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Query: UNIPROT:P11021 (
BiP
)
2,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Constitutive 70-kDa heat shock protein (hsc70) is a mixture of monomers and oligomers in
ADP
, while in ATP it is monomeric unless certain DnaJ homologs are present which induce hsc70 to form large polymers in an ATP-dependent reaction. A key question regarding polymerized hsc70 is whether it is able to bind protein substrates. Polymerized
BiP
, the hsc70 present in the endoplasmic reticulum, has been found to bind substrates in vitro although substrates appear to bind only to monomeric
BiP
in vivo. In this study, we investigated whether substrate binds to polymerized cytoplasmic hsc70 in vitro. Although both stoichiometric ATP and high concentrations of cytochrome c peptide monomerized hsc70, direct binding studies provided no evidence that cytochrome c peptide binds to polymerized hsc70. Furthermore, the time course of cytochrome c peptide and clathrin binding to hsc70 suggested that rather than binding to polymerized hsc70, they monomerized it by reducing free monomer, thereby shifting the monomer-polymer equilibrium toward monomer. We conclude that peptide and protein substrates bind at least an order of magnitude more weakly to polymerized hsc70 than to monomer, suggesting that polymerization of hsc70 in vivo, perhaps by DnaJ homologs, may store it in an inactive form.
...
PMID:Effect of constitutive 70-kDa heat shock protein polymerization on its interaction with protein substrate. 866 41
A rapid and simple spin column assay has been used to study interactions of
BiP
with substance P (SP) and ATP. At 4 degrees C, the binding of SP to
BiP
requires ATP and a stable SP-
BiP
.ATP complex is formed. Nonhydrolyzable ATP analogues or
ADP
cannot replace ATP. Although ATP converts
BiP
dimers to monomers, the requirement for ATP for SP binding is not solely due to
BiP
dissociation, because purified
BiP
monomers also require ATP for peptide binding. At 37 degrees C, there is rapid binding of SP to
BiP
even in the absence of ATP and, in fact, ATP at concentrations above 5 microM causes release of SP from
BiP
. At this higher temperature, there is also rapid hydrolysis of ATP bound to
BiP
. These results extend our previous results (Brot et al., 1994) that indicated the formation, at low ATP concentrations, of a labile SP.
BiP
.ATP complex that, after ATP hydrolysis, resulted in a stable SP.
BiP
.
ADP
complex.
...
PMID:Interaction of BiP with substance P and nucleotides. 886 87
To investigate the role of each domain in
BiP
/GRP78 function, we have used a full-length recombinant
BiP
engineered to contain two enterokinase sites; one site is located after an N-terminal FLAG epitope, and a second site has been inserted at the junction between the N- and C-terminal domains (FLAG-
BiP
.ent). FLAG-
BiP
.ent oligomerizes into multiple species that interconvert with each other in a slow, concentration- and temperature-dependent equilibrium. Binding of ATP or AMP-PNP (adenosine 5'-(beta, gamma-imino)triphosphate), but not
ADP
, or of a peptidic substrate induces depolymerization of FLAG-
BiP
.ent and stabilization of monomeric species. Enterokinase cleavage of monomeric, nucleotide-free
BiP
.ent results in the physical dissociation of the 44-kDa N-terminal ATPase fragment (N44.ent) from the 30-kDa C-terminal substrate binding domain (C30.ent). Upon dissociation, the freed C-terminal substrate binding domain readily undergoes self-association while N44.ent remains monomeric. Enterokinase cleavage performed in the presence of a synthetic peptide prevents oligomerization of the freed C30.ent domain. Addition of ATP during enterokinase cleavage has no effect on C30.ent oligomerization. Our data clearly indicate that binding of a specific peptide onto the C-terminal domain, or ATP onto the N-terminal domain, induces internal conformational change(s) within the C30 domain that result(s) in
BiP
depolymerization.
...
PMID:Substrate binding induces depolymerization of the C-terminal peptide binding domain of murine GRP78/BiP. 975 27
The role of GRP78/
BiP
in coordinating endoplasmic reticular (ER) protein processing with mRNA translation was examined in GH3 pituitary cells.
ADP
-ribosylation of GRP78 and eukaryotic initiation factor (eIF)-2alpha phosphorylation were assessed, respectively, as indices of chaperone inactivation and the inhibition of translational initiation. Inhibition of protein processing by ER stress (ionomycin and dithiothreitol) resulted in GRP78 deribosylation and eIF-2 phosphorylation. Suppression of translation relative to ER protein processing (cycloheximide) produced approximately 50%
ADP
-ribosylation of GRP78 within 90 min without eIF-2 phosphorylation.
