A novel approach to distinguish between enzyme mechanisms: quasi-steady-state kinetic analysis of the prostaglandin H synthase peroxidase reaction.

A method of analysis for steady-state kinetic data has been developed that allows relationships between key partial reactions in the catalytic cycle of a functioning enzyme to be determined. The novel approach is based on a concept of scalar and vector 'kinetic connectivities' between enzyme intermediates in an arbitrary enzyme mechanism. The criterion for the agreement between experimental data and a proposed kinetic model is formulated as the kinetic connectivity of intermediate forms of the enzyme.

Experimental and theoretical investigation of arachidonic acid uptake in macrophages.

The kinetics of 3H-labeled arachidonic acid (AA, 10(-10)-10(-5) M) incorporation into murine peritoneal macrophages was investigated. During the incorporation of AA into the cells, the steady state was reached at 10 h. The level of incorporation consisted of 48-50% for nanomolar concentrations and 28-30% for micromolar concentrations of AA.

Kinetics of prostanoid synthesis by macrophages is regulated by arachidonic acid sources.

The dependence of prostanoid synthesis on the nature of free arachidonic acid (AA) appearance was investigated in mouse peritoneal macrophages. AA delivery from intracellular sources to the constitutive prostaglandin (PG)H synthase was provided by action of calcium-ionophore A23187; and from extracellular sources by AA addition to the culture medium. It was found that the kinetics of prostanoid synthesis dramatically depends on the sources of AA.

[Prostaglandin-H-synthase: stability and activity during immobilization on silica gel].

Prostaglandin H synthase was isolated in the form of microsomes from sheep vesicular glands and immobilized on silica gel. This system of prostaglandin synthesis was activated by calcium ions and stabilized by adrenaline. Microsomes immobilized in the presence of adrenaline and calcium ions were stable upon storage at 4 degrees C.

Arachidonic acid regulation of prostanoid synthesis in macrophages.

The dynamics of prostaglandin (PG) E2 synthesis by mouse peritoneal macrophages during the delivery of the basic substrate, arachidonic acid (AA), from different sources to the enzyme system of the cells was investigated. The dynamics of PGE2 synthesis in these cells was studied both after addition of exogenous AA and after stimulating the liberation of AA from intracellular pools with the calcium ionophore A23187. The kinetics of PGE2 synthesis when AA was supplied from intracellular and extracellular sources were absolutely different.