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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The vitamin D receptor (VDR) from a variety of animal species is a hormone-modulated substrate for phosphorylation in vivo. In this report, we utilize an expression vector to produce recombinant human VDR (hVDR) in 1,25-dihydroxyvitamin D3-treated COS-1 cells. Immunoprecipitation of the phosphorylated hVDR followed by gel purification and phosphoamino acid analysis revealed modification exclusively on one or more serine residues, consistent with previous studies of the VDR in other species. To identify the region of phosphorylation, immunoprecipitated and gel-purified hVDR from COS-1 cells was first mixed with purified hVDR isolated to homogeneity from Saccharomyces cerevisiae and then digested with trypsin or V8 protease, and the peptides were resolved on HPLC. The single phosphate-containing peptides were recovered and subjected to amino acid sequence analysis, revealing the modification to reside in a region extending from residue 171 to residue 206 common to both the tryptic- and the V8 protease-derived peptides. Sequential cleavage of similar VDR mixtures using trypsin and then CNBr, alpha-chymotrypsin, or thermolysin demonstrated an amino-terminal boundary of the phosphorylated peptide at 202. Selective manual Edman degradation of phosphorylated peptides beginning at 171, 195, and 200 revealed phosphate release only at serine 205. This peptide contained an average of 8-fold less radioactive phosphate in the absence of prior treatment of the culture cells with 1,25(OH)2D3. Site-directed modification of VDR serine 205 to alanine, aspartate, or glutamate each led to fully functional proteins when assessed in a transactivation assay using several VDRE-linked natural promoters. Unexpectedly, evaluation of the serine 205 to alanine hVDR mutant revealed that this protein continued to be phosphorylated in a hormone-dependent manner on an alternative site. These studies show directly that hVDR serine residue 205, a consensus site for casein kinase II, is modified in vivo in response to hormone.
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PMID:1,25-dihydroxyvitamin D3 modulates phosphorylation of serine 205 in the human vitamin D receptor: site-directed mutagenesis of this residue promotes alternative phosphorylation. 815 47

Endoproteolytic cleavage of precursors is a key step in biosynthesis of functional proteins. The structural proteins of rubella virus are initially translated as a precursor polyprotein in the order NH2-C-E2-E1-COOH and are cleaved by host signal peptidase to yield three structural proteins. Between regions corresponding to E2 and E1 in the precursor is a region of seven amino acid residues (R-R-A-C-R-R-R) that contains a motif for stop-transfer or a possible target for trypsin-like protease cleavage. Using site-directed mutagenesis, these arginine residues, as well as the signal peptide cleavage site at the N-terminus of E1, have been mutated individually or in combination. Results from in vitro transcription/translation analysis indicated that the mutated E2E1 precursor polyproteins were translocated into the microsome and glycosylated. Expression of mutated precursor polyproteins in COS cells revealed that the cleavage of E2E1 polyprotein precursor was impaired when the signal peptide cleavage site alone or both arginine clusters were altered, whereas partial cleavage was observed in the mutants in which either one of the two arginine clusters was modified. Our data suggest that although the arginine clusters do not function as a basic protease cleavage site, they contribute to maintain the proper configuration of that region for access of cellular signal peptidase.
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PMID:Mutational analysis of the arginine residues in the E2-E1 junction region on the proteolytic processing of the polyprotein precursor of rubella virus. 817 66

We have shown previously that 125I-2-[4-[2-[2-[(4-azidophenyl)methylcarbonylamino] ethylaminocarbonyl]ethyl]phenyl] ethylamino-5'-N-ethylcarboxamidoadenosine (125I-azido-PAPA-APEC) specifically and selectively photolabels RDC8 A2a adenosine receptors that have been overexpressed in COS M6 cells. Glycosylated, 125I-azido-PAPA-APEC-labeled, wild-type (412 residues; 45,031 Da) and carboxyl-terminally truncated (315 residues; 35,427 Da) receptors migrate with apparent molecular masses of > 40 and 31.5 kDa, respectively, whereas unglycosylated or deglycosylated wild-type and truncated A2a receptors migrate with apparent molecular masses of 40 and 28.5 kDa, respectively. Because nonspecific photoincorporation is not a complication, the present peptide mapping studies of the full length and truncated canine A2a adenosine receptors were carried out on unpurified COS M6 membrane preparations. After partial proteolysis it became clear that glycosylation increased the apparent molecular mass of either the wild-type or mutant A2a receptor by approximately 3 kDa. Although the A2a receptor was readily cleaved by a variety of chemical reagents and proteases, trypsin and endoproteinase Glu-C generated the most reproducible and, in the case of trypsin, the most complete fragmentation patterns. Radiolabeled peptides were identified by their apparent molecular masses, (in)abilities to be recognized by an antipeptide antibody to amino acids Tyr155-Val172 of the presumed second extracellular loop of the receptor, and (in)sensitivities to endoglycosidase F and tunicamycin treatments. A prominent, 7-kDa, radiolabeled peptide that was generated by trypsin digestion implicated putative alpha-helix V in the binding of 125I-azido-PAPA-APEC.
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PMID:125I-2-[4-[2-[2-[(4-azidophenyl)methylcarbonylamino] ethylaminocarbonyl]ethyl]phenyl] ethylamino-5'-N-ethylcarboxamidoadenosine labels transmembrane span V of the A2a adenosine receptor. 819 Jan 4

