Action of probenecid on the central nervous system of the rabbit. I. Effects on the elimination of 5-hydroxyindoleacetic acid

New spectrophotofluorometric assay for probenecid

A new spectrophotofluorometric assay for probenecid is presented based on conversion of the drug to a fluorescent anthranilic acid derivative. The assay is especially applicable with "clean" biological fluids such as cerebrospinal fluid and offers severalfold greater sensitivity than the commonly used UV method.

Probenecid in CSF and plasma of rabbits and dogs measured by radioimmunoassay

Probenecid (P) in CSF of rabbits and dogs was investigated using a new radioimmunoassay technique. In rabbits, under steady-state conditions, CSF/free plasma concentration ratios of P were found to be similar to those reported in man. The ratios were concentration dependent and less than 0.5 suggesting an inhibition of transport of the drug in CNS. Under nonsteady-state conditions, no clear evidence of a transport system was found in dogs.

Comparison of regional serotonin levels and turnover in the brain of naturally high and low aggressive rats

Rats, matched by weight and goal approach, were tested for aggressiveness using a food-competition paradigm. Those winning and those losing all of their matches were designated as high and low aggressive, respectively. A third group of randomly selected rats never fought and were used as a control for the fighting experience. Half of the rats were used to determine serotonin (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) levels in discrete brain regions. The other half were used to estimate 5-HT turnover in the same brain regions. High and low aggressive rats did not differ with regard to 5-HT or 5-HIAA levels, but high aggressive rats showed faster 5-HT turnover than low aggressive rats. The turnover differences reached statistical significance in only two of the 3 brain regions examined: (a) all structures (minus olfactory bulbs) rostral to the level of the anterior commissure, and (b) the brain stem (hypothalamus-midbrain-medulla). The observed differences cannot be attributed to differing behavioral experiences since the high and low aggressive groups pooled did not differ from the no-fighting control. These findings are discussed with respect to the involvement of serotonin in rat intraspecies aggression.