Abstract
The results of quantitative footprinting studies involving the antiviral agent netropsin and a DNA-cleaving cationic metalloporphyrin complex are presented. An analysis of the footprinting autoradiographic spot intensities using a model previously applied to footprinting studies involving the enzyme DNase I [Ward, B., Rehfuss, R., Goodisman, J., & Dabrowiak, J. C. (1988) Biochemistry 27, 1198-1205] led to very low values for netropsin binding constants on a restriction fragment from pBR-322 DNA. In this work, we show that, because the porphyrin binds with high specificity to DNA, it does not report site loading information in the same manner as does DNase I. We elucidate a model involving binding equilibria for individual sites and include competitive binding of drug and porphyrin for the same site. The free porphyrin and free drug concentrations are determined by binding equilibria with the carrier (calf thymus DNA) which is present in excess and acts as a buffer for both. Given free porphyrin and free netropsin concentrations for each total drug concentration in a series of footprinting experiments, one can calculate autoradiographic spot intensities in terms of the binding constants of netropsin to the various sites on the 139 base pair restriction fragment. The best values of these binding constants are determined by minimizing the sum of the squared differences between calculated and experimental footprinting autoradiographic spot intensities. Although the determined netropsin binding constants are insensitive to the value assumed for the porphyrin binding constant toward its highest affinity sites, the best mean-square deviation between observed and calculated values, D, depends on the choice of (average) drug binding constant to carrier DNA, Kd.(ABSTRACT TRUNCATED AT 250 WORDS)
Highlights
In recent quantitative studies involving the antiviral agent netropsin, a 139 base pair restriction fragment of pBR-322 DNA, and DNase I, we demonstrated that it is possible to obtain drug binding constants as a function of sequence from footprinting data (Ward et al, 1988a)
The results indicated that, the high-affinity drug sites are all of type (AeT), the presence of the sequence 5’-TA-3’, which produces a distortion within the site, (Chuprina, 1987) discourages netropsin binding to DNA
The cleavage pattern for a site can be explained if the bound porphyrin cuts in the middle of the all of type (A-T) trimer to which it is bound
Summary
In recent quantitative studies involving the antiviral agent netropsin, a 139 base pair restriction fragment of pBR-322 DNA, and DNase I, we demonstrated that it is possible to obtain drug binding constants as a function of sequence from footprinting data (Ward et al, 1988a). This mechanism implies that the change in the porphyrin-DNA equilibrium can be directly monitored via the cleavage increases at sites of type (A-T), on the fragment and that the enhancement due to the effect should be the same at all netropsin binding sites.
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