Abstract: The present invention relates to novel compounds and pharmaceutical compositions thereof, and methods for promoting healthy aging of skin, the treatment of skin disorders, the treatment of cardiovascular disorders, the treatment of renal disorders, the treatment of angiogenesis disorders, such as cancer, treatment of tissue damage, such as non-cardiac tissue damage, the treatment of evolving myocardial infarction, and the treatment of various other disorders, such as complications arising from diabetes with the compounds and compositions of the invention. Other disorders can include, but are not limited to, atherosclerosis, coronary artery disease, diabetic nephropathy, diabetic neuropathy, diabetic retinopathy, infections of the skin, peripheral vascular disease, stroke, and the like.

Abstract: The invention provides compounds and compositions comprising compounds that modulate histone acyl transferase (HAT). The invention further provides methods for treating neurodegenerative disorders, conditions associated with accumulated amyloid-beta peptide deposits, Tau protein levels, and/or accumulations of alpha-synuclein as well as cancer by administering a compound that modulates HAT to a subject.

Abstract: Provided are compositions comprising a cocaine esterase (CocE) and a compound that thermostabilizes the CocE. Also provided are methods of thermostabilizing a cocaine esterase. Additionally provided are methods of treating a mammal undergoing a cocaine-induced condition. Methods of determining whether a compound is a thermostabilizing agent for a protein are also provided. Uses of the above-described compositions for the treatment of a cocaine-induced condition is additionally provided. Additionally provided is an isolated nucleic acid encoding a CocE polypeptide having the substitutions L169K and G173Q, and the CocE polypeptide encoded by that nucleic acid, and pharmaceutical compositions thereof. Further provided is the use of that composition for the manufacture of a medicament for the treatment of a cocaine-induced condition and for the treatment of a cocaine-induced condition.

Abstract: Provided are compositions comprising a cocaine esterase (CocE) and a compound that thermostabilizes the CocE. Also provided are methods of thermostabilizing a cocaine esterase. Additionally provided are methods of treating a mammal undergoing a cocaine-induced condition. Methods of determining whether a compound is a thermostabilizing agent for a protein are also provided. Uses of the above-described compositions for the treatment of a cocaine-induced condition is additionally provided. Additionally provided is an isolated nucleic acid encoding a CocE polypeptide having the substitutions L169K and G173Q, and the CocE polypeptide encoded by that nucleic acid, and pharmaceutical compositions thereof. Further provided is the use of that composition for the manufacture of a medicament for the treatment of a cocaine-induced condition and for the treatment of a cocaine-induced condition.

Abstract: The present invention relates to the use of compounds that selectively bind to activated protein kinase G 1 alpha for imaging the anatomic basis for chronic pain. Such imaging may also be used to objectively quantify chronic pain.

Abstract: The invention provides for compounds that are phosphodiesterase inhibitors. The invention further provides for a method for screening compounds that bind to and modulate a phosphosdiesterase protein. The invention also provides methods for treating conditions associated with accumulated amyloid-beta peptide deposit accumulations by administering a phosphodiesterase-binding compound to a subject.

Abstract: The present invention relates to compounds that may be used to inhibit activation of protein kinase G (“PKG”). It is based, at least in part, on the discovery of the tertiary structure of PKG and the identification of molecules that either bind to the active site of PKG and/or are analogs of balanol.

Abstract: The described subject matter includes techniques and components for minimally invasive, selective capture and release of analytes. An aptamer is selected for its binding affinity with a particular analyte(s). The aptamer is functionalized on a solid phase, for example, microbeads, polymer monolith, microfabricated solid phase, etc. The analyte is allowed to bind to the aptamer, for example, in a microchamber. Once the analyte has been bound, a temperature control sets the temperature to an appropriate temperature at which the captured analyte is released.

Abstract: The invention provides for novel benzonaphthyridine derivatives and compositions comprising novel benzonaphthyridine derivatives. In some embodiments, the compounds are phosphodiesterase inhibitors. The invention further provides for methods for inhibition of phosphodiesterase comprising contacting phosphodiesterase with novel benzonaphthyridine derivatives or compositions comprising novel benzonaphthyridine derivatives. The invention further provides for methods for treatment of neurodegenerative diseases, increasing memory or long term potentiation with novel benzonaphthyridine derivatives or compositions comprising novel benzonaphthyridine derivatives. In some embodiments, the phosphodiesterase is PDE5.

