The identification of drug targets for pharmaceutical screening can be greatly accelerated by gene databases and expression studies. The identification of leading compounds from growing libraries is realized by high throughput screening platforms. Subsequently, for optimization and validation of identified leading compounds studies of their functionality have to be carried out, and just these functionality tests are a limiting factor. A rigorous preselection of identified compounds by in vitro cellular screening is necessary prior to using the drug candidates for the further time consuming and expensive stage, e.g. in animal models. Our efforts are focused to the parallel development, adaptation and integration of different microelectronic sensors into miniaturized biochips for a multiparametric, functional on-line analysis of living cells in physiologically environments. Parallel and on-line acquisition of data related to different cellular targets is required for advanced stages of drug screening and for economizing animal tests.
A method for assessing tumor drug sensitivity is described that is based on preparation of tissue slices and use of silicon chips equipped with electrochemical sensors (multisensor array). The tumor slices (200-300 microM thick) are prepared after surgery and incubated in a medium for recovery after slicing. The advantage, compared to other preparations, is that the original three-dimensional structure is retained. Multisensor arrays measure: (a) pericellular acidification (anaerobic metabolism) and (b) oxygen consumption (respiration). The innovative aspect is that such measurements can be made online, as opposed to using a large battery of endpoint tests on cell vitality and proliferation. Electron microscopy of slices serves to determine cell density and structure and induction of apoptosis/necrosis. Slices of more than 200 breast tumors were used. Metabolic activity was inhibited by sodium fluoride, which reduces glycolysis, and potassium cyanide, which inhibits respiration. These changes are thus reflected in the curves of acidification and oxygen consumption. In other experiments the cytostatic Taxol, an anticytoskeletal agent, was used showing dose and time-dependent effects on acidification and oxygen consumption. In conclusion, the method presented here, is able to provide information on drug sensitivity of a tumor, which aids in designing individualized therapy and is used for drug screening.
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