A compound represented by general formula (I-1):

##STR00001##

wherein the symbols are defined in the specification, has a selective S1P.sub.5 receptor binding activity and modulates the function of an S1P5 receptor, and can therefore be a therapeutic agent for a S1P.sub.5-mediated disease, for example, neurodegenerative diseases such as schizophrenia, Binswanger's disease and the like.

Described herein are compositions composed of frustrated Lewis pairs impregnated in porous materials such as, for example, metal-organic frameworks, and their uses thereof. These compositions may allow new applications of frustrated Lewis pairs in catalysis by sequestering and protecting the frustrated Lewis pair within the nanospace of the porous material. Also provided are methods of hydrogenating an organic compound having at least one unsaturated functional group comprising using the compositions described herein.

Described herein are compositions composed of frustrated Lewis pairs impregnated in porous materials such as, for example, metal-organic frameworks, and their uses thereof. These compositions may allow new applications of frustrated Lewis pairs in catalysis by sequestering and protecting the frustrated Lewis pair within the nanospace of the porous material. Also provided are methods of hydrogenating an organic compound having at least one unsaturated functional group comprising using the compositions described herein.

Methods and compositions containing a phorbol ester or a derivative of a phorbol ester are provided for the treatment and prevention of stroke and the sequelae of stroke. Additional compositions and methods are provided which employ a phorbol ester or derivative compound in combination with at least one additional agent to yield more effective treatment tools to treat or prevent stroke and the long term effects of stroke in mammalian subjects.

The present application provides novel tetrahydro-isohumulone (THIAA) derivatives and substantially enantiomerically pure compositions and pharmaceutical formulations thereof. The application further provides methods of using the disclosed compounds and compositions to activate PPAR, inhibit inflammation, and treat conditions associated with inflammation and conditions responsive to PPAR modulation such as diabetes.

The present application provides novel tetrahydro-isohumulone (THIAA) derivatives and substantially enantiomerically pure compositions and pharmaceutical formulations thereof. The application further provides methods of using the disclosed compounds and compositions to activate PPAR, inhibit inflammation, and treat conditions associated with inflammation and conditions responsive to PPAR modulation such as diabetes.

Methods and compositions containing a phorbol ester or a derivative of a phorbol ester are provided for the treatment and prevention of stroke and the sequelae of stroke. Additional compositions and methods are provided which employ a phorbol ester or derivative compound in combination with at least one additional agent to yield more effective treatment tools to treat or prevent stroke and the long term effects of stroke in mammalian subjects.

Methods and compositions containing a phorbol ester or a derivative of a phorbol ester are provided for the treatment and prevention of stroke and the sequelae of stroke. Additional compositions and methods are provided which employ a phorbol ester or derivative compound in combination with at least one additional agent to yield more effective treatment tools to treat or prevent stroke and the long term effects of stroke in mammalian subjects.

Described herein are methods of oxidative coupling of aryl boron reagents with sp.sup.3-carbon nucleophiles, and ambient decarboxylative arylation of malonate half-esters via oxidative catalysis.

Described herein are methods of oxidative coupling of aryl boron reagents with sp.sup.3-carbon nucleophiles, and ambient decarboxylative arylation of malonate half-esters via oxidative catalysis.