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Query: UNIPROT:P20645 (
mannose-6-phosphate receptor
)
320
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Huntingtin regulates post-Golgi trafficking of secreted proteins. Here, we studied the mechanism by which mutant huntingtin impairs this process. Colocalization studies and Western blot analysis of isolated Golgi membranes showed a reduction of huntingtin in the Golgi apparatus of cells expressing mutant huntingtin. These findings correlated with a decrease in the levels of optineurin and Rab8 in the Golgi apparatus that can be reverted by overexpression of full-length wild-type huntingtin. In addition, immunoprecipitation studies showed reduced interaction between mutant huntingtin and optineurin/Rab8. Cells expressing mutant huntingtin produced both an accumulation of clathrin adaptor complex 1 at the Golgi and an increase of clathrin-coated vesicles in the vicinity of Golgi cisternae as revealed by electron microscopy. Furthermore, inverse fluorescence recovery after photobleaching analysis for lysosomal-associated
membrane protein
-1 and
mannose-6-phosphate receptor
showed that the optineurin/Rab8-dependent post-Golgi trafficking to lysosomes was impaired in cells expressing mutant huntingtin or reducing huntingtin levels by small interfering RNA. Accordingly, these cells showed a lower content of cathepsin D in lysosomes, which led to an overall reduction of lysosomal activity. Together, our results indicate that mutant huntingtin perturbs post-Golgi trafficking to lysosomal compartments by delocalizing the optineurin/Rab8 complex, which, in turn, affects the lysosomal function.
...
PMID:Mutant huntingtin impairs post-Golgi trafficking to lysosomes by delocalizing optineurin/Rab8 complex from the Golgi apparatus. 1914 27
The membrane-bound water channel aquaporin-4 plays a significant role in the regulation of water movement within the retina. In retinal ischemia-reperfusion injury, changes in the expression and localization of aquaporin-4 have been reported. Previous studies also suggest that the internalization of several membrane-bound proteins, including aquaporin-4, may occur with or without lysosomal degradation. In this study, the internalization of aquaporin-4 was detected in the ischemic rat retina via double immunofluorescence labeling. Specifically, both aquaporin-4 and the
mannose-6-phosphate receptor
co-localized post-ischemic injury (10, 30 and 60 min). The same results were found during a 12-h reperfusion window (2, 4 and 8 h, respectively) following 60 min of ischemia. Moreover, the co-expression of aquaporin-4 and lysosomal-associated
membrane protein
-1 was observed at 1-12 h of reperfusion, with co-expression increasing followed by a gradual decrease. These combined findings suggest that AQP4 is internalized in the ischemic-reperfused retina, and the lysosome is involved in degrading the internalized aquaporin-4 during the reperfusion phase. Both the internalization of aquaporin-4 and its lysosomal degradation may serve as valuable therapeutic targets for managing ischemic-reperfused retinal injury.
...
PMID:Lysosomal degradation of retinal glial AQP4 following its internalization induced by acute ocular hypertension. 2249 Aug 81
Human herpesvirus 8 (HHV-8) viral interleukin-6 (vIL-6) localizes largely to the endoplasmic reticulum (ER) and here associates functionally with both the gp130 signal transducer and the novel ER
membrane protein
vitamin K epoxide reductase complex subunit 1 variant-2 (VKORC1v2). The latter interaction contributes to the viability of latently infected primary effusion lymphoma (PEL) cells and to HHV-8 productive replication, in part via promotion of ER-associated degradation (ERAD) of nascent pro-cathepsin D (pCatD) and consequent suppression of lysosome-localized proapoptotic mature CatD. Here we report that VKORC1v2 associates with insulin-like growth factor 2 receptor (IGF2R), also known as cation-independent
mannose-6-phosphate receptor
, which is involved in trafficking of mannose-6-phosphate-conjugated glycoproteins to lysosomes. VKORC1v2 effected reduced IGF2R expression in a manner dependent on VKORC1v2-IGF2R interaction, while vIL-6, which could inhibit VKORC1v2-IGF2R interaction, effected increased expression of IGF2R. These effects were independent of changes in IGF2R mRNA levels, indicating likely posttranslational mechanisms. In kinetic analyses involving labeling of either newly synthesized or preexisting IGF2R, vIL-6 promoted accumulation of the former while having no detectable effect on the latter. Furthermore, vIL-6 led to decreased K48-linked ubiquitination of IGF2R and suppression of ERAD proteins effected increased IGF2R expression and loss of IGF2R regulation by vIL-6. Depletion-based experiments identified IGF2R as a promoter of PEL cell viability and virus yields from lytically reactivated cultures. Our findings identify ER-transiting nascent IGF2R as an interaction partner of VKORC1v2 and target of vIL-6 regulation and IGF2R as a positive contributor to HHV-8 biology, thereby extending understanding of the mechanisms of VKORC1v2-associated vIL-6 function.
