Estimating the number of viable animal cells in multi-well cultures based on their lactate dehydrogenase activities.

A method is described for estimating the numbers ofanimal cells in multi-well culture by simultaneouslymeasuring the lactate dehydrogenase activity of thetotal culture and the medium. The difference betweenthe two reflects the dehydrogenase content of thecells and correlates with cell number. This LDH/INTmethod was tested using several lines of normal andtransformed suspension and adherent cells.

Ectoadenylate kinase and plasma membrane ATP synthase activities of human vascular endothelial cells.

Formation of ATP from ADP on the external surface of vascular endothelial cells has been attributed to plasma membrane ATP synthase, ectoadenylate kinase (ecto-AK), and/or ectonucleoside diphosphokinase. These enzymes or their catalytic products have been causatively linked to the elaboration of vascular networks and the regulation of capillary function. The amount of ATP generated extracellularly is small, requiring sensitive analytical methods for quantification.

Estimating the number of viable animal cells in multiwell culture--a tetrazolium-based assay.

A reliable, indirect method (GPD/INT assay) for estimating the number of live animal cells in multiwell culture has been devised. It is based on the glucose-6-phosphate dehydrogenase (Gpdh) and 6-phosphogluconate dehydrogenase activities present in the cytoplasm of viable eukaryotic cells but not in their bathing medium nor in nonviable cells. A single reagent mixture, buffered at pH 7.

Identification of serine esterases in tissue homogenates.

Serine esterases react with [3H]diisopropylphosphofluoridate ([3H]DFP) to produce radioactive adducts that can be resolved by denaturing slab gel electrophoresis. To identify an esterase or its catalytic subunit, a potential substrate was included in the reaction mixture with the expectation that it would suppress the enzyme's reaction with [3H]DFP. The nature of the enzyme could be inferred from the character of the substrates that suppress labeling.

Antibody transport in cultured tumor cell layers.

This review summarizes our recent in vitro studies of the factors affecting the tumor penetration of immunoconjugates. The studies were designed to probe the mechanisms of diffusion and convection, using a cultured layer of mouse melanoma cells as a model tumor cell layer and an antibody to the murine transferrin receptor as a model ligand. Transport of the binding antibody was observed to be slower than that of a non-binding control, a result that is consistent with the "binding site barrier" hypothesis (Fujimori et al.