Raymond Antoine Stokbroekx

In vitro activity of pirodavir (R 77975), a substituted phenoxy-pyridazinamine with broad-spectrum antipicornaviral activity.

Pirodavir (R 77975) is the prototype of a novel class of broad-spectrum antipicornavirus compounds. Although its predecessor, R 61837, a substituted phenyl-pyridazinamine, was effective in inhibiting 80% of 100 serotypes tested (EC80) at concentrations above 32 micrograms/ml, pirodavir inhibits the same percentage of viruses at 0.064 micrograms/ml. Whereas R 61837 was active almost exclusively against rhinovirus serotypes of antiviral group B, pirodavir is broad spectrum in that it is highly active against both group A and group B rhinovirus serotypes. Pirodavir is also effective in inhibiting 16 enteroviruses, with an EC80 of 1.3 micrograms/ml. Susceptible rhinovirus serotypes were rendered noninfectious by direct contact with the antiviral compound. Their infectivity was not restored by dilution of virus-drug complexes, but was regained by organic solvent extraction of the compound for most serotypes. Neutralized viruses became stabilized to acid and heat, strongly suggesting a direct interaction of the compounds with viral capsid proteins. Mutants resistant to R 61837 (up to 85 times the MIC) were shown to bear some cross-resistance (up to 23 times the MIC) to the new compound, indicating that pirodavir also binds into the hydrophobic pocket beneath the canyon floor of rhinoviruses. Pirodavir acts at an early stage of the viral replication cycle (up to 40 min after infection) and reduces the yield of selected rhinoviruses 1,000- to 100,000-fold in a single round of replication. The mode of action appears to be serotype specific, since pirodavir was able to inhibit the adsorption of human rhinovirus 9 but not that of human rhinovirus 1A. Pirodavir is a novel capsid-binding antipicornavirus agent with potent in vitro activity against both group A and group B rhinovirus serotypes.

A comparative test of fifteen compounds against all known human rhinovirus serotypes as a basis for a more rational screening program

A systematic evaluation of 15 rhinovirus capsid-binding agents against all 100 serotyped human rhinoviruses revealed the existence of two virus groups, based upon differential susceptibility to antiviral compounds. Elongated and short-chained compounds preferentially inhibited groups A and B. The positions of the rhinoviruses within a map derived from a multivariate analysis allow for the selection of a panel of 17 rhinoviruses, for which the median antiviral inhibitory value against them will accurately predict the median value against 100 serotypes. This rationalizes the search for broad-spectrum capsid-binding antirhinovirus drugs, or combinations of drugs with complementary spectra that may be necessary to effectively inhibit both type A and type B viruses.

Synthesis and anti-angiogenic activity of 6-(1,2,4-thiadiazol-5-yl)-3-amino pyridazine derivatives

General screening for inhibitors of microvessel growth in vitro in the rat aortic ring assay led to the discovery of a novel series of thiadiazole pyridazine compounds with potential anti-angiogenic activity. Chemical optimization produced orally active compounds with potent in vitro and in vivo anti-angiogenesis and anti-tumor activities.