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Query: UNIPROT:P50502 (
Hip
)
7,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The regulation of the chaperone activity of the heat shock cognate Hsc70 protein in the mammalian cell involves a cooperation with chaperone cofactors such as Hsp40, the
Hsp70-interacting protein
Hip
, and the Hsc70/Hsp90-organizing protein Hop. Recent studies have now added another component to the list of Hsc70 cofactors, the BAG-1 protein. Initially identified as an anti-apoptotic molecule and binding partner of the cell death inhibitor Bcl-2, BAG-1 appears to fulfill its cellular function through a modulation of Hsc70's chaperone activity. BAG-1 acts as a nucleotide exchange factor in the Hsc70 ATPase cycle, thereby competing with the cofactor
Hip
which stabilizes the ADP-bound state of Hsc70. The functional characterization of BAG-1 thus reveals an unexpected versatility in the regulation of Hsc70 and appears to provide a link between apoptosis and the cellular chaperone machinery.
...
PMID:Regulation of the heat shock conjugate Hsc70 in the mammalian cell: the characterization of the anti-apoptotic protein BAG-1 provides novel insights. 956 21
The chaperone activity of Hsp70 is influenced by the activities of both positive and negative regulatory proteins. In this study, we provide first time evidence for the stimulating effect of the
Hsp70-interacting protein
Hip
on the chaperone activity in the mammalian cytosol. Overexpressing
Hip
enhances the refolding of the heat-inactivated reporter enzyme luciferase expressed in hamster lung fibroblasts. Also, it protects luciferase from irreversible denaturation under conditions of ATP depletion. We demonstrate that these stimulating actions depend on both the presence of the central Hsp70-binding site and the amino-terminal homo-oligomerization domain of
Hip
. The carboxyl terminus (amino acids 257-368) comprising the 7 GGMP repeats (Hsc70-like domain) and the Sti1p-like domain are dispensable for the
Hip
-mediated stimulation of the cellular chaperone activity. Bag-1, which inhibits the Hsp70 chaperone activity both in vitro and in vivo, was found to compete with the stimulatory action of
Hip
. In cells overexpressing both
Hip
and Bag-1, the inhibitory effects of Bag-1 were found to be dominant. Our results reveal that in vivo a complex level of regulation of the cellular chaperone activity exists that not only depends on the concentration of Hsp70 but also on the concentration, affinity, and intracellular localization of positive and negative coregulators. As the Hsp70 chaperone machine is also protective in the absence of ATP, our data also demonstrate that cycling between an ATP/ADP-bound state is not absolutely required for the Hsp70 chaperone machine to be active in vivo.
...
PMID:Modulation of in vivo HSP70 chaperone activity by Hip and Bag-1. 1107 56
The
Hsp70-interacting protein
Hip
binds to the adenosine triphosphatase domain of Hsp70, stabilizing it in the adenosine 5'-diphosphate-ligated conformation and promoting binding of target polypeptides. In mammalian cells,
Hip
is a component of the cytoplasmic chaperone heterocomplex that regulates signal transduction via interaction with hormone receptors and protein kinases. Analysis of the complete genome sequence of the model flowering plant Arabidopsis thaliana revealed 2 genes encoding
Hip
orthologs. The deduced sequence of AtHip-1 consists of 441 amino acid residues and is 42% identical to human
Hip
. AtHip-1 contains the same functional domains characterized in mammalian
Hip
, including an N-terminal dimerization domain, an acidic domain, 3 tetratricopeptide repeats flanked by a highly charged region, a series of degenerate GGMP repeats, and a C-terminal region similar to the Sti1/Hop/p60 protein. The deduced amino acid sequence of AtHip-2 consists of 380 amino acid residues. AtHip-2 consists of a truncated
Hip
-like domain that is 46% identical to human
Hip
, followed by a C-terminal domain related to thioredoxin. AtHip-2 is 63% identical to another
Hip
-thioredoxin protein recently identified in Vitis labrusca (grape). The truncated
Hip
domain in AtHip-2 includes the amino terminus, the acidic domain, and tetratricopeptide repeats with flanking charged region. Analyses of expressed sequence tag databases indicate that both AtHip-1 and AtHip-2 are expressed in A thaliana and that orthologs of
Hip
are also expressed widely in other plants. The similarity between AtHip-1 and its mammalian orthologs is consistent with a similar role in plant cells. The sequence of AtHip-2 suggests the possibility of additional unique chaperone functions.
