UNIPROT:P06889 - FACTA Search

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A new family of mammalian subtilisin-like enzymes, probably involved in the processing of proproteins in regulated and constitutive cells at paired basic residues, has recently been discovered. Little information exists as yet concerning the biosynthesis of these endogenous subtilisin-like enzymes. In the present work the biosynthesis and release of the endogenous prohormone convertase PC1 in AtT-20 cells were studied. As predicted from mRNA studies, AtT-20 cells contain high levels of PC1 protein. Through immunoblotting, 87-kilodalton (kDa) and 66-kDa bands were detected with an amino terminally directed antiserum; however, only the 87-kDa product was detected with carboxyl terminally directed antiserum, indicating carboxyl terminal truncation. Pulse-chase experiments, using [35S]methionine/cysteine, showed that after 20 min pulse the main product in the cells was the 87-kDa protein. Cells chased for varying amounts of time exhibited a progressive increase in the intensity of a 66-kDa band, along with a corresponding decrease of the 87-kDa band. The 87-66 kDa conversion was nearly complete after 4 h of chase. This posttranslational processing was inhibited by the ionophore monensin, a Golgi disruptor, with a corresponding accumulation of the 87-kDa protein within the cell. Both the 87 kDa- and 66 kDa-labeled proteins were detected as membrane-bound rather than soluble proteins. The 87-kDa protein was the main product secreted by nonstimulated AtT-20 cells, while the 66-kDa product was only released when the cells were stimulated with CRF or BaCl2 and Bromo-cAMP.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1992 Jul
PMID:Biosynthesis of the prohormone convertase mPC1 in AtT-20 cells. 150 22

Caltrin proteins from seminal vesicle content of the guinea pig bind with great specificity to different regions of the spermatozoa. Indirect immunofluorescence studies with polyclonal antibodies showed that caltrin I binds to the head, on the acrosomal cup, while caltrin II binds on the principal tail and the neck. No fluorescence was detected either in the midpiece or in the post-acrosomal area of the head when sperm were exposed to either of the caltrins. Calcium-induced hyaluronidase release, which occurs during the acrosomal reaction, was dramatically inhibited by caltrin I (approximately 85% inhibition). Caltrin II was less effective in preventing the enzyme release (approximately 50% inhibition). Chemical modification of the structure modified the biological activity of the two caltrins. Reduction and carboxymethylation of the cysteine residues diminished the inhibitory activity on 45Ca2+ uptake and reduced the ability of the proteins to react with their antibodies. Removal of the carbohydrate portion by chemical deglycosylation transformed the inhibitor proteins into enhancers of calcium uptake into the spermatozoa. Caltrin proteins from the guinea pig appear to play the same physiological role as bovine caltrin, regulating specifically calcium transport across the spermatozoal membranes related with the acrosome reaction and hyperactivation process. The dual behavior of caltrins to inhibit or enhance Ca2+ uptake enables them to fulfill this function. Nevertheless, molecular mechanisms different from those described for bovine caltrin seem to be involved in the control of the functional activity of the guinea pig caltrins.
Mol Reprod Dev 1992 Sep
PMID:Functional properties of caltrin proteins from seminal vesicle of the guinea pig. 151 Aug 47

