The present invention relates to engineered neuregulin-1 variants that selectively activate ErbB4 receptors but do not activate ErbB3 receptors. The invention also provides methods for using such variants to treat heart failure.

The present invention relates to engineered neuregulin-1 variants that selectively activate ErbB4 receptors but do not activate ErbB3 receptors. The invention also provides methods for using such variants to treat heart failure.

The present disclosure relates to methods and compositions to confer and/or increase immune responses mediated by cellular immunotherapy, such as by adoptively transferring tumor-specific genetically-modified subsets of lymphocytes. The disclosure provides compositions comprising genetically-modified lymphocytes that express at least two transgene(s) having the ability to modulate the immune system and the innate and adaptive immune response.

Microbes can be genetically modified to express biomolecules that are beneficial to mammals and/or to reduce, or eliminate, expression of harmful virulence factors. The growth and viability of such genetically modified microbes can optionally be controlled by inducible promoters that regulate the expression of proteins that are essential to their growth and survival. Compositions comprising such genetically modified microbes as well as methods of making and using the same are disclosed herein.

Microbes can be genetically modified to express biomolecules that are beneficial to mammals and/or to reduce, or eliminate, expression of harmful virulence factors. The growth and viability of such genetically modified microbes can optionally be controlled by inducible promoters that regulate the expression of proteins that are essential to their growth and survival. Compositions comprising such genetically modified microbes as well as methods of making and using the same are disclosed herein.

The present disclosure provides for a synthetic immunogenic protein for use as an immuno-modulatory agent to enhance mammalian immune reactions towards conjugated protein or peptide containing antigens that are otherwise poorly immunogenic, including but not limited to self-antigens. The chimeric immunogenic proteins of the present disclosure can be used in the treatment of many illnesses, including but not limited to cancers, infectious disease, autoimmune disease, allergies and any clinical indication involving or affected by the immune response of a mammalian host.

The present disclosure provides for a synthetic immunogenic protein for use as an immuno-modulatory agent to enhance mammalian immune reactions towards conjugated protein or peptide containing antigens that are otherwise poorly immunogenic, including but not limited to self-antigens. The chimeric immunogenic proteins of the present disclosure can be used in the treatment of many illnesses, including but not limited to cancers, infectious disease, autoimmune disease, allergies and any clinical indication involving or affected by the immune response of a mammalian host.

The present disclosure relates to one or more agents, therapies, treatments, and methods of use of the agents and/or therapies and/or treatments for increasing production of a Cetuximab-like protein (CLP) by a subject that is administered the agent, therapy or treatment. Embodiments of the present disclosure can be used as a therapy or a treatment for a subject that has a condition that may benefit from reducing the DNA synthesis of genes that regulate cellular growth and proliferation.

Bivalent epidermal growth factor (EGF) fusion toxin including two EGF domains are provided. The described fusion toxin demonstrates increased binding and cytotoxicity when compared to a fusion toxin having a single EGF binding domain (monovalent). Methods for treating epidermal growth factor receptor (EGFR)-positive cancers and related materials are also provided.

Bivalent epidermal growth factor (EGF) fusion toxin including two EGF domains are provided. The described fusion toxin demonstrates increased binding and cytotoxicity when compared to a fusion toxin having a single EGF binding domain (monovalent). Methods for treating epidermal growth factor receptor (EGFR)-positive cancers and related materials are also provided.