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Query: UNIPROT:P11021 (BiP)
 2,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Long-term memory for sensitization of the gill- and siphon-withdrawal reflexes in Aplysia californica requires RNA and protein synthesis. These long-term behavioral changes are accompanied by long-term facilitation of the synaptic connections between the gill and siphon sensory and motor neurons, which are similarly dependent on transcription and translation. In addition to showing an increase in over-all protein synthesis, long-term facilitation is associated with changes in the expression of specific early, intermediate, and late proteins, and with the growth of new synaptic connections between the sensory and motor neurons of the reflex. We previously focused on early proteins and have identified four proteins as members of the immunoglobulin family of cell adhesion molecules related to NCAM and fasciclin II. We have now cloned the cDNA corresponding to one of the late proteins, and identified it as the Aplysia homolog of BiP, an ER resident protein involved in the folding and assembly of secretory and membrane proteins. Behavioral training increases the steady-state level of BiP mRNA in the sensory neurons. The increase in the synthesis of BiP protein is first detected 3 h after the onset of facilitation, when the increase in overall protein synthesis reaches its peak and the formation of new synaptic terminals becomes apparent. These findings suggest that the chaperon function of BiP might serve to fold proteins and assemble protein complexes necessary for the structural changes characteristic of long-term memory.
J Cell Biol 1992 Dec
PMID:Long-term sensitization training in Aplysia leads to an increase in the expression of BiP, the major protein chaperon of the ER. 136 13

Wheat seed storage proteins are deposited in protein bodies (PB) inside vacuoles, but their subcellular site of aggregation and their route to vacuoles are still controversial. In the present work, an ultra structural analysis of developing wheat endosperm at early to mid maturation was performed to address these issues. Golgi complexes were rarely detected, indicating that their role in wheat storage protein transport is limited. In contrast, a considerable amount of PB was detected in the cytoplasm. Many of these PB were surrounded by RER membranes and were enlarged by fusion of smaller PB. Small, electron lucent vesicles were detected around the surfaces of the PB in the cytoplasm, or attached to them, suggesting that such attachments and subsequent fusion of the vesicles with each other lead to the formation of small vacuoles containing PB inclusions. Immunogold labeling with serum raised against yeast-BiP, an ER-localized protein, demonstrated that the wheat BiP homolog was present within the PB in the cytoplasm as well as inside vacuoles. This confirmed that the PB were formed within the RER and that the Golgi complex was not involved in their transport to vacuoles. It is concluded that a considerable part of the wheat storage proteins aggregate into PB within the RER and are then transported as intact PB to the vacuoles by a novel route that does not utilize the Golgi complex.
J Cell Biol 1992 Dec
PMID:Evidence for a novel route of wheat storage proteins to vacuoles. 144 91

Incubation of Swiss 3T3 cells with [2-3H]adenine, as in other cell types, reveals the ADP-ribosylation of GRP78 (the 78-kDa glucose-regulated protein, also known as BiP, the immunoglobulin heavy chain-binding protein), a resident endoplasmic reticulum protein that assists in the processing of proteins destined for secretion or cell surface expression. Here we show that Pasteurella multocida toxin, a potent growth factor for cultured fibroblasts, decreased the ADP-ribosylation of GRP78/BiP to 16 +/- 6% of the control value (n = 23). The action of the toxin occurred after a lag period, was blocked by lysosomotrophic agents, and potentiated by increased incubation time (ED50 4 ng/ml and 1 ng/ml in 4 and 8 h, respectively), thus indicating that the toxin enters the cells to act. Bombesin and platelet-derived growth factor (PDGF) similarly decreased the ADP-ribosylation of GRP78/BiP (ED50 0.5 nM and 2.5 ng/ml, respectively) but acted more rapidly than the toxin. Signaling pathways activated by the toxin, bombesin, and PDGF had effects on the ADP-ribosylation of GRP78/BiP. Thus, activation of protein kinase C alone by phorbol 12,13-dibutyrate was partially effective, and down-regulation of protein kinase C attenuated but did not block the action of the toxin, bombesin, and PDGF. Agents that mobilize Ca2+ from the endoplasmic reticulum (A23187, ionomycin, and thapsigargin) caused a decrease in the ADP-ribosylation of GRP78/BiP that was similar in magnitude to that achieved by the toxin, bombesin, and PDGF, implicating a role for inositol 1,4,5-trisphosphate-mediated Ca2+ mobilization in the action of the mitogenic agents. The growth factor-induced decrease in the ADP-ribosylation of GRP78/BiP may represent its conversion from an inactive to an active state.
J Biol Chem 1992 Dec 15
PMID:Interconversion of GRP78/BiP. A novel event in the action of Pasteurella multocida toxin, bombesin, and platelet-derived growth factor. 146 24

