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Caenorhabditis elegans dauer formation is an alternative larval developmental pathway that the worm can take when environmental conditions become detrimental. Animals can survive several months in this stress-resistant stage and can resume normal development when growth conditions improve. Although the worms integrate a variety of sensory information to commit to dauer formation, it is currently unknown whether they also monitor internal cellular damage. The Ro ribonucleoprotein complex, which was initially described as a human autoantigen, is composed of one major 60-kDa protein, Ro60, that binds to one of four small RNA molecules, designated Y RNAs. Ro60 has been shown to bind mutant 5S rRNA molecules in Xenopus oocytes, suggesting a role for Ro60 in 5S rRNA biogenesis. Analysis of ribosomes from a C. elegans rop-1(-) strain, which is null for the expression of Ro60, demonstrated that they contain a high percentage of mutant 5S rRNA molecules, thereby strengthening the notion of a link between the rop-1 gene product and 5S rRNA quality control. The Ro particle was recently shown to be involved in the resistance of Deinococcus radiodurans to UV irradiation, suggesting a role for the Ro complex in stress resistance. We have studied the role of rop-1 in dauer formation. We present genetic and biochemical evidence that rop-1 interacts with dauer-formation genes and is involved in the regulation of the worms' entry into the dauer stage. Furthermore, we find that the rop-1 gene product undergoes a proteolytic processing step that is regulated by the dauer formation pathway via an aspartic proteinase. These results suggest that the Ro particle may function in an RNA quality-control checkpoint for dauer formation.

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The Ro ribonucleoprotein complex (Ro RNP) was initially described as an autoimmune target in human diseases such as systemic lupus erythematosus and Sjögren's syndrome. In Xenopus and human cells, its general structure is composed of one major protein of 60 kDa, Ro60, that binds to one of four small RNA molecules, designated Y RNAs. Although no function has been assigned to the Ro RNP, Ro60 has been shown to bind mutant 5S ribosomal RNA (rRNA) molecules in Xenopus oocytes, suggesting a role for Ro60 in 5S rRNA biogenesis. Ro60 has also been shown to participate in the regulation of the translational fate of the L4 ribosomal protein mRNA by interacting with the 5' untranslated region, again suggesting its possible implication in ribosome biogenesis. To identify the function of Ro RNP, we have taken a genetic approach in the nematode Caenorhabditis elegans. As such, we characterized the gene encoding the protein ROP-1, the homologue of the human Ro60 protein. Here, we review the phenotypic analysis of C. elegans rop-l(-) mutants and integrate these results into a model for the function of the Ro RNP particle.

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In mammalian cells, the calnexin/calreticulin chaperones play a key role in glycoprotein folding and its control within the endoplasmic reticulum (ER), by interacting with folding intermediates via their monoglucosylated glycans. This lectin activity has been mapped in mammalian calnexin/calreticulin chaperones to the central region, which is a highly conserved feature of calnexin/calreticulin molecules across species. The central domain has also been implicated in Ca(2+) binding, and it has been proposed to be involved in the regulation of calcium homeostasis in the ER. Herein, we show that although the Schizosaccharomyces pombe calnexin is essential for viability, cells lacking its 317-amino-acid highly conserved central region are viable under normal growth conditions. However, the central region appears to be necessary for optimal growth under high ER-stress, suggesting that this region is important under extreme folding situations (such as DTT and temperature). The minimal length of calnexin required for viability spans the C-terminal 123 residues. Furthermore, cells with the central domain of the protein deleted were affected in their morphology at 37 degrees C, probably due to a defect in cell wall synthesis, although these mutant cells exhibited the same calcium tolerance as wild-type cells at 30 degrees C.

