Abstract. Interaction with extraceUular matrix can trigger a variety of responses by cells including changes in specific gene expression and cell differentiation. The mechanism by which cell surface events are coupled to the transcriptional machinery is not understood, however, proteins localized at sites of cell-substratum contact are likely to function as signal transducers. We have recently purified and characterized a low abundance adhesion plaque protein called zyxin (Crawford, A. W., and M. C. Beckerle. 1991. J. Biol. Chem. 266:5847-5853; Crawford, A. W., J. W. Michelsen, and M. C. Beckerle. 1992. J. Cell Biol. 116:1381-1393. We have now isolated and sequenced zyxin cDNA and we report here that zyxin exhibits an unusual proline-rich NH2-terminus followed by three tandemly arrayed LIM domains. LIM domains have previously been identified in proteins that play important roles in transcriptional regulation and cellular differentiation. LIM domains have been proposed to coordinate metal ions and we have demonstrated by atomic absorption spectroscopy that purified zyxin binds zinc, a result consistent with the idea that zyxin has zinc fingers. In addition, we have discovered that zyxin interacts in vitro with a 23-kD protein that also exhibits LIM domains. Microsequence analysis has revealed that the 23-kD protein (or cCRP) is the chicken homologue of the human cysteine-rich protein (hCRP). By double-label indirect immunofluorescence, we found that zyxin and cCRP are extensively colocalized in chicken embryo fibroblasts, consistent with the idea that they interact in vivo. We conclude that LIM domains are zinc-binding sequences that may be involved in protein-protein interactions. The demonstration that two cytoskeletal proteins, zyxin and cCRP, share a sequence motif with proteins important for transcriptional regulation raises the possibility that zyxin and cCRP are components of a signal transduction pathway that mediates adhesion-stimulated changes in gene expression.
Abstract. When nuclear localization sequences (termed NLS) are placed at the N terminus of cytochrome ca, a mitochondrial inner membrane protein, the resulting hybrid proteins do not assemble into mitochondria when synthesized in the yeast Saccharomyces cerevisiae. Cells lacking mitochondrial cytochrome c~, but expressing the hybrid NLScytochrome c, proteins, are unable to grow on glycerol since the hybrid proteins are associated primarily with the nucleus. A similar hybrid protein with a mutant NLS is transported to and assembled into the mitochondria. To identify proteins that might be involved in recognition of nuclear localization signals, we isolated conditional-lethal mutants (npl, for nuclear protein localization) that missorted NLS-cytochrome c, to the mitochondria, allowing growth on glycerol. The gene corresponding to one complementation group (NPLI) encodes a protein with homology to DnaJ, an Escherichia coli heat shock protein, npU-1 is allelic to sec63, a gene that affects transit of nascent secretory proteins across the endoplasmic reticulum. Rothblatt, J. A., R. J. Deshaies, S. L. Sanders, G. Daum, and R. Schekman. 1989. J. Cell Biol. 109:2641-2652. The npU mutants reported here also weakly affect translocation of preprocarboxypeptidaseY across the ER membrane. A normally nuclear hybrid protein containing a NLS fused to invertase and a nucleolar protein are not localized to the nucleus in np11/sec63 cells at the nonpermissive temperature. Thus, NPLI/SEC63 may act at a very early common step in localization of proteins to the nucleus and the ER. Alternatively, by affecting ER and nuclear envelope assembly, npll may indirectly alter assembly of proteins into the nucleus.ACH organelle in a eukaryotic cell has a distinct set of proteins that are necessary for its specific function. Certain peptides can act as signals to localize proteins to particular organelles such as the ER, the mitochondria (Verner and Schatz, 1988) and the nucleus (Silver and Hall, 1988). Several proteins have been identified that mediate the recognition of ER-destined proteins and their subsequent translocation across or assembly into the ER membrane (Walter and Blobel, 1980;Meyer et al., 1982;Tajima et al., 1986; Wiedrnan et al., 1987). Receptors have been proposed for mitochondrial signal peptides (Pfaller and Neupert, 1987;Pfanner et al., 1987) and recently a receptor for protein import into chloroplasts has been identified (Pain et al., 1988). By analogy, similar components may exist for localization of proteins to the nucleus.Nuclear localization sequences (NLS)' are stretches of amino acids that are capable of redirecting nonnuclear pro-1. Abbreviations used in this paper: DAPI, diamidinophenylindole; EMS, ethyl methanesulfonate; NLS, nuclear localization sequences; preproCPY, preprocarboxypeptidase Y.teins such as/$-galactosidase to the nucleus. When the first 74 amino acids of the yeast DNA binding protein GAL4 are joined to/~-galactosidase, the result is a fusion protein that is found exclusively in the yeast nucleus as...