Recombinant human insulin-like growth factor-1 (IGF1) secreted from yeast contains only 10-15% of the active monomer. A majority of the IGF1-like molecules are disulfide bonded dimers. These dimers are not formed in an IGF1 mutant where Lys27 has been replaced by glutamic acid. However, increased levels of secreted BiP (the yeast KAR2 gene product) are seen in cells expressing the mutant. These results imply that by preventing ionic interactions between two IGF1 molecules, intermolecular disulfide bonds do not form in yeast, and that in the mutant there is a structural change which induces BiP, allowing its secretion.
FEBS Lett 1991 Dec 09
PMID:A Lys27-to-Glu27 mutation in the human insulin-like growth factor-1 prevents disulfide linked dimerization and allows secretion of BiP when expressed in yeast. 175 63

Starvation of Mouse hepatoma cells for essential amino acids or glucose results in the mono-ADP-ribosylation of the 78 kDa glucose-regulated protein, GRP78. Here we show that the ADP-ribosylated and non-ADP-ribosylated forms of GRP78 are interconvertible during tryptophan starvation and refeeding. In addition, the ADP-ribosylation of GRP78 was shown to be reversible even during nutritional stress. The overexpressed pool of non-ADP-ribosylated GRP78 synthesized during tunicamycin treatment was available for ADP-ribosylation during subsequent amino acid starvation, especially in the absence of tunicamycin. The reversible ADP-ribosylation of GRP78 could be part of a metabolic control mechanism in operation during nutritional stress.
FEBS Lett 1990 Dec 10
PMID:Reversible ADP-ribosylation of the 78 kDa glucose-regulated protein. 226 6

The RER retains a specific subset of ER proteins, many of which have been shown to participate in the translocation of nascent secretory and membrane proteins. The mechanism of retention of RER specific membrane proteins is unknown. To study this phenomenon in yeast, where no RER-specific membrane proteins have yet been identified, we expressed the human RER-specific protein, ribophorin I. In all mammalian cell types examined, ribophorin I has been shown to be restricted to the membrane of the RER. Here we ascertain that yeast cells correctly target, assemble, and retain ribophorin I in their RER. Floatation experiments demonstrated that human ribophorin I, expressed in yeast, was membrane associated. Carbonate (pH = 11) washing and Triton X-114 cloud-point precipitations of yeast microsomes indicated that ribophorin I was integrated into the membrane bilayer. Both chromatography on Con A and digestion with endoglycosidase H were used to prove that ribophorin I was glycosylated once, consistent with its expression in mammalian cells. Proteolysis of microsomal membranes and subsequent immunoblotting showed ribophorin I to have assumed the correct transmembrane topology. Sucrose gradient centrifugation studies found ribophorin I to be included only in fractions containing rough membranes and excluded from smooth ones that, on the basis of the distribution of BiP, included smooth ER. Ribosome removal from rough membranes and subsequent isopycnic centrifugation resulted in a shift in the buoyant density of the ribophorin I-containing membranes. Furthermore, the rough and density-shifted fractions were the exclusive location of protein translocation activity. Based on these studies we conclude that sequestration of membrane proteins to rough domains of ER probably occurs in a like manner in yeast and mammalian cells.
J Cell Biol 1990 Dec
PMID:Protein retention in yeast rough endoplasmic reticulum: expression and assembly of human ribophorin I. 226 58

BiP is a member of the Hsp70 heat shock protein family found in the lumen of the endoplasmic reticulum, that binds to a variety of proteins destined to be secreted. Substance P (SP) has been used as a model peptide to study the interaction of BiP with protein substrates. SP stimulates BiP ATPase activity and forms a stable complex with BiP that is dissociated in the presence of levels of ATP > 50 microM. At lower concentrations of ATP, the SP remains bound to BiP, and the results are consistent with the view that a BiP-ATP complex is initially formed that reacts with SP to form a ternary complex, SP-BiP-ATP. Hydrolysis of ATP in this complex yields a SP-BiP-ADP complex. An exchange of ATP with ADP bound to BiP has also been demonstrated, and the results suggest that the interactions of BiP with ATP resemble those seen with GTP-binding proteins and GTP.
Proc Natl Acad Sci U S A 1994 Dec 06
PMID:Similarity of nucleotide interactions of BiP and GTP-binding proteins. 752 51

