In various embodiments chimeric moieties (constructs) are provided that show significant efficacy against cancers. In certain embodiments the constructs comprise a targeting moiety that specifically binds CD138 attached to an interferon or to a mutant interferon. In certain embodiments, the constructs comprise anti-CD138 antibody attached to an interferon alpha (IFN-α) or to a mutant interferon alpha.

The field of the present invention relates to genetically engineered fusion molecules, methods of making said fusion molecules, and uses thereof for treatment of autoimmune diseases. More specifically, the present invention provides novel genetically engineered fusion molecules comprising an interferon (IFN) molecule attached to an antibody (Ab) which targets an antigen which is differentially expressed or up-regulated on activated T cells as compared to resting T cells, wherein the fusion molecule when contacted to an activated T cell results in induced apoptosis and programmed cell death or impairment of functions of said activated T cell.

The field of the present invention relates to genetically engineered fusion molecules, methods of making said fusion molecules, and uses thereof for treatment of autoimmune diseases. More specifically, the present invention provides novel genetically engineered fusion molecules comprising an interferon (IFN) molecule attached to an antibody (Ab) which targets an antigen which is differentially expressed or up-regulated on activated T cells as compared to resting T cells, wherein the fusion molecule when contacted to an activated T cell results in induced apoptosis and programmed cell death or impairment of functions of said activated T cell.

Provided herein are activatable cytokine constructs that include: (a) a first monomer construct comprising a first peptide mask (PM1), a third cleavable moiety (CM3), a first mature cytokine protein (CP1), a first cleavable moiety (CM1), and a first dimerization domain (DD1), wherein the CM1 is positioned between the CP1 and the DD1, and the CM3 is positioned between the PM1 and CP1; and (b) a second monomer construct comprising a second mature cytokine protein (CP2), a second cleavable moiety (CM2), and a second dimerization domain (DD2), where the CM2 is positioned between the CP2 and the DD2, where: the DD1 and the DD2 bind each other; and where the ACC is characterized by a reduction in at least one activity of the CP1 and/or CP2 as compared to a control level of the at least one activity of the CP1 and/or CP2.

Provided herein are activatable cytokine constructs that include: (a) a first monomer construct comprising a first peptide mask (PM1), a third cleavable moiety (CM3), a first mature cytokine protein (CP1), a first cleavable moiety (CM1), and a first dimerization domain (DD1), wherein the CM1 is positioned between the CP1 and the DD1, and the CM3 is positioned between the PM1 and CP1; and (b) a second monomer construct comprising a second mature cytokine protein (CP2), a second cleavable moiety (CM2), and a second dimerization domain (DD2), where the CM2 is positioned between the CP2 and the DD2, where: the DD1 and the DD2 bind each other; and where the ACC is characterized by a reduction in at least one activity of the CP1 and/or CP2 as compared to a control level of the at least one activity of the CP1 and/or CP2.

A pharmaceutical composition comprising a conjugate of a cytokine and a tumor targeting moiety (TTM) and a pharmaceutically acceptable excipient, wherein the cytokine is present in an amount which does not induce a negative feedback mechanism.

A pharmaceutical composition comprising a conjugate of a cytokine and a tumor targeting moiety (TTM) and a pharmaceutically acceptable excipient, wherein the cytokine is present in an amount which does not induce a negative feedback mechanism.

Provided herein are activatable cytokine constructs that include: (a) a first monomer construct comprising a first peptide mask (PM1), a third cleavable moiety (CM3), a first mature cytokine protein (CP1), a first cleavable moiety (CM1), and a first dimerization domain (DD1), wherein the CM1 is positioned between the CP1 and the DD1, and the CM3 is positioned between the PM1 and CP1; and (b) a second monomer construct comprising a second mature cytokine protein (CP2), a second cleavable moiety (CM2), and a second dimerization domain (DD2), where the CM2 is positioned between the CP2 and the DD2, where: the DD1 and the DD2 bind each other; and where the ACC is characterized by a reduction in at least one activity of the CP1 and/or CP2 as compared to a control level of the at least one activity of the CP1 and/or CP2.

Provided herein are activatable cytokine constructs that include: (a) a first monomer construct comprising a first peptide mask (PM1), a third cleavable moiety (CM3), a first mature cytokine protein (CP1), a first cleavable moiety (CM1), and a first dimerization domain (DD1), wherein the CM1 is positioned between the CP1 and the DD1, and the CM3 is positioned between the PM1 and CP1; and (b) a second monomer construct comprising a second mature cytokine protein (CP2), a second cleavable moiety (CM2), and a second dimerization domain (DD2), where the CM2 is positioned between the CP2 and the DD2, where: the DD1 and the DD2 bind each other; and where the ACC is characterized by a reduction in at least one activity of the CP1 and/or CP2 as compared to a control level of the at least one activity of the CP1 and/or CP2.

The disclosure relates generally to methods compositions and dosing regimens for treating, preventing and/or delaying the onset or progression of, or alleviating a symptom associated with elevated IFN-γ levels.