Multichannel analysis of intracellular control and intercellular transfer of molecules.

The metabolic regulation and exchanges within intracellular organelles or a cell cluster are studied by multichannel microfluorometry and microinjection of metabolites or tracers. The determination of structure-function relationships relies on the retrieval of cells after microfluorometry, for subsequent morphological evaluation. Rate constants of coenzyme reduction-reoxidation were deduced from a mathematical model of NAD(P) in equilibrium with NAD(P)H transients due to microinjection of metabolites into cultured cells belonging to a variety of normal or malignant lines.

New metabolic parameters for the characterization of cells.

Microspectrofluorometric evaluation of coenzyme-linked transient changes in blue fluorescence, triggered by microinjections of metabolic intermediates, allows the definition of dynamic parameters in the characterization of cells. The observed fluorescence transients can be simulated by appropriate equations accounting for NAD(P) reduction-reoxidation, with NAD(P) as rate-limiting or not. From the above, the rate constants K1 and K2 of NAD(P) reduction and reoxidation can be determined.