ENHANCED MEDICAL TREATMENTS RESULTING FROM CHEMICAL IDENTIFICATION OF CALCIUM INFLUX FACTOR, IDENTITY WITH THE FACTOR ACTIVATING PHOSPHOLIPOLYSIS AND PRECIPITATING SUDDEN DEATH DURING MYOCARDIAL INFARCTION, AND DETERMINATION OF SIMILAR ACTIVATING MECHANISMS IN MULTIPLE CELL TYPES THROUGH DISINHIBITION OF CALCIUM-INDEPENDENT PHOSPHOLIPASE A2beta

Abstract

A method for treating a mammal comprises administering at least one of a gene, enzyme and pharmaceutical which modulates the concentration of iPLA2β through transcriptional and / or translational regulation or effectively modulate the inhibition of iPLA2β through calmodulin or derivatives thereof.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims the priority of U.S. Provisional Patent Application Ser. No. 60 / 723,685 filed Oct. 5, 2005, which is hereby incorporated by referenced in its entirety.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH AND DEVELOPMENT [0002] This invention was made under contracts NIH 5P01HL57278 and NIH 5R01HL41250. The government has certain rights in the invention.BACKGROUND OF THE INVENTION [0003] This invention relates generally to biomarker screening and more particularly to identifying new targets for pharmacological inhibition. [0004] This invention also relates generally to analytical (assays) methods for identifying compounds useful for promoting health in living mammalian systems. In particular this invention relates to assays and analytical tools for monitoring health in living mammals. [0005] The function of complex living biological organisms relies on the meticulous control of cellular activity, including close regul...

AI Technical Summary

Benefits of technology

[0151] Shotgun lipidomics, based on intrasource separation. multidimensional MS and array analysis, has recently emerged as a powerful technique in the direct analysis of global cellular lipidomes. Intrasource separation can largely replace ion-exchange chromatography steps, allowing resolution of lipid classes based on the electrical properties of individual lipid classes. Multidimensional MS analysis facilitates an efficient identification of each subsequent individual molecular ion peak including potential nominal isobaric molecular species as well as the polar head groups, acyl moieties and the regiospecificity of each molecular species. The two-step quantitation process in 2D-MS for the analysis of building blocks provides an expanded dynamic range relative to a selected internal standard for each lipid class and represents an efficient and accurate method to quantify individual lipid molecular species. At the current stage of shotgun lipidomics, the analyses of over 20 lipid classes, hundreds of lipid molecular species and greater than 95% of the mass content of a cellular lipidome can be readily achieved. Its broad applications in biologic, pathologic and pathophysiologic studies have demonstrated the power and utility of shotgun lipidomics. It is anticipated that identification of many biochemical mechanisms underlying lipid metabolism critical to disease states will be uncovered through the use of shotgun lipidomics.

[0155] Shotgun lipidomics is a rapidly evolving technology. The authors believe the techniques described herein will be extended to identify low-abundance concentration lipid classes through the integration of enrichment techniques (e.g., nano-HPLC) and the development of new MS / MS methods for the identification of these classes. Additionally, the development of instruments with greatly improved sensitivity and resolution will extend penetration into the low-abundance region of cellular lipidomes. To this end, enrichment approaches in conjunction with ESI Fourier transform ion cyclotron resonance MS holds much promise [13.1]. Second, high-efficiency direct-infusion techniques such as microfluidic approaches will be integrated into shotgun lipidomics to accommodate the need for high through put. Third, bioinformatics in lipidomics through database development and automation of data processing will play an essential role in the development and utility of shotgun lipidomics. Finally, it appears likely that affordable robust platforms for shotgun lipidomics will be made available to the biomedical research community for even routine clinical applications such as diagnosis and monitoring of drug therapy. The authors speculate that the large flux of quantitative lipidomics data integrated with genomic and proteomic studies will significantly enhance our understanding of the role of lipids in biologic systems. Advances in this field may also lead to enhanced diagnosis of lipid-related disease states at earlier time points to enhance therapeutic efficacy and tailor drug therapy in the next 5 years.

[0158] In one embodiment, a method is provided of altering the interaction of iPLA2β with its endogenous calmodulin inhibitor through the actions of acyl-CoA or acyl-CoA like compounds that increase the inhibition of enzymic activity resulting in a decrease of iPLA2β activity and a decrease in the production of lipid second messengers.

[0159] In one embodiment, a method is provided of altering the interaction of iPLA2β with its endogenous calmodulin inhibitor through the actions of an acyl-CoA or acyl-CoA-like compound that decreases the inhibition of enzymic activity resulting in an increase of iPLA2β activity and an increase in the production of lipid second messengers.

Problems solved by technology

Despite the enormous proportions of this public health problem, the biochemical mechanisms underlying the metabolic syndrome and its end-organ sequelae are poorly understood.

However, when glucose builds up in the blood instead of going into cells (e.g., insulin resistance), it can cause serious life threatening problems which results in type 2 diabetes.

In this condition the body does not produce enough insulin to cause cells to transport glucose or the cells are not sensitive enough to the insulin present.

The concentration of blood glucose becomes and remains high in the blood resulting in unnecessary and undesired damage to the body.

Thus glucose is not utilized, proteins are covalently modified, inappropriate oxidation occurs and a change to fatty acid substrate occurs.

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