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Query: UNIPROT:P50502 (
Hip
)
7,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous studies on the assembly of progesterone receptor (PR) complexes in vitro have suggested that PR assembly is a dynamic, ordered process involving at least eight nonreceptor proteins. One of these proteins, p60, appears transiently during assembly and is not a component of functionally mature PR complexes. In the present study we observe that a monoclonal antibody specific for p60 can, on the one hand, inhibit formation of mature PR complexes containing heat shock protein 90 (hsp90), p23, and immunophilins and, on the other, enhance recovery of early PR complexes containing
hsp70
and
Hip
(p48). This observation supports a model in which p60 functions at an intermediate stage of PR assembly to facilitate formation of subsequent PR complexes lacking p60. Since p60 is typically found in a complex with hsp90 and
hsp70
, we have further characterized its interactions with these proteins. P60 can bind either
hsp70
or hsp90 independently and in an ATP-independent manner. Since hsp90 and
hsp70
do not readily associate on their own, it appears that p60 is the central organizing component of an hsp90-p60-
hsp70
complex. Mutational analysis of p60 indicates that the N terminus is required for
hsp70
binding, and a central region containing tetratricopeptide repeat motifs is necessary for binding hsp90 and
hsp70
. The hsp90-p60-
hsp70
multichaperone complex is highly dynamic and does not appear to be affected by the hsp90-binding drug geldanamycin. The interactions of
hsp70
and hsp90 in intermediate PR complexes are shown to be distinct from their separate interactions in early PR complexes (
hsp70
) or in mature PR complexes (hsp90). From these results, it appears that p60 is a key mediator in the chaperoned assembly and functional maturation of PR complexes.
...
PMID:Interactions of p60, a mediator of progesterone receptor assembly, with heat shock proteins hsp90 and hsp70. 877 28
The hsp70-interacting protein
Hip
participates in the assembly pathway for progesterone receptor complexes. During assembly,
Hip
appears at early assembly stages in a transient manner that parallels
hsp70
interactions. In this study, a cDNA for human
Hip
was used to develop various mutant
Hip
forms in the initial mapping of functions to particular
Hip
structural elements.
Hip
regions targeted for deletion and/or truncation included the C-terminal region (which has some limited homology with Saccharomyces cerevisiae Sti1 and its vertebrate homolog p60), a glycine-glycine-methionine-proline (GGMP) tandem repeat, and a tetratricopeptide repeat (TPR). Binding of
Hip
to
hsp70
's ATPase domain was lost with deletions from the TPR and from an adjoining highly charged region; correspondingly, these
Hip
mutant forms were not recovered in receptor complexes. Truncation of
Hip
's Sti1-related C terminus resulted in
Hip
binding to
hsp70
in a manner suggestive of a misfolded peptide substrate; this
hsp70
binding was localized to the GGMP tandem repeat. Mutants lacking either the C terminus or the GGMP tandem repeat were still recovered in receptor complexes. Truncations from
Hip
's N terminus resulted in an apparent loss of
Hip
homo-oligomerization, but these mutants retained association with
hsp70
and were recovered in receptor complexes. This mutational analysis indicates that
Hip
's TPR is required for binding of
Hip
with
hsp70
's ATPase domain. In addition, some data suggest that
hsp70
's peptide-binding domain may alternately or concomitantly bind to
Hip
's GGMP repeat in a manner regulated by Sti1-related sequences.
...
PMID:Mutational analysis of the hsp70-interacting protein Hip. 888 50
Folding of newly synthesized proteins in vivo is believed to be facilitated by the cooperative interaction of a defined group of proteins known as molecular chaperones. We investigated the direct interaction of chaperones with nascent polypeptides in the cytosol of mammalian cells by multiple methods. A new approach using a polyclonal antibody to puromycin allowed us to tag and capture a population of truncated nascent polypeptides with no bias as to the identity of the bound chaperones. In addition, antibodies that recognize the cytosolic chaperones
hsp70
, CCT (TRiC), hsp40, p48 (
Hip
), and hsp90 were compared on the basis of their ability to coprecipitate nascent polypeptides, both before and after chemical cross-linking. By all three approaches,
hsp70
was found to be the predominant chaperone bound to nascent polypeptides. The interaction between
hsp70
and nascent polypeptides is apparently dynamic under physiological conditions but can be stabilized by depletion of ATP or by cross-linking. The cytosolic chaperonin CCT was found to bind primarily to full-length, newly synthesized actin, and tubulin. We demonstrate and caution that nascent polypeptides have a propensity for binding many proteins nonspecifically in cell lysates. Although current models of protein folding in vivo have described additional components in contact with nascent polypeptides, our data indicate that the
hsp70
and, perhaps, the hsp90 families are the predominant classes of molecular chaperones that interact with the general population of cytosolic nascent polypeptides.
...