The MAT-C1 subline of the 13762 rat mammary adenocarcinoma has highly stable, branched microvilli and immobile cell surface receptors. A membrane- and microfilament-associated 58-kDa protein (p58) in the MAT-C1 microvilli has been implicated in the stabilization of the microvilli and microfilament-membrane interactions. This protein is associated with a high M(r) glycoprotein complex containing the (proto)oncogene p185neu and other signal transduction components in a putative microfilament-associated signal transduction particle. Amino acid sequences were obtained from two trypsin peptides of p58. Screening a MAT-C1 cDNA library with a degenerate oligonucleotide derived from the larger peptide and polymerase chain reaction amplification of cDNA ends permitted the isolation of overlapping cDNAs encoding the 427-amino acid open reading frame of p58. In vitro transcription and translation using a full-length cDNA gave a protein of approximately 55 kDa, which reacts with anti-p58 antiserum and reconstitutes into a complex with actin and glycoproteins from the membrane-microfilament interaction site. When COS-7 cells were transfected with the full-length cDNA, p58 was localized in a punctate distribution. In addition, the transfected cells exhibited fewer microfilament cables than untransfected neighboring cells. The amino acid sequence showed a surprising similarity to mammalian retroviral Gag proteins and included regions corresponding to p15, p12 and the N-terminal 80% of p30. Comparisons of p58 and the corresponding regions of the Gag proteins for Moloney murine leukemia virus indicated that about 60% of their amino acid residues were identical. These studies suggest that p58 is the product of an endogenous retroviral gene whose expression as a cellular protein alters the properties of the tumor cell to provide a selective advantage for tumor growth in the animal.
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PMID:Molecular cloning and sequencing of a 58-kDa membrane- and microfilament-associated protein from ascites tumor cell microvilli with sequence similarities to retroviral Gag proteins. 819 43

Endopeptidase-24.18 (E-24.18; EC 3.4.24.18) is a metallopeptidase of the astacin family and is highly expressed in kidney brush-border membranes of rodents. Rat E-24.18 consists of two disulphide-linked alpha/beta dimers [(alpha/beta)2]. In order to investigate the mechanisms of assembly and the importance of each subunit in the enzymic process, the cloned cDNAs for the rat alpha and beta subunits were transiently expressed either alone or together in COS-1 cells. Immunoblotting of cell extracts and spent culture media showed that, when expressed alone, the alpha subunit is secreted, whereas the beta subunit is membrane-bound. In alpha/beta-transfected cells, the alpha subunit remained membrane-bound, but could be released from the cell surface after papain treatment or after incubation with 10 mM dithiothreitol. Furthermore, mutants of the alpha subunit in which the putative C-terminal anchor domain was deleted could still form cell-associated alpha/beta dimers. These results are consistent with a topological model of E-24.18 in which the beta subunit is anchored in the plasma membrane and the alpha subunit is retained at the cell surface through disulphide bridge(s) with the beta subunit. Both the alpha and beta recombinant subunits expressed in COS-1 cells showed little azocasein-degrading activity. However, activity of either individual subunits of alpha/beta dimers was increased after mild trypsin digestion, suggesting that in COS-1 cells the enzymes are synthesized as zymogens. Finally, inactivation of the alpha subunit by site-directed mutagenesis of Glu-157, which is believed to play a role in catalysis, showed that both subunits participate in the enzymic activity of the heterodimer.
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PMID:Expression of rat endopeptidase-24.18 in COS-1 cells: membrane topology and activity. 819 48

