Methods of treating cancer and prolonging survival of a subject having cancer, such as acute myeloid leukemia, via administration of therapeutically effective amounts of agents that depletes plasma glutamine and agents that inhibit BCL-2 activity are detailed herein. Suitable agents that depletes plasma glutamine include asparaginase Suitable agents that inhibit BCL-2 activity include Venetoclax.

Disclosed herein are methods and compositions related to combination therapy for cancer. More specifically, several treatment modalities are used in combination to induce an effective anti-tumor immune response. The present invention relates generally to the treatment of human cancer and, more specifically, to use of several treatment modalities in combination to induce effective anti-tumor immune responses.

The invention relates to the use of an amidohydrolase for preparing foodstuffs or stimulants.

Peptides that specifically bind erythrocytes are described. These are provided as peptidic ligands having sequences that specifically bind, or as antibodies or fragments thereof that provide specific binding, to erythrocytes. The peptides may be prepared as molecular fusions with therapeutic agents, tolerizing antigens, or targeting peptides. Immunotolerance may be created by use of the fusions and choice of an antigen on a substance for which tolerance is desired.

A method for producing a polyglycerol nanogel is disclosed, the method comprising the following steps: Mixing an aqueous solution of first polyglycerol macromonomers, which are modified with a first reactive group, with an aqueous solution of second polyglycerol macromonomers, which are modified with a second reactive group, wherein the first reactive group and the second reactive group can react with each other forming a chemical bond; transferring the mixture into an organic non-solvent; and precipitation of a polyglycerol nanogel consisting of first polyglycerol macromonomers and second polyglycerol macromonomers which are covalently bound to each other. According to an aspect of the invention, the method is characterized in that the organic non-solvent is miscible with water and in that the method is carried out without adding surface-active substances.

Peptides that specifically bind erythrocytes are described. These are provided as peptidic ligands having sequences that specifically bind, or as antibodies or fragments thereof that provide specific binding, to erythrocytes. The peptides may be prepared as molecular fusions with therapeutic agents, tolerizing antigens, or targeting peptides. Immunotolerance may be created by use of the fusions and choice of an antigen on a substance for which tolerance is desired.

The invention is related to a new method for treating liquid and solid cancers, in a mammal, including human, wherein methioninase is administered before asparaginase. The invention also encompasses the use of a dietary methionine deprivation, possibly combined with methioninase administration, in advance of asparaginase treatment. Methioninase and asparaginase may be used in particular under free form, pegylated form or encapsulated into erythrocytes.

Provided herein, in some embodiments, are methods for detecting a level of asparaginase (ASNS) in a sample obtained from a subject having or at risk for stomach cancer or liver cancer, and methods of treating the subject.

The present invention relates to method of purifying charge-shielded proteins from a cell lysate or periplasmic releasate using hydrophobic interaction chromatography as a first chromatography steps. Also provided herein are compositions comprising charge-shielded proteins and methods of treatment using purified charge-shielded proteins.

The present invention provides, in some embodiments, methods of promoting an immune response in a subject in need thereof, comprising administering to the subject a population of immune cells that express an enzyme that facilitates immune cell function in a nutrient-poor environment. The invention also provides, in other embodiments, compositions comprising an ex vivo population of immune cells expressing an enzyme that enhances immune cell function in a nutrient-poor environment.