Abstract: Transcription factors (TFs) represent a major class of therapeutic targets for the treatment of human diseases including cancer. Although the biological function and even crystal structure of many TFs have been clearly elucidated, there is still no viable approach to target the majority of TFs, thus rendering them undruggable for decades. PROTACs (PROteolysis TArgeting Chimeras) have emerged as a powerful tool for the pharmaceutical development since the effect of PROTACs largely relies on engineered protein-protein interaction to aid the degradation of targets by the ubiquitin-proteasome system (UPS). The present disclosure provides a DNA-PROTAC platform for targeted degraders of individual TFs of interest. These DNA based Transcription Factor targetting PROTACS (or “TF-PROTACS”) may provide specificity to TF degradation based on the conserved DNA-binding motifs of respective TFs.

Abstract: PROTACs (PROteolysis TArgeting Chimeras) are an emerging class of promising therapeutic modalities that degrade intracellular protein targets by hijacking the cellular ubiquitin-proteasome system. However, potential toxicity of PROTACs in normal cells due to off-tissue on-target degradation effect limits their clinical applications. Precise control of PROTAC's on-target degradation activity in a tissue selective manner could minimize potential toxicity/side-effects. To this end, we developed a cancer cell selective delivery strategy for PROTACs by conjugating a folate group to ubqiquitin recruitment moiety to achieve targeted degradation of proteins of interest (POIs) in cancer cells versus normal cells. We show that our folate-PROTACs, including BRD PROTAC (Folate-ARV-771), MEK PROTAC (Folate-MS432) and ALK PROTAC (Folate-MS99, Folate-S2-MS4048) are capable of degrading BRDs, MEKs and ALK, respectively, in a folate receptor-dependent manner.

Abstract: By hijacking endogenous E3 ligase to degrade protein targets via the ubiquitin-proteasome system, PROTACs (PRoteolysis TArgeting Chimeras) provide a new strategy to inhibit protein targets that were previously regarded as undruggable. The compounds described herein comprise a photolabile group on PROTACs, enabling the degradation of protein targets in a spatiotemporally controlled manner By adding a photolabile caging group on ubiquitin recruiting moieties, light-inducible protein degradation was acheived. These opto-PROTACs display no activity in the dark, while restricted degradation can be induced at a specific time and rate by UVA-irradiation. Accordingly, these compounds provide light-controlled PROTACs and methods of using such compounds.

Abstract: The present disclosure features compositions and methods of treating a cancer in a subject by administering to the subject a Skp2 inhibitor and an inhibitor of glycolytic metabolism (e.g., PKM2 inhibitor).

Abstract: The invention generally provides a method of treating cancer, the method comprising administering to a subject having a cancer, an effective amount of an agent that inhibits the expression or activity of WW domain-containing protein-1 (WWP1) in combination with anti-PD-1 and/or anti-PD-L1 monoclonal antibodies.

Abstract: Provided are compositions and methods of treating subjects having cancer which involve administering to the subject an anti-PD-L1 or an anti-PD-1 antibody and an inhibitor of cyclin D kinase (CDK)4/6 to treat the cancer. Combining CDK4/6 inhibitor treatment with anti-PD-L1 or anti-PD-1 immunotherapy enhanced tumor regression and dramatically improved overall survival rates in tumor models.

Abstract: Some embodiments are based on the discovery that proliferative diseases (e.g., neoplastic diseases, for example, tumors or cancers) having an FBW7 mutation or other FBW7 deficiency are sensitive to Mc11 inhibiting agents, but resistant to pro-apoptotic drugs that do not inhibit Mc11. Some embodiments provide methods of treating a proliferative disease based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of classifying a hyperproliferative cell or cell population, for example, a malignant cell or cell population based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of selecting a treatment regimen for treating a proliferative disease, for example, a malignant disorder, based on an assessment of FBW7 expression level or mutation status.

Abstract: Some embodiments are based on the discovery that proliferative diseases (e.g., neoplastic diseases, for example, tumors or cancers) having an FBW7 mutation or other FBW7 deficiency are sensitive to Mcl1 inhibiting agents, but resistant to pro-apoptotic drugs that do not inhibit Mcl1. Some embodiments provide methods of treating a proliferative disease based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of classifying a hyperproliferative cell or cell population, for example, a malignant cell or cell population based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of selecting a treatment regimen for treating a proliferative disease, for example, a malignant disorder, based on an assessment of FBW7 expression level or mutation status.

Abstract: Some embodiments are based on the discovery that proliferative diseases (e.g., neoplastic diseases, for example, tumors or cancers) having an FBW7 mutation or other FBW7 deficiency are sensitive to Mcl1 inhibiting agents, but resistant to pro-apoptotic drugs that do not inhibit Mcl1. Some embodiments provide methods of treating a proliferative disease based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of classifying a hyperproliferative cell or cell population, for example, a malignant cell or cell population based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of selecting a treatment regimen for treating a proliferative disease, for example, a malignant disorder, based on an assessment of FBW7 expression level or mutation status.

Abstract: Some embodiments are based on the discovery that proliferative diseases (e.g., neoplastic diseases, for example, tumors or cancers) having an FBW7 mutation or other FBW7 deficiency are sensitive to Mcl1 inhibiting agents, but resistant to pro-apoptotic drugs that do not inhibit Mcl1. Some embodiments provide methods of treating a proliferative disease based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of classifying a hyperproliferative cell or cell population, for example, a malignant cell or cell population based on an assessment of FBW7 expression level or mutation status. Some embodiments provide methods of selecting a treatment regimen for treating a proliferative disease, for example, a malignant disorder, based on an assessment of FBW7 expression level or mutation status.