DIFFERENTIAL EFFECTS OF DETERGENTS UPON THE SOLUBLE AND PARTICULATE GUANYLATE CYCLASES FROM RAT LUNG

The enzyme guanylate cyclase is present in both particulate and soluble form in rat lung homogenates. As previously reported, the soluble enzyme can be activated by preincubation in the presence of O2. The inactive (nonactivated) soluble enzyme is also stimulated by nonionic detergents, in the order Tween 20 > Lubrol PX > Triton X-67 > Triton X-100. The activated enzyme, however, was inhibited by these detergents in the reverse order. Sodium deoxycholate and lysolecithin were potent inhibitors of both inactive and activated enzyme. The activity of the particulate enzyme was stimulated by Lubrol PX > Triton X-100 > Triton X-67 > Tween 20. At a low concentration of lysolecithin or deoxycholate the particulate activity was increased; however, when detergent/protein > 1, inhibition was seen. In the case of deoxycholate, the inhibition could be reversed if excess deoxycholate was removed either by chromatography or by forming mixed micelles with Lubrol PX; however, deoxycholate inhibition of the soluble enzyme was irreversible. The stimulation by detergents of the particulate enzyme was apparently the result of solubilization. The effects upon the activity of the soluble enzyme were interpreted in terms of a model which assumes two hydrophobic regions on the enzyme surface. The two regions differ in hydrophobicity with the more hydrophobic region only being exposed as a result of activation. Interaction of a nonionic detergent with the less hydrophobic region stimulates activity, while interaction with the more hydrophobic region results in inhibition. © 1979.