PMID:Complexes between nascent polypeptides and their molecular chaperones in the cytosol of mammalian cells. 928 25
We investigated several
hsp70
/hsc70 interacting proteins and established by two independent techniques that hsp40 and Hop/p60 specifically interact with the 257 residue carboxy-terminal domain of
hsp70
while Hap-46 and
Hip
/p48 bind the 383 residue amino-terminal ATP binding domain. Hap-46 and
Hip
/p48 competed for binding to hsc70, while Hap-46 had no effect on the binding of either Hop/p60 or hsp40 to hsc70. Hap-46 inhibited the refolding of thermally denatured firefly luciferase in an hsc70 and hsp40 dependent assay, and this effect was largely compensated by Hop/p60. These interacting proteins thus appear to cooperate in affecting the chaperoning activity of
hsp70
/hsc70.
...
PMID:Proteins interacting with the molecular chaperone hsp70/hsc70: physical associations and effects on refolding activity. 939 86
The progesterone receptor can be reconstituted into hsp90-containing complexes in vitro, and the resulting complexes are needed to maintain hormone binding activity. This process requires ATP/Mg2+, K+, and several axillary proteins. We have developed a defined system for the assembly of progesterone receptor complexes using purified proteins. Five proteins are needed to form complexes that are capable of maintaining hormone binding activity. These include
hsp70
and its co-chaperone, hsp40, the
hsp70
/hsp90-binding protein, Hop, hsp90, and the hsp90-binding protein, p23. The proteins
Hip
and FKBP52 were not required for this in vitro process even though they have been observed in receptor complexes. Each of the five proteins showed a characteristic concentration dependence. Similar concentrations of
hsp70
, hsp90, and p23 were needed for optimal assembly, but hsp40 and Hop were effective at about 1/10 the concentration of the other proteins, suggesting that these two proteins act catalytically or are needed at levels similar to the receptor concentration. ATP was required for the functioning of both
hsp70
and hsp90. The binding of
hsp70
to the receptor requires hsp40 and about 10 microM ATP; however, hsp90 binding appears to occur subsequent to
hsp70
binding and is optimal with 1 mM ATP. A three-step model is presented to describe the assembly process.
...
PMID:The assembly of progesterone receptor-hsp90 complexes using purified proteins. 983 49
Like other nuclear receptors, steroid hormone receptors form large protein hetero-complexes in their inactive, ligand-friendly state. Several heat-shock proteins, immunophilins and others have been identified as members of these highly dynamic complexes. The interaction kinetics and dynamics of hsp90,
hsp70
, p60 (Hop), FKBP52, FKBP51, p48 (
Hip
) and p23 have been assessed by a biosensor approach measuring the complex formation in real time. A core chaperone complex has been reconstituted from p60, hsp90 and
hsp70
. p60 forms a molecular bridge between hsp90 and
hsp70
with an affinity in the range of 10(5) M(-1). Dynamics of hsp90-p60 complex formation is modulated by ATP through changes in the co-operativity of interaction. At low protein concentrations ATP stabilizes the complex. Binding of p23 to hsp90 did not change the affinity of the hsp90-p60 complex and the stabilizing effect of ATP. Saturation of the p48-
hsp70
interaction could not be achieved, suggesting multiple binding sites. A picture of the protein complex, including stoichiometric coefficients, co-operativity of interaction and equilibrium-binding constants, has been formed.
...
PMID:Quantitative assessment of complex formation of nuclear-receptor accessory proteins. 1064 22
Reticulocyte lysate contains a chaperone system that assembles glucocorticoid receptor (GR).hsp90 heterocomplexes. Using purified proteins, we have prepared a five-protein heterocomplex assembly system consisting of two proteins essential for heterocomplex assembly-hsp90 and
hsp70
-and three proteins that act as co-chaperones to enhance assembly-Hop, hsp40, p23 [Morishima, Y., Kanelakis, K. C., Silverstein, A. M., Dittmar, K. D., Estrada, L., and Pratt, W. B. (2000) J. Biol. Chem. 275, 6894-6900]. The
hsp70
co-chaperone
Hip
has been recovered in receptor.hsp90 heterocomplexes at an intermediate stage of assembly in reticulocyte lysate, and
Hip
is also thought to be an intrinsic component of the assembly machinery. Here we show that immunodepletion of
Hip
from reticulocyte lysate or addition of high levels of
Hip
to the purified five-protein system does not affect GR.hsp90 heterocomplex assembly or the activation of steroid binding activity that occurs with assembly. Despite the fact that
Hip
does not affect assembly, it is recovered in GR.hsp90 heterocomplexes assembled by both systems. In the five-protein system,
Hip
prevents inhibition of assembly by the
hsp70
co-chaperone BAG-1, and cotransfection of
Hip
with BAG-1 opposes BAG-1 reduction of steroid binding activity in COS cells. We conclude that
Hip
is not a component of the assembly machinery but that it could play a regulatory role in opposition to BAG-1.
...
PMID:hsp70 interacting protein Hip does not affect glucocorticoid receptor folding by the hsp90-based chaperone machinery except to oppose the effect of BAG-1. 1108 80