Members of the 70-kD heat shock protein family have been found in all free-living organisms investigated and in major compartments of eukaryotic cells where they are essential to a wide range of functions, including protein folding and targeting. We have isolated a mitochondrial homolog (mtHSP70) from rat liver using ATP agarose affinity chromatography. Its identity was confirmed on the basis of immunological analysis and Ca(2+)-dependent autophosphorylation. Using protein sequence obtained from the amino termius and nine endo Lys-C peptide fragments, we have employed oligonucleotides to isolate a full-length cDNA clone. The open reading frame encodes a protein of 679 amino acids and calculated M(r) 73,913 daltons. The sequence has a high degree of identity with other members of the HSP70 family, including Escherichia coli DnaK (51%), Saccharomyces cerevisiae SSC1p (65%), the constitutive cytosolic HSP70 from rat, HSC70 (46%), and the rat endoplasmic reticulum isoform, BiP, (49%). The cDNA encodes a precursor protein with a 46-amino-acid signal peptide that is absent from the protein isolated from rat liver. The protein also shows a high degree of identity (98%) with a protein isolated from mouse and human tissues (PBP74, Domanico et al., 1993; mortalin, Wadhwa et al., 1993a; CSA, Michikawa et al., 1993a); however, the intracellular localization of these proteins is uncertain. We show that the precursor of mtHSP70 is efficiently imported into isolated mitochondria from rat liver and processed from 74 kD to the mature 69-kD protein.
DNA Cell Biol 1994 Dec
PMID:cDNA cloning and efficient mitochondrial import of pre-mtHSP70 from rat liver. 781 87

The assembly pathway of the insect cell Spodoptera frugiperda (Sf-9) was engineered to include expression of the murine chaperone immunoglobulin heavy chain binding protein (BiP) using the baculovirus vector. The impact of BiP coexpression on the production and secretion of functional and soluble recombinant immunoglobulin IgG levels was evaluated. Recombinant BiP was found to associate specifically with immunoglobulins in immunoprecipitation studies. Coinfection of insect cells with a BiP-containing baculovirus and baculoviruses coding for two different murine IgG proteins increased intracellular functional antibody activity levels substantially above the levels observed in the absence of BiP. Soluble intracellular immunoglobulin levels were found to increase as well. However, secreted functional antibody levels did not increase significantly. Also, degradation of heavy chain immunoglobulin in insect cells was indicated by the accumulation of lower molecular weight immunoglobulins at 4 days postinfection. Coexpression of light chains reduced the level of these lower molecular weight immunoglobulins while BiP coexpression led to enhanced levels. These findings suggest that coexpressed BiP can increase intracellular soluble and functional antibody yields but that secretion in the baculovirus-insect cell system must be limited at some post-translational step.
Protein Expr Purif 1994 Dec
PMID:Effects of co-expressing chaperone BiP on functional antibody production in the baculovirus system. 785 30

It has been shown previously that growth and endoplasmic reticulum (ER) translocation defects occur in response to depletion of the 54-kDa subunit of signal recognition particle (SRP54) in Saccharomyces cerevisiae (Hann, B. B., and Walter, P. (1991) Cell 67, 131-144). We report here that cells depleted of SRP54p undergo a general stress response, the onset of which is observed almost two-cell doublings after SRP54 protein levels fall below the limits of detection. The stress response to SRP54p depletion occurs in two distinct phases, unlike the response to other stressors such as heat shock. In the initial phase, the cytoplasmic Hsp70 levels are drastically increased coincident with an abrupt slowing of growth and accumulation of untranslocated species of the ER-resident chaperone BiP. During this first response, levels of the yeast DnaJ homolog Ydj1p are also increased. In the second phase, which is detected 5 h later, levels of the cytoplasmic heat shock proteins Hsp82 and Hsp104 are increased. BiP is also induced during this second phase, while the ER levels of the resident foldase protein disulfide isomerase are significantly reduced. Since only those cytoplasmic stress proteins which have been shown to participate in membrane translocation are induced in the first phase, these findings indicate the presence of a stress response specific to accumulation of secretory protein precursors in the cytoplasm.
J Biol Chem 1994 Dec 02
PMID:The stress response to loss of signal recognition particle function in Saccharomyces cerevisiae. 798 55


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