Your search keyword '"Munshi UM"' showing total 7 results

1. Functional role of Alix in HIV-1 replication.

Author

Fujii K, Munshi UM, Ablan SD, Demirov DG, Soheilian F, Nagashima K, Stephen AG, Fisher RJ, and Freed EO

Subjects

Binding Sites genetics, Calcium-Binding Proteins genetics, Cell Cycle Proteins genetics, Cell Line, Cells, Cultured, DNA-Binding Proteins metabolism, Endosomal Sorting Complexes Required for Transport, Humans, Macrophages virology, Mutagenesis, Site-Directed, Protein Binding, T-Lymphocytes virology, Transcription Factors metabolism, Calcium-Binding Proteins metabolism, Cell Cycle Proteins metabolism, HIV-1 physiology, Virus Replication, gag Gene Products, Human Immunodeficiency Virus metabolism

Abstract

Retroviral Gag proteins encode small peptide motifs known as late domains that promote the release of virions from infected cells by interacting directly with host cell factors. Three types of retroviral late domains, with core sequences P(T/S)AP, YPX(n)L, and PPPY, have been identified. HIV-1 encodes a primary P(T/S)AP-type late domain and an apparently secondary late domain sequence of the YPX(n)L type. The P(T/S)AP and YPX(n)L motifs interact with the endosomal sorting factors Tsg101 and Alix, respectively. Although biochemical and structural studies support a direct binding between HIV-1 p6 and Alix, the physiological role of Alix in HIV-1 biology remains undefined. To elucidate the function of the p6-Alix interaction in HIV-1 replication, we introduced a series of mutations in the p6 Alix binding site and evaluated the effects on virus particle production and virus replication in a range of cell types, including physiologically relevant primary T cells and macrophages. We also examined the effects of the Alix binding site mutations on virion morphogenesis and single-cycle virus infectivity. We determined that the p6-Alix interaction plays an important role in HIV-1 replication and observed a particularly severe impact of Alix binding site mutations when they were combined with mutational inactivation of the Tsg101 binding site.

Published

2009

2. An Alix fragment potently inhibits HIV-1 budding: characterization of binding to retroviral YPXL late domains.

Author

Munshi UM, Kim J, Nagashima K, Hurley JH, and Freed EO

Subjects

Amino Acid Sequence, Calcium-Binding Proteins genetics, Calcium-Binding Proteins metabolism, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Endosomal Sorting Complexes Required for Transport, HIV-1 genetics, HIV-1 physiology, Humans, Molecular Sequence Data, Peptide Fragments genetics, Peptide Fragments metabolism, Protein Binding genetics, Protein Structure, Tertiary genetics, Transport Vesicles genetics, Transport Vesicles metabolism, Transport Vesicles physiology, Virion genetics, Virus Assembly genetics, Anti-HIV Agents metabolism, Calcium-Binding Proteins physiology, Carrier Proteins physiology, Cell Cycle Proteins physiology, HIV-1 metabolism, Peptide Fragments physiology, Virus Latency genetics, Virus Replication genetics

Abstract

The retroviral structural protein, Gag, contains small peptide motifs known as late domains that promote efficient virus release from the infected cell. In addition to the well characterized PTAP late domain, the p6 region of HIV-1 Gag contains a binding site for the host cell protein Alix. To better understand the functional role of the Gag/Alix interaction, we overexpressed an Alix fragment composed of residues 364-716 (Alix 364-716) and examined the effect on release of wild type (WT) and Alix binding site mutant HIV-1. We observed that Alix 364-716 expression significantly inhibited WT virus release and Gag processing and that mutation of the Alix binding site largely relieved this inhibition. Furthermore, Alix 364-716 expression induced a severe defect on WT but not mutant particle morphology. Intriguingly, the impact of Alix 364-716 expression on HIV-1 release and Gag processing was markedly different from that induced by mutation of the Alix binding site in p6. The association of Alix 364-716 with HIV-1 and equine infectious anemia virus late domains was quantitatively evaluated by isothermal titration calorimetry and surface plasmon resonance techniques, and the effects of mutations in these viral sequences on Alix 364-716 binding was determined. This study identifies a novel Alix-derived dominant negative inhibitor of HIV-1 release and Gag processing and provides quantitative information on the interaction between Alix and viral late domains.

