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6. Sindbis viral vector induced apoptosis requires translational inhibition and signaling through Mcl-1 and Bak

Author

Meruelo Daniel and Venticinque Lisa

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Sindbis viral vectors are able to efficiently target and kill tumor cells in vivo, as shown using pancreatic and ovarian cancer models. Infection results in apoptosis both in vitro and in vivo. Sindbis vector uptake is mediated by the LAMR, which is upregulated on a number of different tumor types, thus conferring specificity of the vector to a wide range of cancers. In this study we elucidate the mechanism of apoptosis in two tumor cell lines, MOSEC, derived from the ovarian epithelium and Pan02, derived from a pancreatic adenocarcinoma. A comprehensive understanding of the mechanism of apoptosis would facilitate the design of more effective vectors for cancer therapy. Results The initial phase of Sindbis vector induced apoptosis in MOSEC and Pan02 models reconfirms that viral infection is sensed by PKR due to double-stranded RNA intermediates associated with genomic replication. PKR activation results in translation inhibition through eIF2α phosphorylation and initiation of the stress response. Our studies indicate that the roles of two proteins, Mcl-1 and JNK, intimately link Sindbis induced translational arrest and cellular stress. Translational arrest inhibits the synthesis of anti-apoptotic Bcl-2 protein, Mcl-1. JNK activation triggers the release of Bad from 14-3-3, which ultimately results in apoptosis. These signals from translational arrest and cellular stress are propagated to the mitochondria where Bad and Bik bind to Bcl-xl and Mcl-1 respectively. Formation of these heterodimers displaces Bak, which results in caspase 9 cleavage and signaling through the mitochondrial pathway of apoptosis. Conclusion The host cell response to Sindbis is triggered through PKR activation. Our studies demonstrate that PKR activation and subsequent translational arrest is linked to both cellular stress and apoptosis. We have also found the linkage point between translational arrest and apoptosis to be Mcl-1, a protein whose constant translation is required for inhibition of apoptosis. With this information vectors can be designed, which express or repress proteins implicated in this study, to enhance their therapeutic potential.

Published
2010
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7. The Transition of the 37-Kda Laminin Receptor (Rpsa) to Higher Molecular Weight Species: Sumoylation or Artifact?

Author

Digiacomo V, Gando IA, Venticinque L, Hurtado A, and Meruelo D

Subjects
Animals, Gene Knockdown Techniques, HeLa Cells, Humans, Immunoprecipitation, Mice, Molecular Weight, NIH 3T3 Cells, Receptors, Laminin genetics, Ribosomal Proteins genetics, Sumoylation, Ubiquitin-Conjugating Enzymes genetics, Ubiquitin-Conjugating Enzymes metabolism, Receptors, Laminin chemistry, Receptors, Laminin metabolism, Ribosomal Proteins chemistry, Ribosomal Proteins metabolism
Abstract

The 37-kDa laminin receptor (37LRP or RPSA) is a remarkable, multifaceted protein that functions in processes ranging from matrix adhesion to ribosome biogenesis. Its ability to engage extracellular laminin is further thought to contribute to cellular migration and invasion. Most commonly associated with metastatic cancer, RPSA is also increasingly found to be important in other pathologies, including microbial infection, neurodegenerative disease and developmental malformations. Importantly, it is thought to have higher molecular weight forms, including a 67-kDa species (67LR), the expression of which is linked to strong laminin binding and metastatic behavior. The composition of these larger forms has remained elusive and controversial. Homo- and heterodimerization have been proposed as events capable of building the larger species from the monomeric 37-kDa precursor, but solid evidence is lacking. Here, we present data suggesting that higher molecular weight species require SUMOylation to form. We also comment on the difficulty of isolating larger RPSA species for unambiguous identification and demonstrate that cell lines stably expressing tagged RPSA for long periods of time fail to produce tagged higher molecular weight RPSA. It is possible that higher molecular weight species like 67LR are not derived from RPSA.

Published
2015
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8. Comprehensive proteomic analysis of nonintegrin laminin receptor interacting proteins.

