Herein is provided a recombinant lentiviral vector preparation, in which the preparation comprises: a) an effective dose of the recombinant lentiviral vector; b) a histidine hydrochloride buffer for keeping a pH value of the preparation in the range of 6.0-8.0; and c) a carbohydrate.

The present invention relates generally to immunization and immunotherapy for the treatment or prevention of HIV. In particular, the methods include in vivo and/or ex vivo enrichment of HIV-specific CD4+ T cells.

The present application relates to a GD2-based chimeric antigen receptor comprising an antigen-binding domain, a transmembrane domain, a costimulatory signaling domain, a CD3 signaling domain, and a self-destructive domain in tandem arrangement; wherein the antigen-binding domain binds to a tumor surface antigen, wherein the tumor surface antigen is GD2, and the antigen-binding domain is a single-chain antibody against the tumor surface antigen GD2, wherein the self-destructive domain is a caspase 9 domain.

The invention is directed to a bispecific chimeric antigen receptor, comprising: (a) at least two antigen-specific targeting regions; (b) an extracellular spacer domain; (c) a transmembrane domain; (d) at least one co-stimulatory domain; and (e) an intracellular signaling domain, wherein each antigen-specific targeting region comprises an antigen-specific single chain Fv (scFv) fragment, and binds a different antigen, and wherein the bispecific chimeric antigen receptor is co-expressed with a therapeutic control. The invention also provides methods and uses of the bispecific chimeric antigen receptors.

The invention is directed to a bispecific chimeric antigen receptor, comprising: (a) at least two antigen-specific targeting regions; (b) an extracellular spacer domain; (c) a transmembrane domain; (d) at least one co-stimulatory domain; and (e) an intracellular signaling domain, wherein each antigen-specific targeting region comprises an antigen-specific single chain Fv (scFv) fragment, and binds a different antigen, and wherein the bispecific chimeric antigen receptor is co-expressed with a therapeutic control. The invention also provides methods and uses of the bispecific chimeric antigen receptors.

The invention relates to inhibitory nucleotide signal sequences or INS sequences in the genomes of lentiviruses. In particular the invention relates to the AGG motif present in all viral genomes. The AGG motif may have an inhibitory effect on a virus, for example by reducing the levels of, or maintaining low steady-state levels of, viral RNAs in host cells, and inducing and/or maintaining in viral latency. In one aspect, the invention provides vaccines that contain, or are produced from, viral nucleic acids in which the AGG sequences have been mutated. In another aspect, the invention provides methods and compositions for affecting the function of the AGG motif, and methods for identifying other INS sequences in viral genomes.

The present disclosure pertains to a method of construction and use of a novel bispecific chimeric antigen receptor (CAR) within the field of immunotherapy. The CAR described herein comprises an antigen-binding domain, a connecting peptide (C-peptide), a hinge region, a transmembrane domain, a 4-1BB co-stimulatory signaling domain, and a CD3 signaling domain. The antigen-binding domain is composed of either an anti-CD19 scFv and an anti-CD22 nanobody, or an anti-Her2 scFv paired with a ligand capable of recognizing IGF1R. The bispecific CAR-T cell provided by the present disclosure is constructed based on the ligation design involving an antiparallel -stranded loop (BS Loop) linker.

The present invention relates generally to immunization and immunotherapy for the treatment or prevention of HIV. In particular, the methods include in vivo and/or ex vivo enrichment of HIV-specific CD4+ T cells.

The present invention relates generally to immunization and immunotherapy for the treatment or prevention of HIV. In particular, the methods include in vivo and/or ex vivo enrichment of HIV-specific CD4+ T cells.

The invention is directed to a bispecific chimeric antigen receptor, comprising: (a) at least two antigen-specific targeting regions; (b) an extracellular spacer domain; (c) a transmembrane domain; (d) at least one co-stimulatory domain; and (e) an intracellular signaling domain, wherein each antigen-specific targeting region comprises an antigen-specific single chain Fv (scFv) fragment, and binds a different antigen, and wherein the bispecific chimeric antigen receptor is co-expressed with a therapeutic control. The invention also provides methods and uses of the bispecific chimeric antigen receptors.