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Neutral endopeptidase (neprilysin or NEP, EC 3.4.24.11) is a zinc metallo-endopeptidase expressed in many eukaryotic cell types and displaying several important physiological roles. In the brain (and central nervous system), this enzyme is involved in the molecular mechanism of pain by its action in the degradation of enkephalin molecules. In the kidney, NEP is implicated in the degradation of regulatory factors involved in the control of arterial pressure, including atrial natriuretic peptide and bradykinin. In this study we assessed the potential of the fission yeast Schizosaccharomyces pombe to overproduce rabbit NEP and secreted NEP (sNEP, a soluble derivative of this integral membrane protein). Both recombinant NEP and sNEP were produced at high levels (5 mg/l) in this system. Enzymic studies revealed that these recombinant proteins were fully active and exhibit kinetic parameters similar to those of the bona fide enzyme. Immunofluorescence microscopy and enzymic assays demonstrated that recombinant NEP is correctly targeted to the cell membrane. Furthermore, co-immunoprecipitation studies showed that folding intermediates of NEP and sNEP, produced in S. pombe, interact in the endoplasmic reticulum (ER) with binding protein (BiP) and calnexin (Cnx1p). The amount of sNEP coprecipitated with both BiP and Cnx1p augmented when cells were subjected to various stresses causing the accumulation of unfolded proteins in the ER. The interactions of NEP with BiP and Cnx1p were, however, more refractive to the same stresses.

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The Ro ribonucleoproteins (RoRNP) consist of at least one major protein of 60 kD, Ro60, and one small associated RNA, designated Y RNA. Although RoRNP have been found in all vertebrate species examined so far, their function remains unknown. The Caenorhabditis elegans rop-1 gene previously has been identified as encoding a Ro60 homologue. We report here the phenotypic characterization of a C. elegans strain in which rop-1 has been disrupted. This is the first report regarding the inactivation of a major RoRNP constituent in any organism. The rop-1 mutant worms display no visible defects. However, at the molecular level, the disruption of rop-1 results in a dramatic decrease in the levels of the ROP-1-associated RNA (CeY RNA). Moreover, transgenic expression of wild-type rop-1 partially rescues the levels of CeY RNA. Considering that transgenes are poorly expressed in the germline, the fact that the rescue is only partial is most likely related to the high abundance of the CeY RNA in the adult germline and in embryos. The developmental expression pattern and localization of CeY RNA suggest a role for this molecule during embryogenesis. We conclude that, under laboratory culture conditions, ROP-1 does not play a crucial role in C. elegans.

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The association of newly synthesized glycoproteins with the ER molecular chaperones calnexin and immunoglobulin binding protein (BiP) has been well documented in a variety of higher eukaryotes. Here we report that Cnx1p, the calnexin homologue in Schizosaccharomyces pombe, associates with newly synthesized molecules of the secreted glycoprotein acid phosphatase. Unlike ligand binding to mammalian calnexin, glucose trimming and reglucosylation of acid phosphatase by UDP-Glc:glycoprotein glucosyltransferase were shown to be dispensable for its binding to Cnx1p. Thus, despite the essentiality of Cnx1p for S. pombe viability, the glucose trimming and reglucosylation cycle does not appear to be required for protein folding in the fission yeast. The association of core-glycosylated acid phosphatase with Cnx1p after exposure of cells to heat shock or to DTT was shown to be reversible. However, Cnx1p stably associated with unglycosylated acid phosphatase after treatment with the core-glycosylation inhibitor tunicamycin. BiP was found to coprecipitate with Cnx1p, under normal and stress conditions, and following inhibition of protein synthesis by cycloheximide. We postulate that Cnx1p and BiP are part of a complex that is involved in the folding of both core-glycosylated trimmed ligands and unglycosylated proteins.

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We have identified a Schizosaccharomyces pombe gene encoding a 461 amino acid polypeptide containing a predicted alpha-helical rod domain found in filamentous proteins. This gene, here designated noc1, is located immediately upstream from cnx1, the gene encoding the S. pombe homologue of mammalian calnexin, an endoplasmic reticulum chaperone [M. Jannatipour, L.A. Rokeach, J. Biol. Chem. 270 (1995) 4845-4853.]. Transcription of noc1 is divergent from that of cnx1. Northern blot analysis identified a single mRNA of approx. 2 kb whose expression was increased by heat shock and growth in the presence of beta-mercaptoethanol and 2-deoxyglucose.

