The invention relates to the field of obesity and related metabolic diseases. More specifically, the invention relates to methods of reducing aggrecanase activity or antigen in mammals in order to enhance brown adipose tissue (BAT) development, to promote conversion of white adipose tissue (WAT) into BAT in vivo, and to limit triglyceride accumulation and steatosis in the liver. The invention also relates to a strategy of neutralization or depletion of ADAMTS5 as a strategy to inhibit adipogenesis and more specifically, the invention relates to a method of reducing aggracanase-2 (ADAMTS5, A Disintegrin and Metalloproteinase with Thrombospondin motif 1; member 5) antigen and/or activity in mammals in order to impair differentiation of precursor cells into mature adipocytes (i.e., adipogenesis).

The invention relates to the field of obesity and related metabolic diseases. More specifically, the invention relates to methods of reducing aggrecanase activity or antigen in mammals in order to enhance brown adipose tissue (BAT) development, to promote conversion of white adipose tissue (WAT) into BAT in vivo, and to limit triglyceride accumulation and steatosis in the liver. The invention also relates to a strategy of neutralization or depletion of ADAMTS5 as a strategy to inhibit adipogenesis and more specifically, the invention relates to a method of reducing aggracanase-2 (ADAMTS5, A Disintegrin and Metalloproteinase with Thrombospondin motif 1; member 5) antigen and/or activity in mammals in order to impair differentiation of precursor cells into mature adipocytes (i.e., adipogenesis).

The invention provides compositions and methods for effective lysosomal targeting mediated by PCSK9. In particular, the compositions and methods provided by the invention may be used to treat lysosomal storage diseases such as Pompe Disease and Sanfilippo Syndrome Type B, and they may be used for targeting lysosomal enzymes to the various muscles of the human body.

The invention provides compositions and methods for effective lysosomal targeting mediated by PCSK9. In particular, the compositions and methods provided by the invention may be used to treat lysosomal storage diseases such as Pompe Disease and Sanfilippo Syndrome Type B, and they may be used for targeting lysosomal enzymes to the various muscles of the human body.

The present disclosure relates to a modified Interleukin-1 (IL-1) family member cytokine, with reduced activity via its cytokine receptor, wherein said interleukin-1 family member cytokine is specifically delivered to target cells. Preferably, the IL-1 family member cytokine is a mutant, more preferably it is a mutant IL-1 with low affinity to the IL-1 receptor, wherein said mutant IL-1 is specifically delivered to target cells. The targeting is preferably realized by fusion of the modified IL-1 family member cytokine to a targeting moiety, preferably an antibody or antibody-like molecule. The disclosure relates further to the use of such targeted modified IL-1 family member cytokine to treat diseases.

The present disclosure relates to a modified Interleukin-1 (IL-1) family member cytokine, with reduced activity via its cytokine receptor, wherein said interleukin-1 family member cytokine is specifically delivered to target cells. Preferably, the IL-1 family member cytokine is a mutant, more preferably it is a mutant IL-1 with low affinity to the IL-1 receptor, wherein said mutant IL-1 is specifically delivered to target cells. The targeting is preferably realized by fusion of the modified IL-1 family member cytokine to a targeting moiety, preferably an antibody or antibody-like molecule. The disclosure relates further to the use of such targeted modified IL-1 family member cytokine to treat diseases.

Materials and methods for treating potentially chemoresistant tumors (e.g., using DNA-PKcs inhibitors and anti-B7-H1 antibodies) are provided herein.

Materials and methods for treating potentially chemoresistant tumors (e.g., using DNA-PKcs inhibitors and anti-B7-H1 antibodies) are provided herein.

Provided herein are T-cell receptor (TCR) fusion proteins (TFPs), T-cells engineered to express one or more TFPs, and methods of use thereof for the treatment of diseases, including cancer.

Provided herein are T-cell receptor (TCR) fusion proteins (TFPs), T-cells engineered to express one or more TFPs, and methods of use thereof for the treatment of diseases, including cancer.