Author

Venticinque L and Meruelo D

Subjects
Animals, Chaperonin Containing TCP-1 chemistry, Chaperonin Containing TCP-1 isolation & purification, Chromatography, Affinity, Cytoskeletal Proteins chemistry, Cytoskeletal Proteins isolation & purification, Hexosyltransferases, Histones chemistry, Histones isolation & purification, Humans, Intracellular Signaling Peptides and Proteins chemistry, Intracellular Signaling Peptides and Proteins isolation & purification, Mice, NIH 3T3 Cells, Proteasome Endopeptidase Complex chemistry, Proteasome Endopeptidase Complex isolation & purification, Protein Binding, Proteome isolation & purification, Proteomics, RNA-Binding Proteins chemistry, RNA-Binding Proteins isolation & purification, Receptors, Laminin chemistry, Ribosomal Proteins chemistry, Ribosomal Proteins isolation & purification, Transcription Factors chemistry, Transcription Factors isolation & purification, Proteome chemistry
Abstract

Human nonintegrin laminin receptor is a multifunctional protein acting as an integral component of the ribosome and a cell surface receptor for laminin-1. The laminin receptor is overexpressed in several human cancers and is also the cell surface receptor for several viruses and pathogenic prion proteins, making it a pathologically significant protein. This study focused on the proteomic characterization of laminin receptor interacting proteins from Mus musculus. The use of affinity chromatography with immobilized recombinant laminin receptor coupled with mass spectrometry analysis identified 45 proteins with high confidence. Following validation through coimmunoprecipitation, the proteins were classified based on predicted function into ribosomal, RNA processing, signal transduction/metabolism, protein processing, cytoskeleton/cell anchorage, DNA/chromatin, and unknown functions. A significant portion of the identified proteins is related to functions or localizations previously described for laminin receptor. This work represents a comprehensive proteomic approach to studying laminin receptor and provides an essential stepping stone to a better mechanistic understanding of this protein's diverse functions.

Published
2012
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9. Interactions between laminin receptor and the cytoskeleton during translation and cell motility.

Author

Venticinque L, Jamieson KV, and Meruelo D

Subjects
Actins metabolism, Humans, Multiprotein Complexes, Protein Binding, Receptors, Laminin physiology, Tubulin metabolism, Cell Movement, Cytoskeleton metabolism, Protein Biosynthesis, Receptors, Laminin metabolism
Abstract

Human laminin receptor acts as both a component of the 40S ribosomal subunit to mediate cellular translation and as a cell surface receptor that interacts with components of the extracellular matrix. Due to its role as the cell surface receptor for several viruses and its overexpression in several types of cancer, laminin receptor is a pathologically significant protein. Previous studies have determined that ribosomes are associated with components of the cytoskeleton, however the specific ribosomal component(s) responsible has not been determined. Our studies show that laminin receptor binds directly to tubulin. Through the use of siRNA and cytoskeletal inhibitors we demonstrate that laminin receptor acts as a tethering protein, holding the ribosome to tubulin, which is integral to cellular translation. Our studies also show that laminin receptor is capable of binding directly to actin. Through the use of siRNA and cytoskeletal inhibitors we have shown that this laminin receptor-actin interaction is critical for cell migration. These data indicate that interactions between laminin receptor and the cytoskeleton are vital in mediating two processes that are intimately linked to cancer, cellular translation and migration.

Published
2011
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10. Activation of cytotoxic and regulatory functions of NK cells by Sindbis viral vectors.

Author

Granot T, Venticinque L, Tseng JC, and Meruelo D

Subjects
Animals, Cell Count, Cell Line, Tumor, Cell Transformation, Neoplastic immunology, Cricetinae, Cytotoxicity, Immunologic genetics, Female, Genes, MHC Class II genetics, Genetic Vectors immunology, Humans, Interferon-gamma metabolism, Interleukin-12 genetics, Killer Cells, Natural cytology, Killer Cells, Natural metabolism, Killer Cells, Natural transplantation, Lac Operon genetics, Macrophages, Peritoneal immunology, Macrophages, Peritoneal metabolism, Mice, Peritoneum immunology, Peritoneum metabolism, Sindbis Virus physiology, Up-Regulation immunology, Cytotoxicity, Immunologic immunology, Genetic Vectors genetics, Killer Cells, Natural immunology, Oncolytic Virotherapy, Sindbis Virus genetics, Sindbis Virus immunology
Abstract