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We have identified and begun the characterization of the gene encoding UDP-Glc:glycoprotein glucosyltransferase in Schizosaccharomyces pombe. This gene, here designated gpt1, codes for a polypeptide having a signal peptide of 18 amino acids followed by 1429 amino acids with no transmembrane domain, as expected for a soluble protein of the endoplasmic reticulum (ER). The C-terminal tetrapeptide PDEL most probably corresponds to a novel ER retention signal in this fission yeast. Synthesis of the corresponding mRNA was induced 2- to 9-fold by conditions known to affect glycoprotein folding in the ER (e.g. heat shock, culture in the presence of a Ca2+ionophore, 2-mercaptoethanol or inhibitors of protein N-glycosylation such as tunicamycin or 2-deoxyglucose). This is the first evidence obtained in vivo that supports the proposed involvement of the enzyme in the quality control of glycoprotein folding in the ER. Thus far, the said involvement was inferred solely from the ability of the enzyme to glucosylate misfolded but not native glycoproteins in cell-free assays. The gpt1 gene was disrupted and gpt1- cells were found to be viable. Moreover, no significant differences in the growth rate patterns at 18, 28 or 39 degrees C or in cell morphology between gpt1+ and gpt1- cells were observed, although they differed slightly in size.

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As a first step toward establishing a genetic system for the elucidation of the cellular role(s) of the Ro ribonucleoproteins (RoRNP), we have cloned the gene encoding the homologue of the human 60-kDa Ro protein (Ro60) in Caenorhabditis elegans (Ce). This Ce gene is present as a single copy and contains a 643-codon open reading frame interrupted by three introns. The encoded protein, Rop1p, shares 40% identity and 63% overall similarity with both the human and amphibian Ro60. Recombinant protein has been produced in Escherichia coli and used to elicit anti-Rop1p antibodies. Immunological analysis indicated that the Ro60 epitopes have been poorly conserved. Gene-fusion expression studies in transgenic nematodes will provide a new avenue of research to shed light on the function of these particles.

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We have cloned a Schizosaccharomyces pombe gene, here designated cnx1, encoding the homologue of the endoplasmic reticulum molecular chaperone calnexin. Disruption of the cnx1 gene was lethal, demonstrating that it has an essential cellular function. Transcription of cnx1 mRNA is initiated at multiple sites, and it can be induced by various stress treatments that lead to the accumulation of unfolded and/or misfolded proteins in the endoplasmic reticulum. The encoded Cnx1p protein more closely resembles its plant and animal calnexin homologues than that of Saccharomyces cerevisiae. Cnx1p is acidic and migrates aberrantly on SDS-polyacrylamide gel electrophoresis, similar to its mammalian counterparts. Cnx1p contains the hallmark KPEDWD motifs that are found in all members of the calnexin/calreticulin family of proteins. Using an in vitro translation-processing system, we have shown that Cnx1p has the characteristic type I topology of calnexin proteins. Unlike its higher eukaryotic homologues, Cnx1p has a site for N-glycosylation that was modified in an in vitro translation-processing assay.

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RAL1 is an antigen (Ag) encoded by the filarial nematode Onchocerca volvulus, the parasite causing onchocerciasis (river blindness). RAL1 shares 64.4% identity with the autoantigen calreticulin. The striking similarity of the parasite Ag and the human autoantigen has led to the hypothesis that RAL1 may induce a cross-reactive immune response to calreticulin, which in turn may be involved in the pathogenesis of onchocerciasis. To test this hypothesis, we explored the immune response to RAL1 recombinant Ag (RAL1 rAg) and human calreticulin in patients with O. volvulus infection. A total of 86% of the O. volvulus-infected individuals produced antibodies recognizing RAL1 rAg. Antibody reactivity to RAL1 rAg in patient sera was confined primarily to the central and carboxyl-terminal parts of the molecule. No significant correlations were found to associate recognition of RAL1 rAg, or any particular portion thereof, with a particular disease state. Antibodies against RAL1 thus appear to be produced as a general immune reaction to O. volvulus infection and do not necessarily lead to a cross-reacting response with the host protein. In contrast, 33% of the patient sera tested bound recombinant human calreticulin. All of these sera also recognized a polypeptide encompassing the carboxyl-terminal portion of the RAL1 rAg. These results suggest that recognition of an epitope encoded in the carboxyl-terminal portion of RAL1 is at least in part responsible for inducing a cross-reacting immune response to the host protein.

