Implementation of a continuous, enzyme-coupled fluorescence assay for high-throughput analysis of glutamate-producing enzymes

Enzymatic formation of glutamate is critical to numerous biological pathways. However, current methods for assaying the activities of glutamate-forming enzymes are not particularly suitable for high-throughput screening in drug discovery. We present a continuous-read, fluorometric assay for high-throughput analysis of glutaminases. This assay is adapted to a microplate format and employs glutamate oxidase and horseradish peroxidase to couple glutamate formation to production of the fluorescent reporter molecule, resorufin, for enhancement of sensitivity (M. Zhou, Z. Diwu, N. Panchuk-Voloshina, and R. P. Haughland, 1997, Anal. Biochem. 253, 162-168). Described herein is the selection of suitable levels of coupling enzymes for optimal kinetic response and lag time of the reporter system, based on the kinetic characteristics of the individual coupling enzymes. Finally, implementation of the assay in a format for high-throughput kinetic analysis of glutaminases is demonstrated for Escherichia coli carbamoyl phosphate synthase. Derived kinetic constants are comparable to literature values determined using a variety of assay techniques.

Disubstituted indazoles as potent antagonists of the integrin alpha(v)beta(3)

A new series of indazole-containing alpha(v)beta(3) integrin antagonists is described. Starting with lead compound 18a, variations in a number of structural features were explored with respect to inhibition of the binding of beta(3)-transfected 293 cells to fibrinogen and to selectivity for alpha(v)beta(3) over GPIIbIIIa, another RGD-binding integrin. Indazoles attached to a 2-aminopyridine or 2-aminoimidazole by a propylene linker at the indazole 1-position and to a diaminopropionate derivative via a 5-carboxylate amide provided the best potency with moderate selectivity. Several differences in the SAR of the diaminopropionate moiety were observed between this series and a series of isoxazoline-based selective GPIIbIIIa antagonists. Compound 34a (SM256) was a potent antagonist of alpha(v)beta(3) (IC(50) 2.3 nM) with 9-fold selectivity over GPIIbIIIa.

A fluorescent cellular adhesion assay using insect cell produced human VCAM1

Activated endothelium and some dendritic cells express the adhesion molecule VCAM1, a member of the immunoglobulin gene superfamily. Mononuclear leukocytes display the integrin VLA4 that functions as a counterreceptor for VCAM1. The interaction of VCAM1 with VLA4 mediates cell to cell adhesion events believed to be important regulators of inflammation, cancer cell metastasis, and atherosclerosis. This report describes the development of a fluorescent adhesion assay that specifically measures T cell adhesion to recombinant human VCAM1 (rVCAM1) expressed in a baculovirus expression vector system (BEVS). We describe a simple and rapid protocol to partially purify non-denatured rVCAM1 from insect cell membrane preparations (VCAM1 infected Sf9 cells). Jurkat cells, a T cell line expressing VLA4, specifically adhered to the rVCAM1 membrane preparations coated onto 96-well plates. Jurkat cells did not adhere to control membrane preparations that lacked rVCAM1 protein. Both unstimulated and IL-2 stimulated Jurkat cells displayed functional VLA4 capable of binding to immobilized rVCAM1. Monoclonal antibodies recognizing either VCAM1 (E1/6, BBA6) or VLA4 (HP2/1) blocked specific VCAM1/VLA4 adhesion, whereas a monoclonal antibody to the alpha chain of LFA1 did not block adhesion. The methods described here could be applied to develop similar functional assays for other cell surface receptors/counterreceptors expressed in a BEVS.