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.

The invention concerns soluble and antigenic HTLV p24 variants that can be fused to chaperones and their use in diagnostic applications such as immunoassays for detecting antibodies against HTLV-I or HTLV-II in an isolated biological sample. In particular, the invention relates to a soluble HTLV-I or HTLV-II p24 antigen comprising either the N- or the C-terminal domain of p24 and lacking the other domain. Moreover, the invention covers recombinant DNA molecules encoding these HTLV-I and -II fusion antigens as well as their recombinant production using expression vectors and host cells transformed with such expression vectors. In addition, the invention focuses on compositions of these HTLV p24 antigens with HTLV gp21 antigen and on an immunoassay method for detection of HTLV antibodies using the antigens of the invention. Also the use of HTLV p24 antigens in an in vitro diagnostic assay as well as a reagent kit for detection of anti-HTLV-antibodies comprising said HTLV antigens is encompassed.

This invention relates to the identification of peptide binding to ligands, and in particular to identification of epitopes expressed by microorganisms and by mammalian cells. The present invention provides polypeptides comprising the epitopes, and vaccines, antibodies and diagnostic products that utilize or are developed using the epitopes.

Provided herein are compositions, systems, and methods for delivering cargo to a target cell. The compositions, systems, and methods comprise one or more polynucleotides encoding one or more endogenous retroviral elements for forming a delivery vesicle and one or more capture moieties for packaging a cargo within the delivery vesicle. The one or more endogenous retroviral elements for forming a delivery vesicle may comprise two or more of a retroviral gag protein, a retroviral envelope protein, a retroviral reverse transcriptase or a combination thereof. The retroviral gag protein alone, the retroviral envelope protein alone, or both the retroviral gag protein and retroviral envelope protein may be endogenous.

Provided herein are delivery particle systems (XDP) useful for the delivery of payloads of any type. In some embodiments, a XDP particle system with tropism for target cells of interest is used to deliver CRISPR/Cas polypeptides (e.g., CasX proteins) and guide nucleic acids (gNA), for the modification of nucleic acids in target cells. Also provided are methods of making and using such XDP to modify the nucleic acids in such cells.

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.

Provided is a method for expanding a human DC cell. The method includes the step of contacting a cell sample of a DC cell to be expanded with a viral transactivator protein sourcing from simian-T-lymphotropic virus (STLV). Also provided are an expanded DC cell prepared by the method, and a DC cell and data repository constructed by the method.

The present invention provides a method and a reagent for increasing lentiviral vector production in 293T cells. When the 293T cells are cotransfected with a packaging mix comprising a plurality of plasmids that comprise genes encoding proteins essential for lentiviral particle formation and a plasmid that comprises a gene transcribed into RNA to be incorporated into lentiviral particles containing a transgene to be expressed in target cells according to the method for producing a lentiviral vector, HTLV-1 Tax, HIV-1 Tat, or NF-κB RelA are coexpressed in the 293T cells, so as to increase the amount of lentiviral vector production.

A method of immunizing against HTLV-1 is disclosed. The method may include preparing a DNA sequence corresponding to a chimeric peptide which may have immunogenic epitopes of HTLV-1. These epitopes can include a Tax epitope, a gp21 epitope, a gp46 epitope, and/or a gag epitope. The method also includes production of the chimeric peptide using the DNA sequence and purifying the produced chimeric peptide. The purified chimeric peptide can be employed for immunization against HTLV-1.

The invention concerns soluble and antigenic HTLV p24 variants that can be fused to chaperones and their use in diagnostic applications such as immunoassays for detecting antibodies against HTLV-I or HTLV-II in an isolated biological sample. In particular, the invention relates to a soluble HTLV-I or HTLV-II p24 antigen comprising either the N- or the C-terminal domain of p24 and lacking the other domain. Moreover, the invention covers recombinant DNA molecules encoding these HTLV-I and -II fusion antigens as well as their recombinant production using expression vectors and host cells transformed with such expression vectors. In addition, the invention focuses on compositions of these HTLV p24 antigens with HTLV gp21 antigen and on an immunoassay method for detection of HTLV antibodies using the antigens of the invention. Also the use of HTLV p24 antigens in an in vitro diagnostic assay as well as a reagent kit for detection of anti-HTLV-antibodies comprising said HTLV antigens is encompassed.