ADP
-ribosylation was reversed in 90 min by cycloheximide removal in a manner accelerated by ER stressors. Cycloheximide sharply reduced eIF-2 phosphorylation in response to ER stressors for about 30 min; sensitivity returned as GRP78 became increasingly
ADP
-ribosylated. Reduced sensitivity of eIF-2 to phosphorylation appeared to derive from the accumulation of free, unmodified chaperone as proteins completed processing without replacements. Prolonged (24 h) incubations with cycloheximide resulted in the selective loss of the
ADP
-ribosylated form of GRP78 and increased sensitivity of eIF-2 phosphorylation in response to ER stressors. Brefeldin A decreased
ADP
-ribosylation of GRP78 in parallel with increased eIF-2 phosphorylation. The cytoplasmic stressor, arsenite, which inhibits translational initiation through eIF-2 phosphorylation without affecting the ER, also produced
ADP
-ribosylation of GRP78.
...
PMID:The dynamic role of GRP78/BiP in the coordination of mRNA translation with protein processing. 986 69
Stathmin is a ubiquitous cytosolic phosphoprotein participating in the relay and integration of diverse intracellular signaling pathways involved in the control of cell proliferation, differentiation, and activities. It is phosphorylated in response to diverse extracellular signals including hormones and growth factors, and it is highly expressed during development and in diverse tumoral cells and tissues. Stathmin interacts with tubulin and other potential protein partners such as
BiP
, KIS, CC1 and CC2/tsg101. In our present search for further functional partners of stathmin, we identified proteins in the Hsp70 family, and in particular Hsc70, as interacting with stathmin in vitro. Hsc70 is among the proteins coimmunoprecipitated with stathmin, and it is the main protein retained specifically on stathmin-Sepharose beads identified by one- and two-dimensional electrophoresis and immunoblots. Bovine serum albumin (BSA)-Sepharose did not bind Hsc70, and anti-stathmin antisera specifically inhibited the interaction of Hsc70 with stathmin-Sepharose. The binding of Hsc70 to stathmin is dependent on the phosphorylation status of stathmin, as it did not occur with a "pseudophosphorylated" mutant form of stathmin. This interaction is further dependent on the ATP status of Hsc70. It was inhibited in the presence of ATP-Mg++ but not in the presence of ATP-Mg++ and ethylenediaminetetraacetic acid (EDTA) or of
ADP
. Our results suggest that the interaction of stathmin with Hsc70 is specific in both proteins and most likely biologically relevant in the context of their functional implication in the control of numerous intracellular signaling and regulatory pathways, and hence of normal cell growth and differentiation.
...
PMID:Stathmin interaction with HSC70 family proteins. 1019 48
Entamoeba histolytica, the protozoan parasite that phagocytoses bacteria and host cells, has a vesicle/vacuole-filled cytosol like that of macrophages. In contrast, the infectious cyst form has four nuclei and a chitin wall. Here, anti-chitinase antibodies identified hundreds of small secretory vesicles in encysting E. invadens parasites and in E. histolytica trophozoites overexpressing chitinase under an actin gene promoter. Abundant small secretory vesicles were also identified with antibodies to the surface antigen Ariel and with a fluorescent substrate of cysteine proteinases. Removal of an N-terminal signal sequence directed chitinase to the cytosol. Addition of a C-terminal KDEL peptide, identified on amebic
BiP
, retained chitinase in a putative endoplasmic reticulum, which was composed of a few vesicles of mixed sizes. A putative Golgi apparatus, which was Brefeldin A sensitive and composed of a few large, perinuclear vesicles, was identified with antibodies to
ADP
-ribosylating factor and to epsilon-COP. We conclude that the amebic secretory pathway is similar to those of other eukaryotic cells, even if its appearance is somewhat different.
...
PMID:Chitinase secretion by encysting Entamoeba invadens and transfected Entamoeba histolytica trophozoites: localization of secretory vesicles, endoplasmic reticulum, and Golgi apparatus. 1033 23
Proteins of the Hsp70 family of ATPases interact with a conserved domain of their J-protein partners, the J-domain, to function in numerous cellular processes. We have studied the interaction of
BiP
, an Hsp70 family member in the lumen of the endoplasmic reticulum, with the J-domain of Sec63p, a component of the Sec complex involved in post-translational protein translocation across the endoplasmic reticulum membrane. In a real-time solid phase binding assay,
BiP
binds to the immobilized Sec complex or to a fusion protein of the J-domain and glutathione S-transferase in a reaction that requires ATP hydrolysis. In the final complex,
BiP
is bound in the
ADP
form with its peptide binding pocket occupied. An intact peptide binding pocket is required for this interaction. Our experiments suggest that the activation of
BiP
by the J-domain involves a transient contact between these components, and that in the absence of physiological substrates, J-activated
BiP
binds even to the J-proteins themselves.
...
