Abstract: The present invention provides an in vitro method for monitoring interphase nuclear envelope rupture events in a eukaryotic cell or screening or identifying compound capable of increasing or decreasing the intensity and/or frequency of interphase nuclear envelope rupture events in a eukaryotic cell. These methods relate on a protein having a cytosolic non-nuclear localization in interphase and a non-sequence specific DNA binding activity. Interphase nuclear envelope rupture events are characterized by the presence of the protein of the invention in the nucleus of the eukaryotic cell.

Abstract: The present invention relates to methods for preparing virus-like particles comprising immunogenic cyclic dinucleotides and its use for treating cancer.

Abstract: The present invention provides an in vitro method for monitoring interphase nuclear envelope rupture events in a eukaryotic cell or screening or identifying compound capable of increasing or decreasing the intensity and/or frequency of interphase nuclear envelope rupture events in a eukaryotic cell. These methods relate on a protein having a cytosolic non-nuclear localization in interphase and a non-sequence specific DNA binding activity. Interphase nuclear envelope rupture events are characterized by the presence of the protein of the invention in the nucleus of the eukaryotic cell.

Abstract: The present invention relates to methods for preparing virus-like particles comprising immunogenic cyclic dinucleotides.

Abstract: The present invention relates to methods for preparing virus-like particles comprising immunogenic cyclic dinucleotides.

Abstract: The present application relates to a method for diagnosing a glucose transporter type 1 (GLUT1) deficiency syndrome that utilizes polypeptides derived from the soluble part of the glycoprotein of the enveloped virus of primate T-cell leukemia virus (PTLV). The polypeptides, named receptor binding domain ligands (RBD), are selected for their ability to bind specifically to GLUT1. The method involves determining the level of GLUT 1 expression at the cell surface and comparing the level to a reference value.

Abstract: The present application relates to polypeptides derived from the soluble part of the glycoprotein of the enveloped virus of Primate T-cell leukemia virus (PTLV), or fragments or variants thereof named receptor binding domain ligands (RBD) selected for their ability to bind specifically to the nutrient transporter GLUT1.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL17 (Th-IL17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.

Abstract: The present invention relates to enhancing, modulating or stimulating the innate immune response to HIV-1 and other viral pathogens and to the modulation and application of immune modulators and peptides for HIV-1 or other pathogen vaccines. The invention provides methods and means to activate an innate response to HIV-1 utilizing or via the HIV capsid protein or peptide, including modulating the binding of cyclophilin A to HIV capsid protein and modulating the ability of HIV to activate the major innate transcription factor IRF3 and interferon. Methods and assays are provided for screening for compounds, agents, or peptides capable of enhancing or activating innate immune response, particularly to HIV-1.

Abstract: The present invention relates to methods for preparing virus-like particles comprising immunogenic cyclic dinucleotides.

Abstract: The present application relates to polypeptides derived from the soluble part of the glycoprotein of the enveloped virus of Primate T-cell leukemia virus (PTLV), or fragments or variants thereof named receptor binding domain ligands (RBD) selected for their ability to bind specifically to the nutrient transporter GLUT1.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL17 (Th-IL17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL17 (Th-IL17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL17 (Th-IL17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL17 (Th-IL17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.

Abstract: The present invention relates to enhancing, modulating or stimulating the innate immune response to HIV-1 and other viral pathogens and to the modulation and application of immune modulators and peptides for HIV-1 or other pathogen vaccines. The invention provides methods and means to activate an innate response to HIV-1 utilizing or via the HIV capsid protein or peptide, including modulating the binding of cyclophilin A to HIV capsid protein and modulating the ability of HIV to activate the major innate transcription factor IRF3 and interferon. Methods and assays are provided for screening for compounds, agents, or peptides capable of enhancing or activating innate immune response, particularly to HIV-1.

Abstract: The present invention is directed to an in vitro method for promoting differentiation and proliferation of human T helper lymphocytes that express IL17 (Th-IL17+ cells). The instant method may be used to generate a population of human T helper lymphocytes that express IL 17 (Th-IL 17+ cells) in vitro. Methods for screening to identify agents capable of modulating Th-IL17+ cell differentiation are also encompassed by the present invention. Isolated, pure populations of homogeneous Th-IL17+ cells that do not express cellular markers characteristic of Th1, Th2, or Treg cells are also encompassed herein.