The present invention generally to methods of treating subjects suffering from a cardiac condition or having a risk factor for developing a cardiac condition by administering an ELA peptide or fusion protein to a subject in need. The invention relates to fusion proteins of Fc-ELA-32 and Fc-ELA-21 that exhibit improved properties for use as therapeutic agents, e.g. in the treatment of cardiac conditions. In addition, the present invention relates to polynucleotides encoding such fusion proteins, and vectors and host cells comprising such polynucleotides. The invention further relates to methods for producing the fusion proteins of the invention, and to methods of using them in the treatment of disease.

The invention provides a mutant of a parent heterotrimeric G protein alpha (Gα) subunit, which mutant (i) lacks at least one helix of the helical domain of the parent Gα subunit; (ii) is capable of binding to a GPCR in the absence of a heterotrimeric G protein beta (Gβ) subunit and a heterotrimeric G protein gamma (Gγ) subunit; and (iii) has an amino acid sequence that contains one or more mutations compared to the amino acid sequence of the parent heterotrimeric Gα subunit, which mutations are selected from a deletion, a substitution and an insertion.

The present invention relates to cell-derived vesicles comprising target protein Prokineticin receptor 1 (PROKR1), and a therapeutic agent for muscle diseases comprising the same. When applied to myoblasts, the cell-derived vesicles comprising PROKR1 according to the present invention promote muscle differentiation and induce differentiation into myotubes, and can thus be used to prevent or treat muscle diseases and can be widely used in the pharmaceutical industry and the field of health functional foods.

Methods of treating a subject suffering from COVID-19 are provided. Aspects of the methods including administering to the subject an effective amount of an inhibitor of CCR5/CCL5 interaction, such as a CCR5 antagonist. Also provided are methods of assessing severity of a disease involving hypercytokinemia, such as COVID-19, by determining the level of CCL5/RANTES in a subject, as well as compositions for use in such methods.

Disclosed herein is a G protein-coupled receptor (GPCR) assay platform comprised of two complementary systems that equate dynamic intermolecular interactions between a receptor and transducer with more complex stimulus-response cascades in living cells. In the disclosed in vitro ADSoRB method, the forced dissociation of transducers like G protein heterotrimers from receptors alters receptor conformations and ligand interactions to simulate pathway activation in a cell. In the disclosed TRUPATH method, measuring the extent of engineered G protein heterotrimer complex dissociation provides single transducer resolution in a cell.

Provided is a composition comprising a mutant Q209L-GNAQ DNA vaccine encoding, in a N-terminal to C-terminal direction, a fusion protein comprising VP22 or an HLA-binding sequence thereof, a mutant GNAQ sequence comprising a Q209L mutation, and a PADRE epitope. Also provided are methods of treatment and methods of vaccination comprising administering to a patient the composition. Also provided is a method of generating mutant GNAQ-specific T cells comprising priming T cells with ex vivo cultured dendritic cells transduced or electroplated with the composition.

The present invention relates to peptides, methods for production of the same, nanoparticle formulations of the same and the use of these new peptides and nanoparticle formulations as inhibitors of protein-protein interactions, in particular for application in the treatment of diseases associated with overexpression of the RAN gene.

Methods of treating a subject suffering from COVID-19 are provided. Aspects of the methods including administering to the subject an effective amount of an inhibitor of CCR5/CCL5 interaction, such as a CCR5 antagonist. Also provided are methods of assessing severity of a disease involving hypercytokinemia, such as COVID-19, by determining the level of CCL5/RANTES in a subject, as well as compositions for use in such methods.

The disclosure provides helix grafted proteins, methods of producing helix grafted proteins and methods of use of helix grafted proteins as inhibitors of protein-protein interactions involved in disease pathogenesis.

Provided herein are compounds that inhibit a binding interaction between a integrin and a G protein subunit, as well as compositions, e.g., pharmaceutical compositions, comprising the same, and related kits. In some embodiments, the compound is an antibody or antibody analog, and, in other embodiments, the compound is a peptide or peptide analog. Also provided are methods of using the compounds, including methods of treating or preventing a medical condition, such as stroke, heart attack, cancer, or inflammation.