IMPORTANCE
HHV-8 vIL-6 promotes productive replication in the context of reactivated lytic replication in primary effusion lymphoma (PEL) and endothelial cells and sustains latently infected PEL cell viability. Viral IL-6 is also considered to contribute significantly to HHV-8-associated pathogenesis, since vIL-6 can promote cell proliferation, cell survival, and angiogenesis that are characteristic of HHV-8-associated Kaposi's sarcoma, PEL and multicentric Castleman's disease (MCD), in addition to proinflammatory activities observed in MCD-like "Kaposi's sarcoma-associated herpesvirus-induced cytokine syndrome." We show in the present study that vIL-6 can promote productive replication and latent PEL cell viability through upregulation of the mannose-6-phosphate- and peptide hormone-interacting receptor IGF2R, which is a positive factor in HHV-8 biology via these activities. VKORC1v2-enhanced ER-associated degradation of IGF2R and vIL-6 promotion of IGF2R expression through prevention of its interaction with VKORC1v2 and consequent rescue from degradation represent newly recognized activities of VKOCR1v2 and vIL-6.
...
PMID:Insulin-Like Growth Factor 2 Receptor Expression Is Promoted by Human Herpesvirus 8-Encoded Interleukin-6 and Contributes to Viral Latency and Productive Replication. 3054 44
The cation-independent
mannose-6-phosphate receptor
(CI-M6PR, aka insulin-like growth factor II receptor or IGFIIR) is a
membrane protein
that plays a central role in the trafficking of lysosomal acid hydrolases into lysosomes via mannose-6-phosphate (M6P) binding domains. In order to maintain cellular metabolic/catabolic homeostasis, newly synthesized lysosomal acid hydrolases are required to bind to M6PR for transit. Acid hydrolases secreted by cells can also be internalized via M6PR residing on the cell membrane and are transported to the lysosomes, a feature that enables enzyme replacement therapy for the treatment of several lysosomal storage disorders. Therefore, a thorough characterization of this receptor is critical to the development of lysosomal enzyme-based therapeutics that utilize M6PR for drug delivery to the lysosome. However, the extracellular domain (ECD) of M6PR is highly complex, containing 15-mannose receptor homology (MRH) domains. In addition, homodimerization of the receptor can occur at the membrane, making its characterization challenging. In this study, a novel human M6PR (hM6PR)-overexpressing cell line originally established for hM6PR cellular uptake assay was utilized for production of hM6PR-ECD, and a novel small molecule biomimetic (aminophenyl-M6P) affinity resin was developed for the purification of M6PR-ECD. The affinity-purified hM6PR-ECD was monomeric, contained 14 intact MRH domains (1-14) and a partial MRH domain 15, and was successfully employed in ELISA-based and surface plasmon resonance-based binding assays to demonstrate its ligand-binding functionality, making it suitable for the evaluation of biotherapeutics that utilize M6PR for cellular internalization.
...
PMID:Expression, purification, and characterization of human mannose-6-phosphate receptor - Extra cellular domain from a stable cell line utilizing a small molecule biomimetic of the mannose-6-phosphate moiety. 3202 83
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