The D-galactose chemosensory receptor of Escherichia coli is a .32 kDa globular protein possessing two distinct structural domains, each organized in an alpha/beta folding motif. Helices I and X lie at adjacent approximately parallel positions on the surface of the N-terminal domain, near the hinge region. In order to analyze the relative thermal motions of these two helices, the present study utilizes a generalizable disulfide trapping approach: first, site-directed mutagenesis is used to place a pair of cysteine residues at locations of interest on the protein surface, then disulfide bond formation is used to trap intramolecular cysteine-cysteine collisions resulting from thermal motions. Specifically, four engineered di-cysteine receptors have been constructed, each possessing one cysteine at position 26 on helix I, and a second cysteine at varying positions on helix X. A fifth control receptor possesses one cysteine at position 26, and a second on the opposite surface of the molecule. These surface cysteine substitutions have little or no effect on the measurable receptor parameters as judged by ligand binding equilibria and kinetics, protein stability, and 19F nuclear magnetic resonance, indicating that the engineered receptors are useful probes of native backbone dynamics. Spatial and kinetic features of backbone motions have been investigated by measuring intramolecular disulfide formation rates for cysteine pairs in the fully liganded receptor. The resulting rates decrease monotonically with increasing distance between cysteines in the crystal structure, while no disulfide formation is observed for the control pair unless the molecule is unfolded. The minimum translational amplitudes of the observed backbone motions range from 4.5 to 15.2 A, and the minimum rotational amplitudes are as large as 35 degrees. For each motion the rate of intramolecular sulfhydryl-sulfhydryl collision has been estimated from the measured rate of disulfide formation: the 4.5 and 15.2 A translations yield approximately 10(4) and approximately 10 collisions s-1 molecule-1, respectively. These collision rates, which are faster than ligand dissociation, likely underestimate the actual motional frequencies since only an undetermined fraction of the total motions yield collisions. The simplest plausible trajectory capable of producing such collisions is a rate-limiting translation of one or both helices along their long axes, coupled with minor helix rotations. When sugar is removed from the receptor, a substantial increase in backbone dynamics is observed, indicating the presence of new long-range backbone trajectories. Overall, the results suggest that internal motions in proteins may have larger amplitudes than previously observed.
J Mol Biol 1992 Aug 20
PMID:Thermal motions of surface alpha-helices in the D-galactose chemosensory receptor. Detection by disulfide trapping. 151 53

N-Acetylcysteine (NAC), a cysteine derivative with chemoprotective and radioprotective effects, was found to elevate bovine pulmonary artery endothelial cell (EC) glutathione after in vitro incubation. The elevation in glutathione was associated with enhanced uptake of radioactivity of cystine from the medium. Because cystine in medium was converted rapidly to cysteine and cysteinyl-NAC in the presence of NAC and given that cysteine has a higher affinity for uptake by EC than cystine, we conclude that the enhanced uptake of radioactivity was in the form of cysteine and at least part of the stimulatory effect of NAC on EC glutathione was due to a formation of cysteine by a mixed disulfide reaction of NAC with cystine similar to that previously reported for Chinese hamster ovarian cells (R. D. Issels et al. 1988. Biochem. Pharmacol. 37:881-888). However, NAC was more effective than cysteine in elevating cellular glutathione at equimolar concentrations, and at higher concentrations of NAC an elevation of EC glutathione occurred even in the absence of cystine in the medium through a currently unknown mechanism. Thus, at least two mechanisms are operative in the elevation of endothelial cellular glutathione by NAC. NAC may be a useful compound for elevating glutathione of the pulmonary vasculature for protection against oxidant stress.
Am J Respir Cell Mol Biol 1992 Sep
PMID:Elevation of glutathione levels in bovine pulmonary artery endothelial cells by N-acetylcysteine. 152 Apr 92

The crystal structure of the variant-3 protein neurotoxin from the scorpion Centruroides sculpturatus Ewing has been refined at 1.2 A resolution using restrained least-squares. The final model includes 492 non-hydrogen protein atoms, 453 protein hydrogen atoms, eight 2-methyl-2,4-pentanediol (MPD) solvent atoms, and 125 water oxygen atoms. The variant-3 protein model geometry deviates from ideal bond lengths by 0.024 A and from ideal angles by 3.6 degrees. The crystallographic R-factor for structure factors calculated from the final model is 0.192 for 17,706 unique reflections between 10.0 to 1.2 A. A comparison between the models of the initial 1.8 A and the 1.2 A refinement shows a new arrangement of the previously poorly defined residues 31 to 34. Multiple conformations are observed for four cysteine residues and an MPD oxygen atom. The electron density indicates that disulfide bonds between Cys12 and Cys65 and between Cys29 and Cys48 have two distinct side-chain conformations. A molecule of MPD bridges neighboring protein molecules in the crystal lattice, and both MPD enantiomers are present in the crystal. A total of 125 water molecules per molecule of protein are included in the final model with B-values ranging from 11 to 52 A2 and occupancies from unity down to 0.4. Comparisons between the 1.2 A and 1.8 A models, including the bound water structure and crystal packing contacts, are emphasized.
J Mol Biol 1992 Sep 05
PMID:Structure of scorpion toxin variant-3 at 1.2 A resolution. 152 88

