During the past several years, the use of animals for toxicity testing has come under critical surveillance. For ethical and economic reasons, various techniques have been developed and proposed as potential alternatives for some of the whole animal toxicity assays. One assay proposed as an alternative to animal testing is the luminescent bacteria toxicity test (LBT), provided under the trade name of Microtox. The sensitivity and specificity of the LBT was compared with two commonly used toxicity tests--the L-929 Minimal Eàgle's Medium (MEM) elution cytotoxicity test and the Draize test. Cytotoxicity and LBT test data from 709 medical device and biomaterial extracts were compared using a positive/negative ranking system which provided a measurement of false positive and false negative results. These data were compiled from nine separate laboratories producing or using a wide variety of biomaterials and medical device products. The LBT was more sensitive than the tissue culture assay and displayed few false negatives. LBT EC50 values were compared with eye irritancy categories for a group of 34 chemicals and 27 personal care products. As with tissue culture, the LBT was more sensitive and produced minimal false negatives. The data from this study indicate the LBT has potential as a rapid, simple method to screen biomaterials and personal care products for toxicity and irritancy.
Coenzyme A (CoA) transferase from Peptostreptococcus elsdenii has been purified and crystallized, and some of its properties have been established. The work was facilitated by a newly developed coupled and continuous spectrophotometric assay in which the disappearance of added acrylate could be followed at 245 nm. The rate-limiting conversion of acetyland f,-hydroxypropionyl CoA to acrylyl CoA by CoA transferase was followed by the non-rate-limiting conversion to f3-hydroxypropionyl CoA by excess crotonase. Thus, a small priming quantity of acetyl CoA served to generate acrylyl CoA, which, by hydration, generated f3-hydroxypropionyl CoA. This product then served to generate more acrylyl CoA in cyclic fashion. The net result was the CoA transferase-limited conversion of acrylate to ,B-hydroxypropionate. The purified transferase has a molecular weight of 125,000 and is composed of two subunits of 63,000 each, as determined by disc gel electrophoresis. Short-chain-length monocarboxylic acids are substrates, whereas dicarboxylic or f3-ketocarboxylic acids are not. The reaction kinetics are typical of a ping-pong bi bi mechanism composed of two half reactions linked by a covalent enzyme intermediate. Incubation of the transferase with acetyl CoA in
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