Isoquinoline compounds and their use as inhibitors of HPK1 (hematopoietic kinase 1) are described. The compounds are useful in treating HPK1-dependent disorders and enhancing an immune response. Also described are methods of inhibiting HPK1, methods of treating HPK1-dependent disorders, methods for enhancing an immune response, and methods for preparing the isoquinoline compounds.

Isoquinoline compounds and their use as inhibitors of HPK1 (hematopoietic kinase 1) are described. The compounds are useful in treating HPK1-dependent disorders and enhancing an immune response. Also described are methods of inhibiting HPK1, methods of treating HPK1-dependent disorders, methods for enhancing an immune response, and methods for preparing the isoquinoline compounds.

The present disclosure relates to prodrugs, double prodrugs, derivatives and analogues of 3-(methylamino)-2-((methylamino)methyl)propane-1-thiol. The compounds of this disclosure also relate to ##STR00001##
The use of these compounds as radio— and chemo—protectors is also described.

Compounds of the formula I

##STR00001##

in which X.sup.1, X.sup.2, X.sup.3, X.sup.4, R.sup.1, R.sup.2, R.sup.3, Q and Y have the meanings indicated in claim 1,
are inhibitors of c-Kit kinase, and can be employed for the treatment of cancer.

Disclosed herein are compounds, compositions, and methods for modulating the A.sub.2A adenosine receptor with the compounds and compositions disclosed herein. Also described are methods of treating diseases or disorders that are mediated by the A.sub.2A adenosine receptor, such as cancer, with A.sub.2A adenosine receptor antagonists.

Disclosed herein are compounds, compositions, and methods for modulating the A.sub.2A adenosine receptor with the compounds and compositions disclosed herein. Also described are methods of treating diseases or disorders that are mediated by the A.sub.2A adenosine receptor, such as cancer, with A.sub.2A adenosine receptor antagonists.

The subject invention pertains to methods of treating HIV-1 infected subject comprising the administration of growth hormone to a subject infected by HIV-1. The subject may be undergoing co-administration of anti-retroviral therapies (ARTs), may be untreated with anti-retroviral drugs (ARDs) or may be in a period of time where no ART is being administered. Growth hormone may be administered at a fixed dosage for a set period of time or may be administered at a first dosage for a first period of time that may then be increased or decreased to a second dosage for a second period of time.

The subject invention pertains to methods of treating HIV-1 infected subject comprising the administration of growth hormone to a subject infected by HIV-1. The subject may be undergoing co-administration of anti-retroviral therapies (ARTs), may be untreated with anti-retroviral drugs (ARDs) or may be in a period of time where no ART is being administered. Growth hormone may be administered at a fixed dosage for a set period of time or may be administered at a first dosage for a first period of time that may then be increased or decreased to a second dosage for a second period of time.

Described herein, in part, are tablets, such as immediate release multi-layer or bilayer tablets for orally delivering olanzapine and samidorphan, methods of using said tablets in the treatment of disorders described herein, and kits comprising said tablets.

Described herein, in part, are tablets, such as immediate release multi-layer or bilayer tablets for orally delivering olanzapine and samidorphan, methods of using said tablets in the treatment of disorders described herein, and kits comprising said tablets.