Abstract: Methods and products for modulating the lymphoid system, especially intestinal homeostasis between intestinal lymphoid tissues and gut flora using ligands for NOD1 and/or CCR6.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or, for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors are either integrative or non-integrative (NI) vectors, dependently upon the purpose of their use. The invention relates to the use of gene transfer vectors for unique or for multiple in vivo administration into a host in need thereof. The field of application of the present application concerns in particular animal treatment or treatment of human being (e.g. prophylactic or therapeutic or symptomatic or curative treatment), gene therapy or vaccination in vivo.

Abstract: Use of Mycobacterium bovis BCG killed by Extended Freeze Drying (EFD) for preventing or treating atherosclerosis.

Abstract: This application relates to compositions comprising components prepared from Gram positive bacteria such as Gram positive facultative intracellular bacteria for treatment of disorders comprising an immune dysregulation in humans and animals.

Abstract: A genetically modified strain of M. tuberculosis or Mycobacterium bovis BCG is provided, wherein the genetically modified strain comprises at least one modified sequence comprising SEQ ID NO: 1, SEQ ID NO: 2, or both, having at least one mutation at T2, Q4, F8, A14, L28, L29, W43, G45, Y51, Q55, Q56, N66, M83, V90, M93, or F94 in SEQ ID NO:1; or at least one mutation at Q3, F7 A13, L27, W42, G44, Y50, Q54, N65, N67, M82, V89, M92, or F93 in SEQ ID NO:2, or a deletion at the terminal end of less than 20 amino acids. In a preferred embodiment, the mutation is at least one of T2H, Q4L, F8I, AI4R, L28A, L29S, W43R, G45T, Q55I, Q56A, N66I, N67A, M83I, V90R, M93T, or F94Q in SEQ ID NO:1, and Q3L, F7I, A13R, L27A, L28S, W42R, Q44T, Q54I, N65I, M82I, V89R, M92T, and F93Q in SEQ ID NO:2. Similarly, the genetically modified strain may also secrete ESAT-6 with a hexa-histidine tag, tetra-cysteine tag, or FLAG-tag, a GFP-fusion, or a short truncation at the C-terminal end of less than 20 amino acids.

Abstract: Accordingly, the invention provides constructs in which the nucleic acids encoding Plasmodium falciparum MSP4 and MSP5, and the resulting polypeptides, have been modified. More particularly, this invention provides constructs encoding recombinant MSP4 and MSP5 polypeptides, which are expressed as soluble, secreted polypeptides in a baculovirus-insect cell expression system. It was surprisingly found that the recombinant polypeptides contain an EGF-like domain at the C-terminus that is properly folded in the polypeptide.

Abstract: A method to induce an immune response in a host in need thereof, comprises administering to the host, recombinant lentiviral vector particles comprising: a) a GAG polypeptide or a functional GAG-polypeptide derivative; b) a POL polypeptide or a functional POL-polypeptide derivative ; c) an ENV polypeptide or a functional ENV-polypeptide derivative; and d) a recombinant polynucleotide. The recombinant polynucleotide comprises a transgene placed under the control of regulatory signals for transcription and expression, regulatory signals, of lentiviral origin, for reverse transcription, expression and packaging, and a polynucleotide comprising a cis-acting central initiation region (cPPT) and a cis-acting termination region (CTS). The regions are of lentiviral origin and are inserted in a functional orientation with the regulatory signals of lentiviral origin. The polynucleotide forms a DNA triplex during reverse transcription.

Abstract: The present invention concerns a method for diagnosing a melanoma in a mammal comprising the detection of the overexpression of RACK-1 protein in a melanocyte cell of said mammal, and the deduction of the presence of a melanoma from the overexpression of RACK-1 protein. The invention is also directed to a method for determining the tumoral status of a melanocyte cell of a mammal, comprising the detection of overexpression of RACK-1 protein in the melanocyte cell, and the deduction of the tumoral state of said cell from the overexpression of RACK-1 protein.

Abstract: The invention relates to the diagnostic field and to the characterization of antibiotic-resistant bacteria in a sample by detecting specific nucleotides in the CMY-2 gene.

Abstract: The invention concerns the isolation of nucleotide and peptide sequences in particular for differentiating, in diagnostic terms, an immunization resulting from BCG vaccination of an infection by M. tuberculosis. Said sequences are either M. bovis BCG/M. bovis specific or M. tuberculosis specific. The invention also concerns a method for detecting said sequences, a method for detecting antibodies generated by the products expressing said sequences as well as kits for implementing said methods. Finally, the invention concerns novel vaccines.