...
PMID:Orthologs in Arabidopsis thaliana of the Hsp70 interacting protein Hip. 1159 66
The
Hsp70-interacting protein
Hip
has been identified as a transient participant in the assembly of both glucocorticoid (GR) and progesterone receptor complexes. Although it has been difficult to identify a physiological role for
Hip
, it is believed to have intrinsic chaperoning properties and has been identified as a potential anti-apoptotic target of Granzyme B. In vitro assays have provided evidence that
Hip
may interact with GR complexes in an Hsp70 independent manner and can enhance the function of GR in hormone based reporter assays. In this study, a cDNA for human
Hip
was used in mutational analysis to map
Hip
function to critical structural elements. A single amino acid substitution (L211S) resulted in a loss of
Hip
function. This mutation also appears to disrupt the interaction of
Hip
with Hsp70 in vitro. Failure to recover
Hip
-L211S constructs in co-immunoprecipitation assays with an Hsp70 monoclonal antibody suggests that the mutation is unlikely to result in a misfolded substrate.
...
PMID:Single-point mutation in a conserved TPR domain of Hip disrupts enhancement of glucocorticoid receptor signaling. 2124 Jun 62
The Hsp70 is an essential molecular chaperone in protein metabolism since it acts as a pivot with other molecular chaperone families. Several co-chaperones act as regulators of the Hsp70 action cycle, as for instance
Hip
(
Hsp70-interacting protein
).
Hip
is a tetratricopeptide repeat protein (TPR) that interacts with the ATPase domain in the Hsp70-ADP state, stabilizing it and preventing substrate dissociation. Molecular chaperones from protozoans, which can cause some neglected diseases, are poorly studied in terms of structure and function. Here, we investigated the structural features of
Hip
from the protozoa Leishmania braziliensis (LbHip), one of the causative agents of the leishmaniasis disease. LbHip was heterologously expressed and purified in the folded state, as attested by circular dichroism and intrinsic fluorescence emission techniques. LbHip forms an elongated dimer, as observed by analytical gel filtration chromatography, analytical ultracentrifugation and small angle X-ray scattering (SAXS). With the SAXS data a low resolution model was reconstructed, which shed light on the structure of this protein, emphasizing its elongated shape and suggesting its domain organization. We also investigated the chemical-induced unfolding behavior of LbHip and two transitions were observed. The first transition was related to the unfolding of the TPR domain of each protomer and the second transition of the dimer dissociation. Altogether, LbHip presents a similar structure to mammalian
Hip
, despite their low level of conservation, suggesting that this class of eukaryotic protein may use a similar mechanism of action.
...
PMID:Low resolution structural characterization of the Hsp70-interacting protein - Hip - from Leishmania braziliensis emphasizes its high asymmetry. 2238 34
The
Hsp70-interacting protein
,
Hip
, cooperates with the chaperone Hsp70 in protein folding and prevention of aggregation. Hsp70 interacts with non-native protein substrates in an ATP-dependent reaction cycle regulated by J-domain proteins and nucleotide exchange factors (NEFs).
Hip
is thought to delay substrate release by slowing ADP dissociation from Hsp70. Here we present crystal structures of the dimerization domain and the tetratricopeptide repeat (TPR) domain of rat
Hip
. As shown in a cocrystal structure, the TPR core of
Hip
interacts with the Hsp70 ATPase domain through an extensive interface, to form a bracket that locks ADP in the binding cleft.
Hip
and NEF binding to Hsp70 are mutually exclusive, and thus
Hip
attenuates active cycling of Hsp70-substrate complexes. This mechanism explains how
Hip
enhances aggregation prevention by Hsp70 and facilitates transfer of specific proteins to downstream chaperones or the proteasome.
...
PMID:Structure and function of Hip, an attenuator of the Hsp70 chaperone cycle. 2381 73
