The present invention relates to a lectin for use in the treatment, reduction in progression and curing of inflammation in a subject in need thereof. Pharmaceutical compositions comprising said lectin are also described. The lectin may comprise an amino acid sequence having sequence of SEQ ID NO: 1 or at least 60% homology to SEQ ID NO: 1.

Lectin compositions and methods for reducing tumor cell growth and preventing or treating cancer are provided.

The present invention relates to antiviral lectin and uses thereof. Particularly, the present invention relates to a complex-type (CX-type) and/or hybrid-type (HY-type) glycan binding lectin for use in treating or preventing influenza virus infection. The present invention also provides a method for treating or preventing influenza virus infection by administrating to a subject in need said lectin or a composition comprising the same.

A nucleic acid construct and an immune cell, which harbor nucleic acids encoding a CAR and nucleic acids encoding at least one anti-inflammatory or immunosuppressant protein and methods of using the same in treatment or amelioration of inflammation or immune-mediated autoimmunity are described.

The present invention includes methods for treating and/or preventing a viral or virally-induced tissue dysfunction or failure in a patient comprising administering an inhibitor of SARS-CoV-2 binding to L-SIGN in an amount effective to treat the viral or virally-induced tissue dysfunction or failure of cells do not express ACE2.

Genetically engineered hematopoietic cells such as hematopoietic stem cells having one or more genetically edited genes of lineage-specific cell-surface proteins and therapeutic uses thereof, either alone or in combination with immune therapy that targets the lineage-specific cell-surface proteins.

Disclosed herein, are peptides capable of inhibiting sFasL activity, and pharmaceutical compositions containing the peptides and methods treating a pulmonary disease.

Several embodiments disclosed herein relate to the treatment of a tumor using immunotherapy. Several embodiments relate to the treatment of a liver tumor, such as hepatocellular carcinoma or a metastasis from another tumor location. Additional embodiments relate to combination therapies that employ Natural Killer (NK) cells engineered to express cytotoxic receptor complexes and additional anti-cancer agents to treat tumors.

The present invention relates to compositions and methods for treating cancer. The invention makes use of peptides, nucleic acids encoding such peptides, and cells expressing such peptides, where the peptide comprises a tumor-associated carbohydrate antigen (TACA)-binding domain.

Described herein are FasL-engineered biomaterials, as well as methods of making and using such FasL-engineered biomaterials, such as for immunomodulation, such as for inducing immunosuppression and specific immune tolerance, such as for preventing or reducing the risks of rejection of cellular or tissue grafts and/or the treatment of autoimmune disorders such as Type I diabetes. In specific embodiments, the FasL-engineered biomaterials are biotinylated microgels bound to SA-FasL.