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Onchocerciasis or "river blindness" is a vector-borne tropical disease resulting from infection with the filarial nematode Onchocerca volvulus. Disease manifestations include dermatitis, rheumatic complaints, and blindness. Recent findings have suggested an autoimmune etiology for the occurrence of chorioretinopathy, a disease of the eye which together with sclerosing keratoconjunctivitis is responsible for approximately 400,000 onchocerciasis-related cases of blindness. The identification of onchocerciasis as an important cause of tropical rheumatism prompted us to evaluate serologically the presence of systemic autoimmune disease in onchocerciasis patients and local controls from a hyperendemic area in Sierra Leone. In both groups there was a marked autoimmune response against cytoplasmic non-RNA-associated proteins consisting of autoantibodies against five major Ag with respective m.w. of 35, 51, 64, 83, and 110 kDa. These five proteins are novel autoantigens that could be distinguished from calreticulin, the human homologue of the onchocercal Ag RAL-1, and known autoantigens such as the 50-kDa La/SS-B or 52- and 60-kDa Ro/SS-A proteins by immunoblotting and ELISA assays. Furthermore, autoantibody reactivity against calreticulin was significantly higher in O. volvulus-infected individuals than in endemic controls. Autoantibody reactivity against the five major autoantigens, anti-calreticulin reactivity, and antibody reactivity against the 65-kDa arthritis-associated mycobacterial heat shock protein were intercorrelated as parts of an onchocerciasis-associated autoimmune response. The implication of autoimmunity in the disease pathogenesis of onchocerciasis could have important consequences for future research on therapeutical regimens, pathogenetic mechanisms, and serological diagnosis of onchocerciasis.

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Parallel investigations of yeast and metazoan pre-mRNA splicing have documented enormous complexity in the nucleic acid and protein components of the cellular splicing apparatus, the spliceosome. The degree to which yeast and metazoan spliceosomal proteins differ in composition and structure is currently unknown. In this report we demonstrate that the human small nuclear ribonucleoprotein (snRNP) polypeptide D1 complements the cell lethality, splicing deficiency, and snRNA instability phenotypes associated with a yeast smd1 null allele. Mutational analysis of yeast SMD1, guided by a comparison of the predicted yeast and human proteins, reveals that a large, nonconserved portion of Smd1p is dispensable for biological activity. These observations firmly establish D1 as an essential component of the cellular splicing apparatus and suggest that yeast and metazoa are remarkably similar in the polypeptides guiding early snRNP assembly.

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C-reactive protein (CRP) binds to chromatin, histones, and small nuclear ribonucleoproteins (snRNPs) through a phosphocholine (PC)-inhibitable, calcium-dependent binding site. snRNPs process pre-mRNA to mature mRNA and are composed of small uridine-rich RNAs (designated U1, U2, U5 and U4/U6) and associated proteins. We have shown that CRP binds to snRNPs in intact cells and to the U1 snRNP-specific 70 K protein in cell extracts. To determine whether CRP bound to other snRNP proteins, snRNPs were purified from rabbit thymus extract and CRP binding was assessed by blotting. CRP bound to a protein with the same mobility as Sm-D as well as to the 70 K protein. CRP specifically bound to and precipitated a fusion protein containing full-length Sm-D, confirming the binding of CRP to Sm-D. Binding was inhibited by PC and by EDTA. Binding studies using deletion mutants of the Sm-D fusion protein revealed that CRP binding was mediated by the C-terminal region of Sm-D, a region which binds autoantibodies and is proposed to bind to RNA. A comparison of the peptide regions on different autoantigens suggests that there is a shared motif to which CRP binds.

