DNAVEC Research Inc. Patent applications |
Patent application number | Title | Published |
20110212059 | PARAMYXOVIRUS VECTOR ENCODING ANGIOGENESIS GENE AND USE THEREOF - The present invention provides Paramyxovirus vectors encoding angiogenic genes and use of the same. The use of Paramyxovirus vectors enables effective transfer of angiogenic genes into individual tissues. FGF2 gene transferred into ischemic tissues in vivo induces expression of angiogenic genes without causing edema, and prevents necrosis due to ischemia. The vectors of the present invention are suitable for gene therapy targeted to ischemic tissues. | 09-01-2011 |
20100297732 | VECTORS WITH MODIFIED PROTEASE-DEPENDENT TROPISM - The present invention provides cell fusogenic vectors having replicative ability, whose protease-dependent tropism has been modified. M gene-deficient viral vectors encoding modified F proteins, in which the cleavage site of the F protein of paramyxovirus is modified to be cleaved by different proteases, were produced. In cells transfected with these vectors, the genomic RNA present in the vectors is replicated, and cell fusogenic infection spreads to neighboring cells depending on the presence of other proteases; however, no viral particles are released. The vectors of this invention, encoding the F proteins which are cleaved by proteases whose activity is enhanced in cancer, show cancer growth suppressive effect in vivo. | 11-25-2010 |
20100266633 | AIDS VIRUS VACCINES USING SENDAI VIRUS VECTOR - The present invention provides a vaccine containing a Sendai virus vector encoding a virus protein of an immunodeficiency virus. By intranasally administering a Sendai virus encoding a virus protein of an immunodeficiency virus to a macaque monkey, the present inventors have succeeded in efficiently inducing protective immunity against an immunodeficiency virus. As a result of intranasal inoculation of vaccine, expression of an antigen protein mediated by Sendai virus vector was detected in intranasal mucous membrane and local lymph nodes and antigen-specific cellular immune response was induced at a significant level. No pathological symptom by vaccination was observed. After vaccination, exposure of simian immunodeficiency virus was performed and the effect was examined. As a result, the amount of virus in plasma significantly decreased, compared with that of the control animal. The present invention provides a promising vaccine as an AIDS vaccine. | 10-21-2010 |
20100158867 | PARAMYXOVIRUS VECTOR ENCODING ANGIOGENESIS GENE AND USE THEREOF - The present invention provides Paramyxovirus vectors encoding angiogenic genes and use of the same. The use of Paramyxovirus vectors enables effective transfer of angiogenic genes into individual tissues. FGF2 gene transferred into ischemic tissues in vivo induces expression of angiogenic genes without causing edema, and prevents necrosis due to ischemia. The vectors of the present invention are suitable for gene therapy targeted to ischemic tissues. | 06-24-2010 |
20080299642 | VECTORS WITH MODIFIED PROTEASE-DEPENDENT TROPISM - The present invention provides cell fusogenic vectors having replicative ability, whose protease-dependent tropism has been modified. M gene-deficient viral vectors encoding modified F proteins, in which the cleavage site of the F protein of paramyxovirus is modified to be cleaved by different proteases, were produced. In cells transfected with these vectors, the genomic RNA present in the vectors is replicated, and cell fusogenic infection spreads to neighboring cells depending on the presence of other proteases; however, no viral particles are released. The vectors of this invention, encoding the F proteins which are cleaved by proteases whose activity is enhanced in cancer, show cancer growth suppressive effect in vivo. | 12-04-2008 |
20080199438 | Methods For Suppressing Tumor Proliferation - The present invention provides methods for suppressing tumor proliferation comprising the step of inhibiting the expression of PDGF-A or the binding between PDGF-A homodimers and PDGFRα. Activation of the PDGFRα-p70S6K signal transduction pathway by PDGF-AA is an important factor in tumor angiogenesis and relates to the prognosis of patients suffering from tumors. By inhibiting PDGF-A expression in tumors or in their surrounding tissues, or by inhibiting the binding between PDGF-A homodimers and PDGFRα, the formation and retention of tumor vasculature can be inhibited, thereby suppressing tumor proliferation. | 08-21-2008 |