Abstract: Inhibitors of Plasmodium falciparum equilibrative nucleoside transporter type 1 are identified and methods of use as anti-parasitic compounds are provided.

Abstract: The present invention relates to compounds that exhibit vasodilatory and anti-inflammatory effects by inhibiting the activity of soluble epoxide hydrolase (sEH). The present invention is also directed to methods of identifying such compounds, and use of such compounds for the treatment of diseases related to dysfunction of vasodilation, inflammation, and/or endothelial cells. In particular non-limiting embodiments, components of the invention may be used to treat hypertension.

Abstract: The present invention provides, inter alia, a compound of formula I: wherein the substituent designations are indicated in the Specification. The present invention also provides pharmaceutical compositions comprising a compound of formula I, and methods of treatment or prevention of diabetes or hyperglycemia in a patient, and of normalizing blood glucose levels in a subject, by administering an effective amount of a compound of formula I.

Abstract: Disclosed herein is an in vitro or in vivo method of activating or reversing inactivation of acetylcholinesterase (AChE) or butyrylcholinesterase (BuchE) using compounds of the present disclosure. Also disclosed is a method of treating a subject exposed to a nerve agent using such compounds. Also disclosed is a method of treating organophosphate poisoning in a subject using such compounds. Also disclosed is a method of modulating neuronal signaling and transmission in a subject using such compounds.

Abstract: The described subject matter includes techniques and components for minimally invasive, selective capture and release of analytes. An aptamer is selected for its binding affinity with a particular analyte(s). The aptamer is functionalized on a solid phase, for example, microbeads, polymer monolith, microfabricated solid phase, etc. The analyte is allowed to bind to the aptamer, for example, in a microchamber. Once the analyte has been bound, a temperature control sets the temperature to an appropriate temperature at which the captured analyte is released.

Abstract: The present invention relates to anti-drug vaccines based on conjugates between the drug and a non-immunogenic carrier protein. In preferred embodiments, it provides for anti-cocaine vaccines and their use to diminish the effects and/or use of cocaine in a subject.

Abstract: The present invention relates to the discovery of a novel molecular pathway involved in long-term hyperexcitability of sensory neurons, which, in higher animals, is associated with persistent pain. It is based on the discovery that, following injury to an axon of a neuron, an increase in nitric oxide synthase activity results in increased nitric oxide production, which, in turn, activates guanylyl cyclase, thereby increasing levels of cGMP. Increased cGMP results in activation of protein kinase G (“PKG”), which then is retrogradely transported along the axon to the neuron cell body, where it phosphorylates MAPKerk.

Abstract: The present invention relates to anti-drug vaccines based on conjugates between the drug and a non-immunogenic carrier protein. In preferred embodiments, it provides for anti-cocaine vaccines and their use to diminish the effects and/or use of cocaine in a subject.

Abstract: The present invention relates to compounds that exhibit vasodilatory and anti-inflammatory effects by inhibiting the activity of soluble epoxide hydrolase (sEH). The present invention is also directed to methods of identifying such compounds, and use of such compounds for the treatment of diseases related to dysfunction of vasodilation, inflammation, and/or endothelial cells. In particular non-limiting embodiments, components of the invention may be used to treat hypertension.

Abstract: The present invention relates to compounds that inhibit VIPR2 in the CNS, pharmaceutical compositions comprising said compounds, and methods of using such compounds and compositions in the treatment of a CNS disorder such as a behavioral disorder, including but not limited to schizophrenia.

Abstract: The present invention relates to the discovery of a novel molecular pathway involved in long-term hyperexcitability of sensory neurons, which, in higher animals, is associated with persistent pain. It is based on the discovery that, following injury to an axon of a neuron, an increase in nitric oxide synthase activity results in increased nitric oxide production, which, in turn, activates guanylyl cyclase, thereby increasing levels of cGMP. Increased cGMP results in activation of protein kinase G (“PKG”), which then is retrogradely transported along the axon to the neuron cell body, where it phosphorylates MAPKerk.