mRNA was isolated from Fundulus heteroclitus pituitaries and used to construct a cDNA library in lambda gt22A. A series of synthetic oligonucleotides, based on conserved regions of teleost gonadotropic hormone (GTH) beta-subunits, were constructed and used as primers in the polymerase chain reaction (PCR) to amplify GTH cDNAs. Appropriate length PCR products were subcloned and sequenced. Eight clones were eventually identified as cDNAs encoding two distinct beta-subunits of F. heteroclitus, GTH I and GTH II. By comparison with known GTH sequences, putative signal sequences of 19 end 21 amino acids and mature beta-subunits of 95 and 115 amino acids were found for GTH I and GTH II, respectively. Both beta-subunits had well conserved cysteine positions when aligned with other members of the glycoprotein family. The elucidation of the complete nucleotide sequences of two types of F. heteroclitus GTH provides definitive proof that in this species there are at least two distinct forms of pituitary GTH analogous to the classical luteinizing hormone-follicle stimulating hormone family.
Mol Cell Endocrinol 1992 May
PMID:Fundulus heteroclitus gonadotropins. 3. Cloning and sequencing of gonadotropic hormone (GTH) I and II beta-subunits using the polymerase chain reaction. 152 12

The body growth controlling cerebral neuroendocrine light green cells of the freshwater snail, Lymnaea stagnalis, express various members of a gene family encoding different though related prepromolluscan insulin-related peptides. In the present study, molluscan insulin-related peptide I (MIP I) together with the corresponding connecting peptide, C alpha peptide, have been isolated and structurally identified. MIP I is a heterodimer of A and B chains bonded by disulphide bridges. Two isoforms of MIP I could be discerned. Mass spectrometry revealed that of one form both the A and B chains have N-terminal pyroglutamyl residues, whereas of the other form only the B chain has such residues. After removal of the pyroglutamyl residues with pyroglutamate aminopeptidase, followed by disulphide bond cleavage and pyridylethylation of cysteine residues, the sequences of MIP I have been determined using Edman degradation as: A chain: (p)QGTTNIVCECCMKPCTLSELRQYCP; B chain: pQPSACNINDRPHRRGVCGSALADLVDPACSSSNGPA. The C alpha peptide has also been isolated and its sequence was determined as NAETDLDDPLRNIKLSSESALTYLY. These sequences are in agreement with those predicted by a cDNA sequence encoding preproMIP I, with the exception that the two C-terminal amino acids of the B chain are posttranslationally removed.
Mol Cell Endocrinol 1992 May
PMID:Purification and sequencing of molluscan insulin-related peptide I (MIP I) from the neuroendocrine light green cells of Lymnaea stagnalis. 152 14

The mouse Wnt-1 gene, a target for insertional activation in mouse mammary tumor virus-induced mammary tumors, encodes poorly secreted, cysteine-rich glycoproteins required for proper central nervous system development. We have been analyzing the biosynthesis of Wnt-1 proteins in several cell lines that express Wnt-1 cDNA from heterologous promoters. A protein of 78 kDa was found to be associated with the intracellular forms of Wnt-1 proteins in mammalian and avian cells by using multiple antisera against Wnt-1 proteins. We have identified p78 as the binding protein BiP with anti-BiP antisera and by its release from Wnt-1 immunoprecipitates upon incubation with MgCl2 and ATP. Experiments with a Wnt-1 mutant that lacks the sequence encoding the signal peptide indicates that Wnt-1 proteins must enter the secretory pathway in order to interact with BiP. We demonstrate that Wnt-1 proteins are associated with BiP in cells in which active Wnt-1 proteins are produced, such as a cultured mammary epithelial cell line and Wnt-1 transgenic mouse mammary tumor cells. The association of Wnt-1 proteins with BiP may be a factor in determining the efficiency of secretion of Wnt-1 gene products.
Mol Cell Biol 1992 Feb
PMID:Interaction of Wnt-1 proteins with the binding protein BiP. 153 Oct 88

