression in a dominant negative manner for both constitutive and inducible MHC-II expression. Dominant negative CIITA mutants were generated via specific restriction sites and by functional selection from a library of random N-terminal CIITA deletions. This functional selection strategy was very effective, leading to strong dominant negative CIITA mutants in which the N-terminal acidic and proline/serine/threonine-rich regions were completely deleted. Dominant negative activity is dependent on an intact C terminus. Efficient repression of endogenous MHC-II mRNA levels was quantified by RNase protection analysis. The quantitative effects of various dominant negative CIITA mutants on mRNA expression levels of the different MHC-II isotypes are very similar. The optimized dominant negative CIITA mutants isolated by functional selection should be useful for in vivo repression of MHC-II expression.
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PMID:Efficient repression of endogenous major histocompatibility complex class II expression through dominant negative CIITA mutants isolated by a functional selection strategy. 923 82

The transaminase activity of two new semisynthetic RNase-S proteins incorporating a pyridoxamine moiety at the active site has been evaluated. A chemically competent derivative of pyridoxamine phosphate was incorporated into the C-peptide fragments of these non-covalent protein complexes in the form of an unnatural coenzyme-amino acid chimera, 'Pam'. The chimeric Pam residue integrates the heterocyclic functionality of pyridoxamine phosphate into the side chain of an alpha-amino acid and was introduced instead of Phe8 into the C-peptide sequence via standard solid phase methodology. The two semisynthetic Pam-RNase constructs were designed to probe whether the native ribonuclease catalytic machinery could be enlisted to modulate a pyridoxamine-dependent transamination reaction. Both RNase complexes, H1SP and S1SP, exhibited modest rate enhancements in the Cu(II)-assisted transamination of pyruvate to alanine under single turnover conditions, relative to 5'-deoxypyridoxamine and the uncomplexed C-peptide fragments. Furthermore, multiple turnovers of substrates were achieved in the presence of added L-phenylalanine due to recycling of the pyridoxamine moiety. The modest chiral inductions observed in the catalytic production of alanine and the differences in reactivity between the two proteins could be rationalized by the participation of a general base (His12) in complex H1SP, and by the increased tolerance for large amino acid substrates by complex S1SP, which contains serine at this position. The pyridoxamine-amino acid chimera will be useful in the future for examining the coenzyme structure/ function relationships in a native-like peptidyl architecture.
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PMID:Pyridoxamine-amino acid chimeras in semisynthetic aminotransferase mimics. 927 83

hGrb10alpha (previously named Grb-IR) is a Src-homology 2 domain-containing protein that binds with high affinity to the tyrosine-phosphorylated insulin receptor and insulin-like growth factor-1 receptor. At least two isoforms of human Grb10, (hGrb10alpha and hGrb10beta), which differ in the pleckstrin homology (PH) domain and the N-terminal sequence, have previously been identified in insulin target tissues such as human skeletal muscle and fat cells. Here we report the cloning of the third isoform of the hGrb10 family (hGrb10gamma) from human skeletal muscle and its localization to human chromosome 7. We have also determined the human chromosome localization of Grb7 to 17q21-q22 and Grb14 to chromosome 2. hGrb10gamma contains an intact PH domain and an N-terminal sequence that is present in hGrb10alpha but absent in hGrb10beta. RNase protection assays and Western blot analysis showed that hGrb10alpha and hGrb10gamma are differentially expressed in insulin target cells including skeletal muscle, liver, and adipocyte cells. hGrb10gamma is also expressed in HeLa cells and various breast cancer cell lines. The protein bound with high affinity to the insulin receptor in cells, and the interaction was dependent on the tyrosine phosphorylation of the receptor. hGrb10gamma also underwent insulin-stimulated membrane translocation and serine phosphorylation. hGrb10gamma phosphorylation was inhibited by PD98059, a specific inhibitor of mitogen-activated protein kinase kinase, and wortmannin, a specific inhibitor of phosphatidylinositol 3-kinase. Taken together, our data suggest that hGrb10 isoforms are potential downstream signaling components of the insulin receptor tyrosine kinase and that the PH domain may play an important role in the involvement of these isoforms in signal transduction pathways initiated by insulin and other growth factors.
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PMID:Cloning, chromosome localization, expression, and characterization of an Src homology 2 and pleckstrin homology domain-containing insulin receptor binding protein hGrb10gamma. 936 Sep 86

A catalyst of disulfide formation and isomerization during protein folding, protein-disulfide isomerase (PDI) has two catalytic sites housed in two domains homologous to thioredoxin, one near the N terminus and the other near the C terminus. The thioredoxin domains, by themselves, can catalyze disulfide formation, but they are unable to catalyze disulfide isomerizations (Darby, N. J. and Creighton, T. E. (1995) Biochemistry 34, 11725-11735). A 21-kDa, C-terminal fragment of PDI (amino acids 308-491), termed weePDI, comprises the C-terminal third of the molecule. The kcat for ribonuclease oxidative folding by weePDI is 0.26 +/- 0.02 min-1, 3-fold lower than the wild-type enzyme but indistinguishable from the activity of a full-length mutant of PDI in which both active site cysteines of the N-terminal thioredoxin domain have been mutated to serine. Eliminating the ability of weePDI to escape easily from covalent complexes with substrate by mutating the active site cysteine nearer the C terminus to serine has a large effect on the isomerase activity of weePDI compared with its effect on the full-length enzyme. weePDI also displays chaperone and anti-chaperone activity characteristic of the full-length molecule. As isolated, weePDI is a disulfide-linked dimer in which the single cysteine (Cys-326) outside active site cross-links two weePDI monomers. The presence of the intermolecular disulfide decreases the activity by more than 2-fold. The results imply that the functions of the core thioredoxin domains of PDI and other members of the thioredoxin superfamily might be modified quite easily by the addition of relatively small accessory domains.
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PMID:A 21-kDa C-terminal fragment of protein-disulfide isomerase has isomerase, chaperone, and anti-chaperone activities. 940 79


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