Provided herein are methods of treating a solid malignant tumor using antigen-specific T cells and methods of managing tumor flare in treatment of a solid malignant tumor using antigen-specific T cells. The methods provided herein improve the safety of treatment by informing the patient about the potential risks for tumor flare, telling the patient to contact his or her physician if tumor swelling occurs, counseling a patient with Waldeyer's ring lymphadenopathy to contact his or her physician if shortness of breath or stridor occurs, or grading and managing tumor flare developed in the patient.

Provided herein are methods of treating a solid malignant tumor using antigen-specific T cells and methods of managing tumor flare in treatment of a solid malignant tumor using antigen-specific T cells. The methods provided herein improve the safety of treatment by informing the patient about the potential risks for tumor flare, telling the patient to contact his or her physician if tumor swelling occurs, counseling a patient with Waldeyer's ring lymphadenopathy to contact his or her physician if shortness of breath or stridor occurs, or grading and managing tumor flare developed in the patient.

The present disclosure provides rAAV vectors and rAAV virions that specifically express exogenous nucleic acid sequences in CD14.sup.+ cells. The rAAV vectors or virions are useful for specifically expressing exogenous nucleic acid sequences encoding, for example, cancer antigens, viral antigens, and/or bacterial antigens in monocytes and dendritic cells. The rAAV transduced CD14.sup.+ cells can be used as antigen presenting cells that induce antigen-specific T cell responses. The present disclosure further provides methods producing rAAV virions and methods of immunotherapy.

The present invention provides epitope peptides which are derived from SARS-CoV-2 proteins and have the ability to induce cytotoxic T cells. The present invention also provides polynucleotides encoding the peptides, antigen-presenting cells that present the peptides, and cytotoxic T cells that target the peptides, and methods of inducing the antigen-presenting cells or CTLs. The present invention further provides compositions and pharmaceutical compositions containing them as active ingredients. Moreover, the present invention provides methods of treating and/or preventing coronavirus infectious diseases, and/or methods of suppressing the aggravation of coronavirus infectious diseases by using the peptides, polynucleotides, antigen-presenting cells, cytotoxic T cells, or pharmaceutical compositions of the present invention. The present invention also provides methods of inducing an immune response against coronavirus infection. Furthermore, the present invention provides methods of examining the history of coronavirus infection by detecting TCR sequences of a subject.

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 describes a method for treating cancer comprising adoptive transfer of tumor antigen specific CD8+ T cells and an oncolytic virus vaccine targeting the same antigen.

The invention relates to an artificial antigen-presenting cell (aAPC) comprising at least one immune stimulatory ligand and co-stimulatory ligands comprising or consisting of CD86, CD70 and CD137L, methods of preparing an aAPC and methods of inducing proliferation of an immune cell or expanding a population of immune cells. The invention also relates to methods for inducing an immune response or treating a medical condition in a subject. The invention further relates to methods of identifying an antigenic peptide or method of identifying or detecting the presence of an immune cell that recognizes an antigen.

The present invention is inter alma concerned with a T cell receptor fusion construct comprising two specific peptidic moieties, one of these two moieties binding to the spike protein from coro-naviruses and binding to ACE2, in particular the spike proteins from SARS-CoV-2 and/or SARS-CoV-1, and one of these moieties being a protein of the T cell receptor complex. A vector comprising the genetic information encoding the T cell receptor fusion construct is also part of the present invention, as well as a process of transfecting or transducing T cells and a modified T cell comprising the T cell receptor fusion construct. Importantly, the present invention also relates to a T cell receptor fusion construct, a vector or a modified T cell for use in the treatment of a disease and in particular for use in the treatment of a disease caused by a coronavirus such as e.g. COVID-19 or SARS.

The invention provides therapeutic humanized anti-HERV-K antibodies, CAR, or a fusion thereof consisting of a hispecific T ceil engager (BiTE) FOR CD3 and CDS, a DNA-encoded BiTE (DBiTE), or an antibody-drug conjugate (ADC). The invention also relates to peptides, proteins, nucleic acids, and cells for use in immunotherapeutic methods. In particular, the invention relates to the immunotherapy of cancer peptides bound to molecules of the MHC, or peptides as such, which can also be targets of antibodies and other binding molecules.

Provided methods of obtaining a plurality of T cell receptors specifically recognizing a target tumor antigen peptide from an individual that has clinically benefitted from an immunotherapy, such as Multiple Antigen Specific Cell Therapy. Also provided tumor-specific TCRs, engineered immune cells expressing the TCRs and methods of treating a disease using the engineered immune cells.