Antimotility and antisecretory activity of some aryl substituted amidinoureas.

A number of aryl substituted amidinoureas have been prepared and examined for their gastrointestinal spasmolytic, antimotility, antidiarrheal and antisecretory effects. In general, antisecretory and antimotility effects have been found to be associated with each other in these compounds. The structure-activity relationships found show that substitution of the aromatic ring in positions other than 2 and 6 correlates poorly with potency, and potency of such compounds is low. In contrast to this, 2,6-disubstitution confers high potency. The potency of 2,6-disubstituted compounds declines sharply with increasing weight of substitution of the amidinourea chain, with the important exception of the N-alkoxyamidinoureas. Increasing the molecular weight of an N-alkoxy substituent has a much less profound effect than the corresponding increase has in an N-alkyl substituent. High potency in an amidinourea may well be related to low basicity (or a high pKa value for its conjugate salt) but there is insufficient data to support this hypothesis fully. The actual tautomeric structure of an amidinourea probably affects its potency and this is discussed briefly.

Non-computer approach to structure-activity study. An expanded Fibonacci search applied to structurally diverse types of compounds.

The Fibonacci search technique, first applied to a structure-activity study by Bustard, has been expanded to allow the analysis of a broad class of structural types of compounds. The compounds are first arranged in order of increasing value of a molecular property of the analogs such as log P, Sigmapi, Sigmasigma, or Rm. A successful Fibonacci search of the compounds will find the most active analog in a small, predetermined number of steps. Examples are given where insight as to mechanism of action is indicated by the combination of various parameters such as log P and pKa. Additional examples illustrate the use of Fibonacci search to establish the parabolic dependence of the biological activity of lipophilicity and sigma, where such dependency had not been observed initially. This technique allows the treatment of a variety of structurally diverse types of compounds simultaneously. It is to be stressed that Fibonacci search can be applied to structure-activity studies without the use of a computer.