Endopeptidase-24.18 (EC 3.4.24.18, E-24.18) is an oligomeric Zn-ectoenzyme. The alpha and beta subunits have been cloned from both rat and mouse kidneys. The primary structure of these subunits revealed that they both contain the consensus Zn binding site and that they are members of the astacin family. Analysis of the hydropathy plot also suggested that they are anchored by a C-terminal hydrophobic domain. In order to verify the mode of anchoring of the rat E-24.18 alpha subunit and to test the functionality of the astacin-like domain in the alpha subunit when expressed alone, COS-1 cells were transfected with a cloned cDNA for rat alpha subunit. Despite the presence of its putative transmembrane domain, the alpha subunit was not anchored in the plasma membrane but rather secreted as a dimer into the culture medium. When the enzymatic activity of the secreted recombinant protein was tested in the azocasein degradation assay, the alpha subunit was found to be inactive. Activity could, however, be revealed after mild trypsin digestion. This activity was abolished by replacing the Glu-157 in the active site by Val. Taken together our results suggest that the alpha subunit of Endopeptidase-24.18 contains a latent astacin-like Zn metallopeptidase activity which could be secreted as a soluble enzyme by kidney and intestine.
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PMID:Rat endopeptidase-24.18 alpha subunit is secreted into the culture medium as a zymogen when expressed by COS-1 cells. 826 84

In order to assess the interference of the mutant insulin proreceptor on normal receptor function and formation of proreceptor-receptor heterotrimers (alpha beta-proreceptor), COS 7 cells were transfected with the same amount of expression plasmid (pGEM3SV) containing wild-type, a mutant proreceptor cDNA and both, using the DEAE-dextran method. Scatchard analysis of insulin binding data revealed that there was an approx. 50-fold higher receptor concentration in the transfected cells than in untransfected cells. After 0.025% trypsin treatment, insulin binding to the cells expressed with wild-type, proreceptor and both increased by 1-fold, 2.9-fold and 1.5-fold of the untreated cells, respectively. In the presence of 167 nM insulin, the amounts of phosphate incorporated into the 95 kDa protein beta-subunits and 210 kDa proreceptors from co-transfected cells, were identical to those of an in vitro mixture of the wild-type and the mutant receptors. At 10 nM insulin, the proreceptors from co-transfected cells normally autophosphorylated by insulin stimulation, whereas those mixed in vitro did not (73.3 +/- 9.3 vs. 29.6 +/- 2.6% of the maximal effect, n = 4, P < 0.01). However, at a similar concentration of insulin, the phosphate incorporation into Glu-80/Tyr-20 polymers by receptors from co-transfected cells was decreased when compared with a in vitro mixture (9.0 +/- 2.6 vs. 22.5 +/- 6.7% of the maximal effect at 4 nM, n = 6, P < 0.01), although the basal and maximally stimulated phosphate incorporation were comparable among these groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Co-expression of mutant and normal human insulin receptors in COS 7 cells. 826 23

The activation of T lymphocytes, both in vivo and in vitro, induces the expression of CD69. This molecule, which appears to be the earliest inducible cell surface glycoprotein acquired during lymphoid activation, is involved in lymphocyte proliferation and functions as a signal transmitting receptor in lymphocytes, natural killer (NK) cells, and platelets. To determine the structural basis for CD69 function, the cDNA coding for CD69 was isolated by a polymerase chain reaction-based strategy using oligonucleotides deduced from peptide sequences of the purified protein. The isolated cDNA exhibited a single open reading frame of 597 bp coding for CD69, and predicted a 199-amino acid protein of type II membrane topology, with extracellular (COOH-terminal), transmembrane, and intracellular domains. The CD69 clone hybridized to a 1.7-kb mRNA species, which was rapidly induced and degraded after lymphocyte stimulation, consistent with the presence of rapid degradation signals at the 3' untranslated region. Transient expression of the polypeptide encoded by CD69 cDNA in COS-7 cells demonstrated that it presented properties comparable to native CD69 protein. The CD69 gene was regionally mapped to chromosome 12 p13-p12 by both somatic cell hybrid DNA analysis and fluorescence in situ hybridization coupled with GTG banding (G bands by trypsin using Giemsa). Protein sequence homology search revealed that CD69 is a new member of the Ca(2+)-dependent (C-type) lectin superfamily of type II transmembrane receptors, which includes the human NKG2, the rat NKR-P1, and the mouse NKR-P1 families of NK cell-specific genes. CD69 also has a structural homology with other type II lectin cell surface receptors, such as the T cell antigen Ly49, the low avidity immunoglobulin E receptor (CD23), and the hepatic asialoglycoprotein receptors. The CD69 protein also shares functional characteristics with most members of this superfamily, which act as transmembrane signaling receptors in early phases of cellular activation.
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PMID:Molecular cloning, expression, and chromosomal localization of the human earliest lymphocyte activation antigen AIM/CD69, a new member of the C-type animal lectin superfamily of signal-transmitting receptors. 834 Jul 58