Abstract: Method for the diagnosis or the screening of an arbovirus infection and preferably a flaviviridae infection and more preferably a flavivirus infection, reagents useful in said method and their applications. Said method comprises: (i) contacting a sample from the subject or animal with a solid support sensitized with an Ig binding protein which is directed against a specific class of Ig molecules of the subject or animal species under consideration and (ii) incubating the immunocomplex formed in (i) with a detector molecule consisting of a hybrid protein comprising at least an arboviral ED3 domain and an alkaline phosphatase (PhoA), the detection of said immunocomplex being the sign of the presence of an arbovirus in said sample.

Abstract: Accordingly, the invention provides constructs in which the nucleic acids encoding Plasmodium falciparum MSP4 and MSP5, and the resulting polypeptides, have been modified. More particularly, this invention provides constructs encoding recombinant MSP4 and MSP5 polypeptides, which are expressed as soluble, secreted polypeptides in a baculovirus-insect cell expression system. It was surprisingly found that the recombinant polypeptides contain an EGF-like domain at the C-terminus that is properly folded in the polypeptide.

Abstract: The invention relates to an immunogenic composition comprising a recombinant vector characterized in that it comprises a polynucleotide comprising the cis-acting central initiation region (cPPT) and the cis-acting termination region (CTS), these regions being of retroviral or retroviral-like origin, said vector comprising in addition a defined nucleotide sequence (transgene or sequence of interest) and regulatory signals of retrotranscription, expression and encapsidation of retroviral or retroviral-like origin, wherein the composition is capable of inducing or of stimulating a cell-mediated response for instance a CTL (Cytotoxic T Lymphocytes) response or a CD4 response, against one or several epitopes encoded by the transgene sequence present in the vector.

Abstract: This invention provides a new approach to the design of a virus with a defective replication cycle, which can be rescued by wild type virus co-infection, and which expresses foreign antigenic epitopes that contribute to the elimination of virus infected cells and then to viral clearance. The vector of the invention, by expression of epitopes derived from common pathogens, by-passes existing tolerance of virus specific T cell responses. The vector will only replicate in virus infected cells.

Abstract: The invention relates to a novel strain of severe acute respiratory syndrome (SARS)-associated coronavirus, resulting from a sample collected in Hanoi (Vietnam), reference number 031589, nucleic acid molecules originating from the genome of same, proteins and peptides coded by said nucleic acid molecules and, more specifically, protein N and the applications thereof, for example, as diagnostic reagents and/or as a vaccine.

Abstract: The invention relates to building a chimeric polypeptide used for preventing or treating a Flaviviridae infection. The use of the inventive chimeric polypeptide for producing recombinant viral vectors such as a measles living viral vector is also disclosed.

Abstract: The present invention relates to the use of compounds with a potentiating effect on the activity of antibiotics that are activatable via the EthA enzymatic pathway, for the preparation of a medicament for preventing and/or treating mycobacterial infections such as tuberculosis and leprosy, to pharmaceutical compositions comprising them in combination with an antibiotic that is activatable via the EthA pathway, to compounds having a potentiating effect on the activity of antibiotics that are activatable via the EthA enzymatic pathway, to pharmaceutical compositions comprising them and to their use as medicaments, especially medicaments for preventing and/or treating mycobacterial infections such as tuberculosis and leprosy.

Abstract: A purified polynucleotide having a chain of nucleotides corresponding to a mutated sequence, which in a wild form encodes a polypeptide implicated in hereditary sensory defect, wherein said mutated purified polynucleotide presents a mutation responsible for prelingual non-syndromic deafness selected from the group consisting of a specific deletion of at least one nucleotide.

Abstract: Methods for regulating the serine protease of Plasmodium. Recombinant DNA constructs which express the Plasmodium serine protease, especially those comprising a sub2 3?UTR and coding segment which express a SUB2 a serine protease. Recombinant Plasmodium containing such constructs and exhibiting increased virulence. Methods for detecting virulent Plasmodium strains by detecting the presence or amount of sub2 3?UTR sequences, sub2 mRNA or cDNA, SUB2 polypeptide expression, or other Plasmodium proteins, such as AMA1 or MSP1, which have been post-translationally modified by SUB2.

Abstract: This invention is in the field of lymphadenopathy virus. This invention relates to a diagnostic means and method of detecting lymphadenopathy associated virus or related viruses or DNA pro-viruses with cloned DNA sequences which are hybridizable to genomic RNA and DNA of lymphadenopathy associated virus. It further relates to the cloned DNA sequences and a process for their preparation.