Published

2007

3. Evidence that palmitoylation of carboxyl terminus cysteine residues of the human luteinizing hormone receptor regulates postendocytic processing.

Author

Munshi UM, Clouser CL, Peegel H, and Menon KM

Subjects

Blotting, Western, Cell Line, Cell Membrane metabolism, Cysteine chemistry, Dose-Response Relationship, Drug, Endocytosis, GTP-Binding Proteins metabolism, Glycine chemistry, Humans, Immunoprecipitation, Kinetics, Ligands, Models, Biological, Mutagenesis, Site-Directed, Mutation, Palmitic Acid chemistry, Palmitic Acids chemistry, Plasmids metabolism, Protein Binding, Protein Structure, Tertiary, Receptors, LH metabolism, Time Factors, Transfection, Palmitic Acid metabolism, Receptors, LH chemistry

Abstract

Palmitoylation is a well-conserved posttranslational modification among members of the G protein-coupled receptor superfamily. The present study examined the role of palmitoylation in endocytosis and postendocytic trafficking of the human LH receptor (LHR). Palmitoylation of the LHR was determined by incorporation of [3H]palmitic acid into wild-type (WT) or mutant receptor in which the potential palmitoylation sites, C643 and C644, were mutated to glycine residues. The WT receptor showed incorporation of [3H]palmitic acid into the mature 90-kDa form of the receptor whereas mutation of the two Cys residues abrogated this incorporation, indicating that Cys 643 and C644 are the sites of palmitoylation. The role of palmitoylation on endocytosis and postendocytic processing was examined by testing the ability of the WT and mutant receptor to undergo internalization, recycling, and lysosomal degradation. Compared with the WT receptor, the mutant receptor showed increased internalization and decreased recycling, suggesting that retention of palmitic acid residues at Cys 643 and 644 promotes LHR recycling. The role of palmitoylation on receptor recycling was substantiated by demonstrating that a different mutant, D578H LHR, which is deficient in palmitoylation, also recycled less efficiently. Furthermore, the data show that palmitoylation, not the rate of internalization, determines the efficiency of recycling. The present study shows that palmitoylation of cysteine residues 643 and 644 of the human LHR is a determinant of recycling.

Published

2005

4. Regulation of luteinizing hormone/human chorionic gonadotropin receptor expression: a perspective.

Author

Menon KM, Munshi UM, Clouser CL, and Nair AK

Subjects

Animals, Genome, Humans, Models, Biological, Protein Processing, Post-Translational, RNA, Messenger metabolism, RNA-Binding Proteins metabolism, Receptors, LH genetics, Signal Transduction, Receptors, LH metabolism

Abstract

The LH/hCG receptor, a member of the G protein coupled receptor family mediates the cellular actions of LH in the ovary. A considerable amount of information regarding its structure, mechanism of activation, and regulation of expression has emerged in recent years. Here we provide a brief overview of the current information on the structural organization of the receptor and the mechanism of receptor mediated signaling as well as an in-depth discussion on recent developments pertaining to the regulation of receptor expression. Specifically, we describe studies from our laboratory showing that the posttranscriptional regulation of the receptor involves an LH/hCG receptor mRNA-binding protein. We also propose a model to explain the loss of steady-state LH/hCG receptor mRNA levels during receptor down-regulation.

Published

2004

5. Highly conserved serine in the third transmembrane helix of the luteinizing hormone/human chorionic gonadotropin receptor regulates receptor activation.

