The present invention relates to T cells, in particular a non-activated T cell, comprising an exogenous nucleic acid encoding a T cell Receptor (TCR) specific for a virus. An embodiment of the invention is directed to a non-activated (resting) T cell expressing Hepatitis B virus (HBV) envelope s183-191 TCR capable of inhibiting viral replication and which shows reduced expression of perforins and/or granzymes in response to stimulation as compared to an activated T cell expressing the said TCR. Also encompassed are methods for producing such cells, compositions, pharmaceutical compositions and kits comprising such cells and medical uses thereof.

A bioconjugate comprising at least one neuropeptide covalently bond to at least one hydrocarbon compound of squalene structure.

A bioconjugate comprising at least one neuropeptide covalently bond to at least one hydrocarbon compound of squalene structure.

The disclosure provides compositions comprising at least one assembly comprising a peptide and a major histocompatibility complex (MHC), wherein the peptide is an integral component of the MHC, wherein the peptide is attached to a surface at its C-terminus through a linker and wherein the peptide is synthesized on the surface. In certain embodiments, the compositions comprise a plurality of assemblies in a spatially-ordered array. The disclosure provides methods for making and using these compositions.

Provided herein are variant CD80 polypeptides, immunomodulatory proteins comprising variant CD80 polypeptides, and nucleic acids encoding such proteins. The immunomodulatory proteins provide therapeutic utility for a variety of immunological and oncological conditions. Compositions and methods for making and using such proteins are provided.

The present application relates to polypeptides which are integrin antagonists. Methods of preparing the integrin antagonists and methods of treating diseases and disorders associated with abnormal levels and/or expression of one or more integrins are also provided.

The invention is directed to T cells and other cells that express chimeric NK-p30 receptors (“chimeric NKp30 T cells”), methods of making and using chimeric NKp30 T cells, and methods of using these chimeric NKp30 T cells, isolated populations thereof, and compositions comprising the same. In another aspect, said chimeric NKp30 T cells are further designed to express a functional non-TCR receptor. The disclosure also pertains to methods of making said chimeric NKp30 T cells, and methods of reducing or ameliorating, or preventing or treating, diseases and disorders using said chimeric NKp30 T cells, populations thereof, or compositions comprising the same.

The unique polymeric OGF and enkephalin peptide conjugates with large size polymer attached at the C-terminus through hydrolysable linkage enhancing therapeutic properties of OGF and enkephalin peptides.

The unique polymeric OGF and enkephalin peptide conjugates with large size polymer attached at the C-terminus through hydrolysable linkage enhancing therapeutic properties of OGF and enkephalin peptides.

This invention relates to a method of inhibiting neuronal cell death, including protecting neuronal cells from cell death and the effects of stress, such as high or low pH, comprising administering to the cells an effective amount of Teneurin C-terminal Associated Peptide (TCAP). The invention provides the use of TCAP to prevent and/or treat a number of brain conditions, such as hypoxia-ischemia and brain alkalosis or various brain or spinal cord injuries due to physical or physiological stresses. In one aspect the invention provides a use of TCAP to increase β-tubulin, β-actin levels in neuronal cells and/or to increase fasciculation among neuronal cells, in culture or in tissue. In another aspect, the invention provides a method of treating various pH induced neuronal conditions.