Abstract: Methods for treating or reducing the risk of a cytomegalovirus infection in a subject that include administering one or more of an inhibitor of Deleted in Malignant Brain Tumors 1 (DMBT1), an inhibitor of OR14I1, or an inhibitor of adenylyl cyclases.

Abstract: Methods for treating or reducing the risk of a cytomegalovirus infection in a subject that include administering one or more of an inhibitor of Deleted in Malignant Brain Tumors 1 (DMBT1), an inhibitor of OR14I1, or an inhibitor of adenylyl cyclases.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: Methods for treating or reducing the risk of a cytomegalovirus infection in a subject that include administering one or more of an inhibitor of Deleted in Malignant Brain Tumors 1 (DMBT1), an inhibitor of OR14I1, or an inhibitor of adenylyl cyclases.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention relates to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-1. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention relates to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-1. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention related to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-1. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention related to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-1. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention related to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-I. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (e.g., an siRNA) to a transplantable tissue. The agent may be used to minimize organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues. The RNAi agent(s) can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g., be transplanted as a treated population).

Abstract: The present invention related to miR145, miR132, miR212, and the genes or gene products regulated by these miRNAs. miR145 is downregulated in cells infected with HCMV. This downregulation modulates expression of miR145 target genes, including IRS-I. Transfection of cells with a miR145 agent, such as a miR145 mimetic, reduces HCMV replication and protein expression. miR132 and miR212 are upregulated in cells infected with HCMV. This upregulation modulates expression of miR132 and miR212 target genes, including MeCP2 and RICS. Transfection of cells with a miR132 and/or a miR212 antagonist reduces HCMV replication and protein expression. Accordingly, the invention provides methods of attenuating HCMV replication by modulating, for example, miR145, miR132, and/or miR212, and targets thereof. Also provided are methods of detecting an HCMV infection, and compositions and kits useful for attenuating HCMV replication.

Abstract: The present invention related to miRNA signatures and diagnostic and therapeutic applications of miRNA signatures. The miRNA signatures are defined by a test sample miRNA profile relative to an appropriate control miRNA profile. In some embodiments, the test sample is a sample isolated, obtained or derived from a virus-infected cell or organism. The present invention further relates to the use of miRNA signatures in the identification of druggable targets and antiviral agents. Kits and compositions are also provided.