Staphylococcus aureus and Streptococcus pyogenes express pyrogenic toxin superantigens (PTSAgs) that are associated with toxic shock syndrome (TSS) and staphylococcal food poisoning (SFP). Most PTSAgs cause TSS in deep-tissue infections, whereas only TSS toxin 1 (TSST-1) is associated with menstrual, vaginal TSS. In contrast, SFP has been linked only with staphylococcal enterotoxins (SEs). Because of the differential abilities of PTSAgs to cause systemic or localized symptoms in a site-dependent manner, the present study was undertaken to assess the toxins' abilities to cross mucosal barriers. The activity of three PTSAgs when delivered orally, vaginally, or intravenously to rabbits and orally to monkeys was investigated. TSST-1 induced shock via all three routes in rabbits. Although active when administered intravenously, SEC1 and streptococcal pyrogenic exotoxin A (SPEA) did not cause symptoms when administered orally or vaginally. Only SEC1 induced emesis in the monkey feeding assay. TSST-1, albeit less stable than SEC1 and SPEA to pepsin, induced diarrhea in monkeys. Our results may explain the unique association of TSST-1 with menstrual TSS and why SPEA is only rarely associated with TSS after pharyngitis, despite being highly associated with TSS after subcutaneous infections. Finally, our studies indicate that enterotoxicity in SFP is not the result of superantigenicity.
Cytochrome c1 is a component of the mitochondrial respiratory chain in most eukaryotes. The protein is coded by nuclear DNA, synthesized as a larger precursor outside the mitochondria and then cleaved to the mature form in two successive steps during its import into the mitochondria. We have cloned the structural gene for yeast cytochrome c1 by functional complementation of a cytochrome c1‐deficient yeast mutant with a yeast genomic library in the yeast‐Escherichia coli ‘shuttle’ vector YEp 13. The complete nucleotide sequence of the gene and of its 5′‐ and 3′‐flanking regions was determined. The deduced amino acid sequence of the yeast cytochrome c1 precursor reveals an unusually long transient amino‐terminal presequence of 61 amino acids. This presequence consists of a strongly basic amino‐terminal region of 35 amino acids, a central region of 19 uncharged amino acids and an acidic carboxy‐terminal region of seven amino acids. This tripartite structure of the presequence resembles that of the precursor of cytochrome c peroxidase and supports a previous suggestion on the import pathways of these two precursors.
Abstract. A variety of peptides can mediate the localization of proteins to the nucleus. We have identified yeast proteins of 70 and 59 kD that bind to nuclear localization peptides of SV-40 T antigen, Xenopus nucleoplasmin, and the yeast proteins Gal4 and histone H2B. These proteins are assayed by the binding of peptide-albumin conjugates to proteins immobilized on nitrocellulose filters. These binding proteins fractionate with nuclei and are extractable with salt but not detergent. Radiolabeled peptide-albumin conjugates also bind to isolated nuclei; the binding is saturable and can be extracted with salt. Different nuclear localization peptides compete with each other, implying that a single class of proteins is responsible for their recognition. The 70-and 59-kD proteins have the properties expected for a receptor that would act to direct proteins to the nucleus. istinct set of proteins is localized to the nucleus. By one model, transport of proteins from the cytoplasm into the nucleus is triggered by specific interaction of a short amino acid sequence (termed a nuclear localization sequence [NLS]') within the transported protein and a receptor, perhaps at the nuclear pore. This model is supported by the existence of discrete nuclear localization sequences within nuclear proteins (Dingwall et al., 1982;Kalderon et al., 1984a;Lanford and Butel, 1984;Silver et al., 1984;Hall et al., 1984). These sequences are necessary for specific transport across the nuclear envelope and are sufficient to cause nonnuclear proteins to enter the nucleus.Recent evidence argues for the existence of an apparatus that would recognize nuclear localization sequences and transport proteins into the nucleus. (a) Uptake of proteins into Xenopus oocyte nuclei is saturable (Goldfarb et al., 1986); (b) Depletion of ATP blocks nuclear protein accumulation both in vivo (Newmeyer et al., 1986a) and in vitro (Markland et al., 1987;Newmeyer and Forbes, 1988), consistent with specific transport requiring energy. (c) Nuclear protein uptake can be separated into at least two steps: binding at the nuclear envelope followed by ATP-dependent trans= location through the pore Newmeyer and Frobes, 1988).Genetically or chemically conjugated peptides (derived from nuclear proteins) direct nonnuclear proteins to the nucleus (for example, see Kalderon et al., 1984b;Silver et al., 1984; Laaford et al., 1986). These peptides contain many basic amino acids, but otherwise have little sequence similarity. One of the best characterized nuclear localization sequences is PKKKRKV, found in SV-40 T antigen between amino acids 126 and 132 (Kalderon et al., 1984b; Roberts et all., 1987). We have previously shown that the SV-40 T antigen NLS functions in the yeast, Saccharomyces cerevisiae, to direct normally cytoplasmic proteins to the nucleus (Nel- son and Silver, 1989). Moreover, a single amino acid change in the SV-40 T antigen NLS reduces its function in animal cells (Kalderon et al., 1984a;Lanford and Butel, 1984), as well as in yeast (Nelson and Silver, 1989)....
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