The discovery of mutant or fusion kinases that drive oncogenesis, and the subsequent approval of specific inhibitors for these enzymes, has been instrumental in the management of some cancers. However, acquired resistance remains a significant problem in the clinic, limiting the long-term effectiveness of most of these drugs. Herein is demonstrated a strategy to overcome this resistance through drug-induced MEK cleavage (via direct procaspase-3 activation) combined with targeted kinase inhibition. This combination effect is shown to be general across diverse tumor histologies (melanoma, lung cancer, and leukemia) and driver mutations (mutant BRAF or EGFR, fusion kinases EML4-ALK and BCR-ABL). Caspase-3-mediated degradation of MEK kinases results in sustained pathway inhibition and substantially delayed or eliminated resistance in cancer cells in a manner superior to combinations with MEK inhibitors. These data suggest the generality of drug-mediated MEK kinase cleavage as a therapeutic strategy to prevent resistance to targeted anticancer therapies.

Described herein are compounds that are inhibitors of autophagy and their use in the treatment of disorders such as cancers.

Described herein are compounds that are inhibitors of autophagy and their use in the treatment of disorders such as cancers.

The application is directed to compounds of formulae (IA) and (IB): (IA) and (IB), and their salts and solvates, wherein R.sup.1a, R.sup.2a, .sup.A1, A.sup.2, A.sup.3, A.sup.4, R.sup.1b, R.sup.2b, B.sup.1, B.sup.2, B.sup.3, and G are as set forth in the specification, as well as to methods for their preparation, N pharmaceutical compositions comprising the same, and use thereof for the treatment and/or prevention of, e.g., lysosomal storage diseases, such as Krabbe's disease, and α-synucleinopathies, such as Parkinson's disease.

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Described herein are compounds that are inhibitors of autophagy and their use in the treatment of disorders such as cancers.

Described herein are compounds that are inhibitors of autophagy and their use in the treatment of disorders such as cancers.

The present disclosure provides methods for treating hematological malignancies using menin inhibitors. Compositions for use in these methods are also provided.

The ubiquitin ligase, RNF5, regulates the gut microbiota composition and influences the immune checkpoint response to tumors. RNF5 deficient animals exhibit significant inhibition of tumor development as well as an altered gut microbiota composition. Methods of treating cancer by administering to a subject one or more selected bacterial species and/or one or more prebiotics that promote the growth of one or more selected bacterial species are disclosed. Also disclosed are methods of treating cancer by administering to a subject one or more selected bacterial species and/or one or more prebiotics that promote the growth of one or more selected bacterial species in combination with one or more anti-cancer agents.

The present disclosure relates generally to rapid-release pharmaceutical dosage unit tablets containing a drug that is an inhibitor of the mitogen-activated protein kinase enzyme, a filler and a disintegrant, and to processes for forming the tablets. More specifically, the present disclosure relates to pharmaceutical dosage unit tablets containing cobimetinib, a least one filler, at least one lubricant and at least one disintegrant, and to methods for preparing the tablets from granules formed by dry granulation.

The present disclosure relates generally to rapid-release pharmaceutical dosage unit tablets containing a drug that is an inhibitor of the mitogen-activated protein kinase enzyme, a filler and a disintegrant, and to processes for forming the tablets. More specifically, the present disclosure relates to pharmaceutical dosage unit tablets containing cobimetinib, a least one filler, at least one lubricant and at least one disintegrant, and to methods for preparing the tablets from granules formed by dry granulation.