A synergistic non-toxic formulation for management of respiratory pathogens including coronaviruses and the process of preparing the synergistic formulation. The effective, non-toxic composition comprises of biological peptides including calcium chelating peptide and zinc chelating peptides, protease inhibitor such as 9-Arginine-peptide and inhibitor of viral replication enzyme such as vitamin B12 to reduce the presence of respiratory viruses including coronaviruses. The formulation is a cocktail of ingredients having a synergistic effect which is capable of being administered through various means including by way of inhalation, as nasal spray or an oral pump or via nebulizer to inhibit the entry and replication of respiratory pathogens. The combination of the formulation is such that it can be customized for a number of viral infections. The formulation is economical, self-administrable and effective even in low doses.

A synergistic non-toxic formulation for management of respiratory pathogens including coronaviruses and the process of preparing the synergistic formulation. The effective, non-toxic composition comprises of biological peptides including calcium chelating peptide and zinc chelating peptides, protease inhibitor such as 9-Arginine-peptide and inhibitor of viral replication enzyme such as vitamin B12 to reduce the presence of respiratory viruses including coronaviruses. The formulation is a cocktail of ingredients having a synergistic effect which is capable of being administered through various means including by way of inhalation, as nasal spray or an oral pump or via nebulizer to inhibit the entry and replication of respiratory pathogens. The combination of the formulation is such that it can be customized for a number of viral infections. The formulation is economical, self-administrable and effective even in low doses.

A synergistic non-toxic formulation for management of respiratory pathogens including coronaviruses and the process of preparing the synergistic formulation. The effective, non-toxic composition comprises of biological peptides including calcium chelating peptide and zinc chelating peptides, protease inhibitor such as 9-Arginine-peptide and inhibitor of viral replication enzyme such as vitamin B12 to reduce the presence of respiratory viruses including coronaviruses. The formulation is a cocktail of ingredients having a synergistic effect which is capable of being administered through various means including by way of inhalation, as nasal spray or an oral pump or via nebulizer to inhibit the entry and replication of respiratory pathogens. The combination of the formulation is such that it can be customized for a number of viral infections. The formulation is economical, self-administrable and effective even in low doses.

Pharmaceutical compositions of the invention include substituted riluzole prodrugs useful for the treatment of cancers including melanoma, breast cancer, brain cancer, and prostate cancer through the release of riluzole. Prodrugs of riluzole have enhanced stability to hepatic metabolism and are delivered into systemic circulation by oral administration, and then cleaved to release riluzole in the plasma via either an enzymatic or general biophysical release process.

Pharmaceutical compositions of the invention include substituted riluzole prodrugs useful for the treatment of cancers including melanoma, breast cancer, brain cancer, and prostate cancer through the release of riluzole. Prodrugs of riluzole have enhanced stability to hepatic metabolism and are delivered into systemic circulation by oral administration, and then cleaved to release riluzole in the plasma via either an enzymatic or general biophysical release process.

Combination therapies that include (i) an immune cell that expresses a chimeric antigen receptor (CAR) or similar molecule and (ii) a compound that preserves or potentiates the in vivo actions of tumor necrosis factor alpha (TNFα) against cancer cells are described. The combination therapies result in the killing of antigen-negative cells in the vicinity of immunotherapy targeted-antigen-positive cells reducing the survivability of escape variants and providing other benefits.

Combination therapies that include (i) an immune cell that expresses a chimeric antigen receptor (CAR) or similar molecule and (ii) a compound that preserves or potentiates the in vivo actions of tumor necrosis factor alpha (TNFα) against cancer cells are described. The combination therapies result in the killing of antigen-negative cells in the vicinity of immunotherapy targeted-antigen-positive cells reducing the survivability of escape variants and providing other benefits.

The present invention relates to the field of caspase inhibition. More specifically, the present invention provides compositions and methods utilizing caspase inhibitors to enhance injury repair and to treat bacterial and viral infections. In a specific embodiment, a method for treating a bacterial infection and skin lesions in a patient comprises the step of administering to the patient an effective amount of a caspase inhibitor.

The present invention relates to the field of caspase inhibition. More specifically, the present invention provides compositions and methods utilizing caspase inhibitors to enhance injury repair and to treat bacterial and viral infections. In a specific embodiment, a method for treating a bacterial infection and skin lesions in a patient comprises the step of administering to the patient an effective amount of a caspase inhibitor.

The present invention relates to polypeptides which are covalently bound to non-aromatic molecular scaffolds such that two or more peptide loops are subtended between attachment points to the scaffold. In particular, the invention describes peptides which are high affinity binders of the Eph receptor tyrosine kinase A2 (EphA2). The invention also includes drug conjugates comprising said peptides, conjugated to one or more effector and/or functional groups, to pharmaceutical compositions comprising said peptide ligands and drug conjugates and to the use of said peptide ligands and drug conjugates in preventing, suppressing or treating a disease or disorder characterised by overexpression of EphA2 in diseased tissue (such as a tumour).