A mouse homolog of P-selectin glycoprotein ligand-1 (PSGL-1), a P-selectin receptor on myeloid cells, has been cloned using the human cDNA sequence to probe a cDNA library prepared from the mouse WEHI-3 monocytic cell line and a genomic DNA library prepared from 129/SvJ mouse tissue. The gene flanking the entire open reading frame of 397 amino acids is composed of a single exon. Mouse and human PSGL-1 show an overall similarity of 67% and an identity of 50% and contain a similar domain organization. However, there are 10 threonine/serine-rich decameric repeats in mouse PSGL-1 as compared with 15 threonine-rich repeats in human PSGL-1. When the mouse PSGL-1 cDNA is coexpressed with an alpha 1,3/1,4 fucosyltransferase cDNA in COS cells, a functional protein is expressed on the COS cell surface mediating binding to human P-selectin. The mouse PSGL-1 gene, Selpl, was mapped to a position on mouse chromosome 5 (Chr 5). Northern blot analyses of mouse tissues showed moderate expression of a PSGL-1 mRNA species in most tissues including heart, kidney, liver, muscle, ovary, and stomach and high levels of expression in blood, bone marrow, brain, adipose tissue, spleen, and thymus. Whereas certain mouse myeloid cell lines including PU5-1.8, WEHI-3B, and 32DC13 express high levels of PSGL-1 mRNA, only WEHI-3B and 32DC13 bind to P-selectin; this interaction is blocked by anti-PSGL-1 antibody. WEHI-3B cells bind significantly better to P-selectin than to E-selectin. Although comparable P-selectin binding is observed in 32DC13 cells, these cells bind better to E-selectin. Binding of 32DC13 cells to E-selectin is not blocked by anti-PSGL-1 antibody. Treatment of WEHI-3B cells with trypsin or neuraminidase abolished their ability to interact with P-selectin. These results indicate that mouse PSGL-1 has structural and functional homology to human PSGL-1 but is characterized by differences in the composition and number of the decameric repeats. PSGL-1 on mouse myeloid cells is critical for high-affinity binding to P-selectin but not E-selectin.
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PMID:Mouse P-selectin glycoprotein ligand-1: molecular cloning, chromosomal localization, and expression of a functional P-selectin receptor. 863 76

The rhodopsin mutants P23H and G188R, identified in autosomal dominant retinitis pigmentosa (ADRP), and the site-specific mutants D190A and DeltaY191-Y192 were expressed in COS cells from synthetic mutant opsin genes containing these mutations. The proteins expressed from P23H and D190A partially regenerated the rhodopsin chromophore with 11-cis-retinal and were mixtures of the correctly folded (retinal-binding) and misfolded (non-retinal-binding) opsins. The mixtures were separated into pure, correctly folded mutant rhodopsins and misfolded opsins. The proteins expressed from the ADRP mutant G188R and the mutant DeltaY191-Y192 were composed of totally misfolded non-retinal-binding opsins. Far-UV CD spectra showed that the correctly folded mutant rhodopsins had helical content similar to that of the wild-type rhodopsin, whereas the misfolded opsins had helical content 50-70% of the wild type. The near-UV CD spectra of the misfolded mutant proteins lack the characteristic band pattern seen in the wild-type opsin, indicative of a different tertiary structure. Further, whereas the folded mutant rhodopsins were essentially resistant to trypsin digestion, the misfolded opsins were degraded to small fragments under the same conditions. Therefore, the misfolded opsins appear to be less compact in their structures than the correctly folded forms. We suggest that most, if not all, of the point mutations in the intradiscal domain identified in ADRP cause partial or complete misfolding of rhodopsin.
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PMID:Structure and function in rhodopsin: correct folding and misfolding in two point mutants in the intradiscal domain of rhodopsin identified in retinitis pigmentosa. 864 42


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