The proto-oncogene Wnt-1 encodes a cysteine-rich, secretory glycoprotein implicated in virus-induced mouse mammary cancer and intercellular signaling during vertebrate neural development. To attempt to correlate structural motifs of Wnt-1 protein with its function, 12 mutations were introduced singly and in several combinations into the coding sequence of Wnt-1 cDNA by site-directed mutagenesis. Mutant alleles in a retroviral vector were tested for their ability to transform the mouse mammary epithelial cell line C57MG in two ways: by direct infection of C57MG cells and by infection of NIH3T3 cells that serve as donors of Wnt-1 protein to adjacent C57MG cells in a secretion-dependent (paracrine) assay. In addition, the synthesis and secretion of mutant proteins were monitored in multiple cell types by immunological assays. Deletion of the signal peptide demonstrated that transformation in both direct and paracrine assays depends upon entry of Wnt-1 protein into the endoplasmic reticulum. Changes in potential proteolytic processing sites (two basic dipeptides and a probable signal peptidase cleavage site) did not adversely impair biological activity or protein processing and uncovered a second site for cleavage by signal peptidase. Replacement of each of the four asparagine-linked glycosylation sites did not affect transforming activity at normal temperatures, but one glycosylation site mutant was found to be temperature-sensitive for transformation. An allele encoding a protein that lacks all four glycosylation sites was also transformation competent. In two of four cases, substitution of serine for a cysteine residue impaired transforming activity at the usual temperature, and transformation was temperature sensitive in a third case, implying that at least some of the highly conserved cysteine residues are important for Wnt-1 function.
Mol Biol Cell 1992 May
PMID:Mutational analysis of mouse Wnt-1 identifies two temperature-sensitive alleles and attributes of Wnt-1 protein essential for transformation of a mammary cell line. 153 41

We have isolated and sequenced a cDNA clone encoding the apoprotein of a potato phytochrome. Based on the deduced amino acid sequence, which shows 78% amino acid identity to the Arabidopsis phyA and 50% identity to the Arabidopsis phyB open reading frame, we have classified this cDNA clone as potato phyA phytochrome. The amino acid immediately preceding cysteine 323, which is the homologue of oat cystein 321, to which the chromophore has been shown to be attached, is a tyrosine residue. This contrasts with six other type A phytochrome sequences from both monocots and dicots that encode serine in this position. As already observed in three other cDNAs isolated from dicot species, the potato phyA clone encodes a short open reading frame (13 amino acids) preceding the phyA open reading frame (1123 amino acids), supporting the idea that this type of leader sequence might be involved in the regulated expression of the phytochrome apoprotein. Southern blot analysis revealed a single phyA gene as well as other related phytochrome sequences in the potato genome. phyA mRNA levels varied in different organs and were modulated by white light; in seedlings and sprouts, highest levels of mRNA were detected in the etiolated stage. Upon illumination with white light, mRNA levels decreased to the amount found in leaves of re-etiolated plants. Lowest expression was observed in leaves of plants grown in the light, in tubers irrespective of light treatment, and in roots of plants grown in the dark. In roots of plants grown in the light, elevated levels of phyA mRNA were detected. Using a monoclonal antibody generated against pea phytochrome as an immunochemical probe, the protein was only detectable in protein extracts from etiolated seedlings and sprouts.
Plant Mol Biol 1992 Feb
PMID:Isolation and characterization of a cDNA-clone coding for potato type A phytochrome. 153 28

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