Oncolytic viruses (OVs) represent a relatively novel anti-cancer modality. Like other new cancer treatments, effective OV therapy will likely require combination with conventional treatments. In order to design combinatorial treatments that work well together, a greater scrutiny of the mechanisms behind the individual treatments is needed. Sindbis virus (SV) based vectors have previously been shown to target and kill tumors in xenograft, syngeneic, and spontaneous mouse models. However, the effect of SV treatment on the immune system has not yet been studied. Here we used a variety of methods, including FACS analysis, cytotoxicity assays, cell depletion, imaging of tumor growth, cytokine blockade, and survival experiments, to study how SV therapy affects Natural Killer (NK) cell function in SCID mice bearing human ovarian carcinoma tumors. Surprisingly, we found that SV anti-cancer efficacy is largely NK cell-dependent. Furthermore, the enhanced therapeutic effect previously observed from Sin/IL12 vectors, which carry the gene for interleukin 12, is also NK cell dependent, but works through a separate IFNγ-dependent mechanism, which also induces the activation of peritoneal macrophages. These results demonstrate the multimodular nature of SV therapy, and open up new possibilities for potential synergistic or additive combinatorial therapies with other treatments.

Published
2011
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11. Sindbis viral vector induced apoptosis requires translational inhibition and signaling through Mcl-1 and Bak.

Author

Venticinque L and Meruelo D

Subjects
Alphavirus Infections enzymology, Alphavirus Infections pathology, Alphavirus Infections virology, Animals, Cell Line, Tumor, Cytoplasmic Granules drug effects, Cytoplasmic Granules enzymology, Cytoplasmic Granules virology, Enzyme Activation drug effects, JNK Mitogen-Activated Protein Kinases metabolism, Mice, Mice, Inbred C57BL, Models, Biological, Myeloid Cell Leukemia Sequence 1 Protein, RNA, Double-Stranded metabolism, Stress, Physiological drug effects, eIF-2 Kinase metabolism, Apoptosis drug effects, Genetic Vectors pharmacology, Protein Biosynthesis drug effects, Proto-Oncogene Proteins c-bcl-2 metabolism, Signal Transduction drug effects, Sindbis Virus genetics, bcl-2 Homologous Antagonist-Killer Protein metabolism
Abstract

Background: Sindbis viral vectors are able to efficiently target and kill tumor cells in vivo, as shown using pancreatic and ovarian cancer models. Infection results in apoptosis both in vitro and in vivo. Sindbis vector uptake is mediated by the LAMR, which is upregulated on a number of different tumor types, thus conferring specificity of the vector to a wide range of cancers. In this study we elucidate the mechanism of apoptosis in two tumor cell lines, MOSEC, derived from the ovarian epithelium and Pan02, derived from a pancreatic adenocarcinoma. A comprehensive understanding of the mechanism of apoptosis would facilitate the design of more effective vectors for cancer therapy., Results: The initial phase of Sindbis vector induced apoptosis in MOSEC and Pan02 models reconfirms that viral infection is sensed by PKR due to double-stranded RNA intermediates associated with genomic replication. PKR activation results in translation inhibition through eIF2alpha phosphorylation and initiation of the stress response. Our studies indicate that the roles of two proteins, Mcl-1 and JNK, intimately link Sindbis induced translational arrest and cellular stress. Translational arrest inhibits the synthesis of anti-apoptotic Bcl-2 protein, Mcl-1. JNK activation triggers the release of Bad from 14-3-3, which ultimately results in apoptosis. These signals from translational arrest and cellular stress are propagated to the mitochondria where Bad and Bik bind to Bcl-xl and Mcl-1 respectively. Formation of these heterodimers displaces Bak, which results in caspase 9 cleavage and signaling through the mitochondrial pathway of apoptosis., Conclusion: The host cell response to Sindbis is triggered through PKR activation. Our studies demonstrate that PKR activation and subsequent translational arrest is linked to both cellular stress and apoptosis. We have also found the linkage point between translational arrest and apoptosis to be Mcl-1, a protein whose constant translation is required for inhibition of apoptosis. With this information vectors can be designed, which express or repress proteins implicated in this study, to enhance their therapeutic potential.

Published
2010
Full Text
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