The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders. The present disclosure relates to a non-toxic mutant form of the Vibrio cholera Cholix gene (ntCholix), a variant of Cholix truncated at amino acid A.sup.386 (Cholix.sup.386) and the use of other various Cholix-derived polypeptide sequences to enhance intestinal delivery of biologically-active therapeutics. The systems and methods described herein provide for: the ability to deliver macromolecule doses without injections; the ability to deliver cargo such as siRNA or antisense molecules into intracellular compartments where their activity is required; and the delivery of nanoparticles and dendrimer-based carriers across biological membranes.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders. The present disclosure relates to a non-toxic mutant form of the Vibrio cholera Cholix gene (ntCholix), a variant of Cholix truncated at amino acid A.sup.386 (Cholix.sup.386) and the use of other various Cholix-derived polypeptide sequences to enhance intestinal delivery of biologically-active therapeutics. The systems and methods described herein provide for: the ability to deliver macromolecule doses without injections; the ability to deliver cargo such as siRNA or antisense molecules into intracellular compartments where their activity is required; and the delivery of nanoparticles and dendrimer-based carriers across biological membranes.

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.

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.

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.

The invention concerns a pharmaceutical composition, kit or fixed-dose combination comprising a methionine depletion agent (MDA), and an anti-cancer immune modulator (ACIM), for use in the treatment of a disease or condition in a subject or patient in need of treatment thereof. Synergic combinations are provided. Cancer may be for example acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML), pancreatic cancer, gastric cancer, colorectal cancer, prostate cancer, ovarian cancer, brain cancer, head and neck cancer or breast cancer.

The invention concerns a pharmaceutical composition, kit or fixed-dose combination comprising a methionine depletion agent (MDA), and an anti-cancer immune modulator (ACIM), for use in the treatment of a disease or condition in a subject or patient in need of treatment thereof. Synergic combinations are provided. Cancer may be for example acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML), pancreatic cancer, gastric cancer, colorectal cancer, prostate cancer, ovarian cancer, brain cancer, head and neck cancer or breast cancer.

Deferred treatment of nerve injuries is provided. Accordingly, there is provided a method of deferred treatment of a nerve injury in a subject in need thereof, the method comprising implanting at least 1 week following onset or diagnosis of the nerve injury in the subject a composition comprising a hyaluronic acid, a laminin polypeptide and an antioxidant at or near the nerve injury of the subject.

Deferred treatment of nerve injuries is provided. Accordingly, there is provided a method of deferred treatment of a nerve injury in a subject in need thereof, the method comprising implanting at least 1 week following onset or diagnosis of the nerve injury in the subject a composition comprising a hyaluronic acid, a laminin polypeptide and an antioxidant at or near the nerve injury of the subject.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders. The present disclosure relates to a non-toxic mutant form of the Vibrio cholera Cholix gene (ntCholix), a variant of Cholix truncated at amino acid A.sup.386 (Cholix.sup.386) and the use of other various Cholix-derived polypeptide sequences to enhance intestinal delivery of biologically-active therapeutics. The systems and methods described herein provide for: the ability to deliver macromolecule doses without injections; the ability to deliver cargo such as siRNA or antisense molecules into intracellular compartments where their activity is required; and the delivery of nanoparticles and dendrimer-based carriers across biological membranes.