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The Sm-D(D1) small nuclear ribonucleoprotein (snRNP) polypeptide is a major target of autoantibodies diagnostic for systemic lupus erythematosus. The cDNA encoding the protein from Raji cells was expressed in Escherichia coli as a fusion protein with anthranilate synthase (TrpE-Sm-D). When tested by protein blot, the recombinant polypeptide was strongly immunoreactive under defined blotting conditions, which appear to facilitate the refolding of the polypeptide into a native conformation. Multiple translational fusions between the trpE gene and fragments encompassing the length of the Sm-D coding sequence were constructed for epitope mapping. The results describe two general patterns of anti-Sm reactivity: (i) antibodies that recognize only the full-length antigen and are presumably directed against discontinuous epitopes, and (ii) antibodies that recognize the carboxy terminus of the antigen which embodies an extended/charged structure.

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Alteration of the acrylamide:bisacrylamide ratio in the SDS-polyacrylamide gel used for Western blotting strongly improved the unambiguous detection of antibodies against 50-60 kDa autoantigens present in autoimmune patient sera. The relative migration of Ro52, the 56K autoantigen and calreticulin increased with reduced acrylamide:bisacrylamide ratios in contrast to that of Ro60, La and Jo-1. These analyses indicated that these six autoantigens correspond to six distinct polypeptides. Further analyses using recombinant calreticulin showed that (i) the 56K autoantigen is neither identical nor related to calreticulin and (ii) calreticulin is not a Ro autoantigen. A series of experiments designed to better characterize the 56K autoantigen showed that (i) the antigen is not detectable in fixed cells, presumably due to masking of the epitopes; (ii) about equal amounts of the antigen were recovered in nuclear and cytoplasmic cell fractions after enucleation of the cells; (iii) the 56K autoantigen is not stably associated with either RNA or other proteins.

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To conduct functional and autoimmunity studies, we overproduced human Sm-D1 (hSm-D1), a small nuclear ribonucleoprotein 'core' protein and autoantigen, in Escherichia coli and Saccharomyces cerevisiae. Optimal expression in these organisms was achieved by designing vectors that synthesized abundant hSm-D1 mRNA under the control of the strong, regulatable promoters: T7 phi 10 (E. coli) and GAL1 (yeast). In addition, efficient translation initiation of the hSm-D1 coding sequence was effected in E. coli by utilizing a two-cistron approach; for expression in yeast, we created a 5' untranslated leader whose sequence was based on the consensus of highly expressed genes in S. cerevisiae. The hSm-D1 protein accumulated at high levels in both bacteria and yeast, representing, respectively, approx. 10% and 7% of the total protein. However, in comparison with the authentic protein, the recombinant hSm-D1 displayed different immunoreactive determinants as assessed by Western blot. We thus conclude that certain hSm-D1 immunologic properties are most likely dependent on posttranslational modifications that take place in the cells of higher eukaryotes.

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Using recombinant fusion proteins representing different regions of the human Sm B/B' polypeptide, the 4B4 monoclonal anti-Sm antibody was found to bind a C-terminus epitope that is proline-rich. 4B4 cross-reacted with the p24 gag protein of HIV-1 and with other polypeptides rich in proline residues, including collagen. BALB/c mice immunized with human collagen not only produced antibodies to the immunizing antigen but also antibodies to Sm. This immune mouse serum also recognized C-terminus B/B' fusion proteins. These data suggest that the Sm B/B' antigen contains a poly-Pro epitope that is shared by several autoantigens and retroviral proteins. These sites may be important in the induction of autoantibodies through molecular mimicry.

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To investigate its cellular function and role in autoimmune disease pathogenesis, we have bacterially expressed human calreticulin, a major calcium-binding protein in the endoplasmic reticulum and a human autoantigen. This is the first report describing the heterologous expression of calreticulin from any source. The recombinant calreticulin constituted approximately 32% of the soluble Escherichia coli proteins, and was purified to apparent homogeneity by ion exchange and hydrophobic liquid chromatography. As does the bona fide protein, the recombinant calreticulin binds calcium and undergoes changes in its conformation upon Zn2+ binding. We take this as a strong indication that the folding of the E.coli-expressed calreticulin is very similar, if not identical, to that of the authentic protein. Moreover, the bacterially expressed calreticulin readily reacted with anti-human and anti-rabbit antibodies, and the anti-recombinant calreticulin antibodies immunoreacted with HeLa calreticulin. The availability of this expression system will allow us to carry out site-specific and deletion mutagenesis analysis in structure--function studies of calreticulin.

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