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Receptor-associated Protein (receptor-associated + protein)

Distribution by Scientific Domains
Medical Sciences50%
Chemistry50%

Selected Abstracts

Association of low density lipoprotein receptor related protein-associated protein (LRPAP1) gene insertion/deletion polymorphism with gallstone disease

JOURNAL OF GASTROENTEROLOGY AND HEPATOLOGY, Issue 5 2006
MANJUSHA DIXIT
Abstract Background and Aim:, Gallstones are byproducts of cholesterol supersaturated bile. Various studies have indicated that there might be a genetic predisposition to the disease. Receptor-associated protein (RAP) is a molecular chaperone for low density lipoprotein receptor-related protein (LRP), which plays a key role in cholesterol metabolism. Intron 5 insertion/deletion polymorphism of RAP gene (LRPAP1) has been implicated in other diseases sharing etiology with gallstone disease (GSD). Methods:, To analyze the association of insertion/deletion polymorphism in GSD, 130 gallstone patients and 202 healthy subjects took part in the present study. For genotyping, polymerase chain reaction was followed by 2% agarose gel electrophoresis. Results:, The results showed that frequencies of D and I allele were 65.77% and 34.23% in patients, 76.24% and 23.76% in controls, respectively. Frequency of I allele was significantly higher in the patient group than in the control group (P = 0.003). Conclusion:, In the present study I (insertion) allele was found to be associated with GSD. [source]

Identification of calreticulin as a ligand of GABARAP by phage display screening of a peptide library

FEBS JOURNAL, Issue 21 2007
Jeannine Mohrlüder
4-Aminobutyrate type A (GABAA) receptor-associated protein (GABARAP) is a ubiquitin-like modifier implicated in the intracellular trafficking of GABAA receptors, and belongs to a family of proteins involved in intracellular vesicular transport processes, such as autophagy and intra-Golgi transport. In this article, it is demonstrated that calreticulin is a high affinity ligand of GABARAP. Calreticulin, although best known for its functions as a Ca2+ -dependent chaperone and a Ca2+ -buffering protein in the endoplasmic reticulum, is also localized to the cytosol and exerts a variety of extra-endoplasmic reticulum functions. By phage display screening of a randomized peptide library, peptides that specifically bind GABARAP were identified. Their amino acid sequences allowed us to identify calreticulin as a potential GABARAP binding protein. GABARAP binding to calreticulin was confirmed by pull-down experiments with brain lysate and colocalization studies in N2a cells. Calreticulin and GABARAP interact with a dissociation constant Kd = 64 nm and a mean lifetime of the complex of 20 min. Thus, the interaction between GABARAP and calreticulin is the strongest so far reported for each protein. [source]

Platelet adhesion to dimeric ,2 -glycoprotein I under conditions of flow is mediated by at least two receptors: glycoprotein Ib, and apolipoprotein E receptor 2,

JOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 2 2007
M. T. T. PENNINGS
Summary.,Background: The major antigen implicated in the antiphospholipid syndrome is beta2-glycoprotein I (,2GPI). Dimerized ,2GPI binds to apolipoprotein E receptor 2, (apoER2,) on platelets and increases platelet adhesion to collagen under conditions of flow. Aim: To investigate whether the interaction between dimerized ,2GPI and platelets is sufficiently strong to resist shear stresses. Methods: We studied the interaction of platelets with immobilized dimerized ,2GPI under conditions of flow, and further analyzed the interaction using surface plasmon resonance and solid phase immunoassays. Results: We found that dimerized ,2GPI supports platelet adhesion and aggregate formation under venous flow conditions. Adhesion of platelets to dimerized ,2GPI was completely inhibited by the addition of soluble forms of both apoER2, and GPIb,, and the addition of receptor-associated protein and the removal of GPIb, from the platelet surface. GPIb, co-precipitated with apoER2,, suggesting the presence of complexes between GPIb, and apoER2, on platelet membranes. The interaction between GPIb, and dimeric ,2GPI was of intermediate affinity (Kd = 180 nm) and Zn2+, but not Ca2+ -dependent. Deletion of domain V from dimeric ,2GPI strongly reduced its binding to both GPIb, and apoER2,. Antibodies that inhibit the binding of thrombin to GPIb, inhibited platelet adhesion to dimeric ,2GPI completely, while antibodies blocking the binding of von Willebrand factor to GPIb, had no effect. Dimeric ,2GPI showed reduced binding to low-sulfated GPIb, compared to the fully sulfated form. Conclusion: We show that platelets adhere to dimeric ,2GPI under both arterial and venous shear stresses. Platelets adhere via two receptors: GPIb, and apoER2,. These receptors are present in a complex on the platelet surface. [source]

The structure of receptor-associated protein (RAP)

PROTEIN SCIENCE, Issue 8 2007
Donghan Lee
Abstract The receptor-associated protein (RAP) is a molecular chaperone that binds tightly to certain newly synthesized LDL receptor family members in the endoplasmic reticulum (ER) and facilitates their delivery to the Golgi. We have adopted a divide-and-conquer strategy to solve the structures of the individual domains of RAP using NMR spectroscopy. We present here the newly determined structure of domain 2. Based on this structure and the structures of domains 1 and 3, which were solved previously, we utilized experimental small-angle neutron scattering (SANS) data and a novel simulated annealing protocol to characterize the overall structure of RAP. The results reveal that RAP adopts a unique structural architecture consisting of three independent three-helix bundles that are connected by long and flexible linkers. The flexible linkers and the quasi-repetitive structural architecture may allow RAP to adopt various possible conformations when interacting with the LDL receptors, which are also made of repetitive substructure units. [source]