Author

Munshi UM, Pogozheva ID, and Menon KM

Subjects

Amino Acid Substitution, Binding Sites, Cell Line, Chorionic Gonadotropin metabolism, Conserved Sequence, Humans, Luteinizing Hormone genetics, Models, Molecular, Mutagenesis, Site-Directed, Mutation genetics, Protein Conformation, Receptors, LH genetics, Signal Transduction, Sodium pharmacology, Cyclic AMP biosynthesis, GTP-Binding Proteins metabolism, Luteinizing Hormone chemistry, Luteinizing Hormone metabolism, Receptors, LH chemistry, Receptors, LH metabolism, Serine chemistry

Abstract

The elucidation of the role of highly conserved polar amino acids in the transmembrane helices of G-protein-coupled receptors (GPCRs) is important in understanding the mechanism of receptor activation. To this end, the significance of a highly conserved serine residue in the third transmembrane alpha-helix (TM3) of the luteinizing hormone/human chorionic gonadotropin receptor (LH/hCGR) in regulating receptor activation was examined. Results showed that mutation of serine 431 to alanine (S431A) decreased the ability of the receptor to mediate cAMP production in response to hCG, suggesting that S431 stabilizes the active state of the receptor. Homology with other GPCRs suggests that S431 may participate in the coordination of a Na(+) ion. Since Na(+) has been found to stabilize the active state of the receptor in the presence of hCG, the possibility that S431 promotes receptor activation by mediating the effects of Na(+) was explored. Results showed that the regulation of hormone-induced receptor activation by S431 was independent of Na(+). A rhodopsin-based homology model of the TM region of the LH/hCGR was developed to identify other amino acids that might mediate the effects of Na(+) on receptor function. Results indicate that substitution of an Asp at position 556 with Tyr alters the ability of Na(+) to regulate receptor activation. The homology model is used to explain this result as well as to identify a mechanism through which S431 may regulate receptor signaling. Taken together, these studies provide novel insights into the mechanism of LH/hCG receptor activation.

Published

2003

6. Palmitoylation of the luteinizing hormone/human chorionic gonadotropin receptor regulates receptor interaction with the arrestin-mediated internalization pathway.

Author

Munshi UM, Peegel H, and Menon KM

Subjects

Cell Line, Chorionic Gonadotropin metabolism, G-Protein-Coupled Receptor Kinase 4, Humans, Inositol Phosphates metabolism, Mutation, Phosphorylation, Protein Binding, Protein Serine-Threonine Kinases metabolism, Receptors, LH genetics, Tetradecanoylphorbol Acetate pharmacology, Arrestin metabolism, Endocytosis, Palmitic Acid metabolism, Receptors, LH metabolism

Abstract

The luteinizing hormone/human chorionic gonadotropin receptor (LH/hCGR) undergoes palmitoylation at cysteine residues 621 and 622 located in the carboxyl terminal tail of the receptor. This study examined the biological function of palmitoylation with respect to its effect on receptor internalization. Coexpression of wild-type (WT) or C621/622G mutant receptors with arrestin-2 increased receptor internalization in 293T cells. Furthermore, measurements of rate enhancement upon overexpression of arrestin indicate that the palmitoylation deficient mutant receptor is more prone to utilizing the arrestin mediated internalization pathway than the WT receptor. Coexpression of G-protein-coupled receptor kinase 4 (GRK4) with wild type receptor resulted in an increase in internalization, while coexpression with the mutant receptor did not result in further enhancement of internalization. Additionally, 293T cells expressing mutant receptor were responsive to hCG with respect to production of inositol phosphates. Taken together, these results suggest that the palmitoylation state of the receptor governs internalization by regulating the accessibility of the receptor to the arrestin-mediated internalization pathway.

Published

2001

7. Indian journals on malariology.

Author

Sen BK, Karanjai A, and Munshi UM

Subjects

Abstracting and Indexing, Animals, Humans, India, Malaria, Periodicals as Topic standards

Published

1990