PMID:Interaction of BiP with the J-domain of the Sec63p component of the endoplasmic reticulum protein translocation complex. 1040 Jun 22
DnaJ proteins are located in various compartments of the eukaryotic cell. As previously shown, peroxisomes and glyoxysomes possess a membrane-anchored form of DnaJ protein located on the cytosolic face. Hints as to how the membrane-bound co-chaperone interacts with cytosolic soluble chaperones were obtained by examining the affinity between the DnaJ protein and various potential partners of the Hsp70 family. Two genes encoding cytosolic Hsp70 isoforms were isolated and characterized from cucumber cotyledons. In addition, cDNAs encoding Hsp70 forms attributed to the cytosol, plastids and the lumen of the endoplasmic reticulum were prepared. His-tagged DnaJ proteins and glutathione S-transferase-Hsp70 fusion proteins were constructed. Using these tools, it was demonstrated that the soluble His-tagged form of DnaJ protein exclusively binds the cytosolic isoform 1 of Hsp70. This interaction was further analyzed by characterizing the interaction between the glyoxysome-bound form of the DnaJ protein and various isoforms of Hsp70. Specific binding to the glyoxysomal surface was only observed in the case of cytosolic isoform 1 of Hsp70. This interaction was strictly dependent on the presence of
ADP
. Glyoxysomes did not bind other cytosolic or plastidic isoforms or the
BiP
-related form of Hsp70. Analyzing the enzymatic properties of cytosolic Hsp70s, we showed that the ATPase-modulating activity of DnaJ was highest when isoform 1 was assayed. Collectively, the data indicate that the partner of the DnaJ protein anchored at the glyoxysomal membrane is the cytosolic isoform 1 of Hsp70. In addition to the chaperones located at the surface of glyoxysomes, two isoforms of Hsp70 and one soluble form of DnaJ protein were detected in the glyoxysomal matrix.
...
PMID:The membrane-bound DnaJ protein located at the cytosolic site of glyoxysomes specifically binds the cytosolic isoform 1 of Hsp70 but not other Hsp70 species. 1065 11
1. A combination of patch clamp, confocal microscopy and immunohistochemistry was used to examine the spatial properties of Ca2+ signalling in the rat megakaryocyte, a non-excitable cell type in which membrane potential can markedly modulate agonist-evoked Ca2+ release. 2. Intracellular calcium ion concentration ([Ca2+]i) increases, stimulated by both
ADP
and depolarisation, frequently originated from a peripheral locus and spread as a wave throughout the cell. Spatially restricted [Ca2+]i increases, consistent with elementary Ca2+ release events, were occasionally observed prior to
ADP
-evoked waves. 3.
ADP
- and depolarisation-evoked Ca2+ waves travelled approximately twice as fast around the periphery of the cell compared to across its radius, leading to a curvilinear wavefront. There was no significant difference between wave velocities generated by the two stimuli. 4. Immunohistochemical staining of type III IP3 receptors, the endoplasmic reticulum-specific protein GRP78/
BiP
and calreticulin indicated a major peripheral location of the cellular Ca2+ stores which probably accounts for the accelerated wave velocity at the cell periphery. 5. These data demonstrate that [Ca2+]i increases, stimulated by depolarisation or the agonist
ADP
, have indistinguishable spatial properties, providing evidence that similar underlying mechanisms are responsible for their generation.
...
PMID:Depolarisation-evoked Ca2+ waves in the non-excitable rat megakaryocyte. 1173 71
We report on the identification of Fes1p (yBR101cp) as a cytosolic homologue of Sls1p, an endoplasmic reticulum (ER) protein previously shown to act as a nucleotide exchange factor for yeast
BiP
(M. Kabani, J.-M. Beckerich, and C. Gaillardin, Mol. Cell. Biol. 20:6923-6934, 2000). We found that Fes1p associates preferentially to the
ADP
-bound form of the cytosolic Hsp70 molecular chaperone Ssa1p and promotes nucleotide release. Fes1p activity was shown to be compartment and species specific since Sls1p and Escherichia coli GrpE could not substitute for Fes1p. Surprisingly, whereas Sls1p stimulated the ATPase activity of
BiP
in cooperation with luminal J proteins, Fes1p was shown to inhibit the Ydj1p-mediated activation of Ssa1p ATPase activity in steady-state and single-turnover assays. Disruption of FES1 in several wild-type backgrounds conferred a strong thermosensitive phenotype but partially rescued ydj1-151 thermosensitivity. The Delta fes1 strain was proficient for posttranslational protein translocation, as well as for the ER-associated degradation of two substrates. However, the Delta fes1 mutant showed increased cycloheximide sensitivity and a general translational defect, suggesting that Fes1p acts during protein translation, a process in which Ssa1p and Ydj1p are known to be involved. In support of this hypothesis, Fes1p was found to be associated with ribosomes.
...
PMID:Nucleotide exchange factor for the yeast Hsp70 molecular chaperone Ssa1p. 1205 76
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