Immunohistochemical studies of cyclic guanosine monophosphate and nuclear function.

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Abstract

In previous immunohistochemical studies, it has been found that all nuclei contain cyclic (c)GMP, which occurs in discrete aggregates and in the nucleolus. We have studied the nature of the cGMP aggregates in isolated mouse fetal nuclei using a specific immunofluorescent technique. These aggregates correspond to the areas of condensation of DNA, demonstrable by either Felugen's or acridine orange stain. Treatment with DNAase eliminated DNA and cGMP staining. Staining for RNA, with a human anti-RNA antibody, demonstrated RNA to be distributed diffusely throughout the nucleus and not preferentially in the areas of discrete cGMP aggregates. The diffuse stain for nuclear RNA was eliminated by pretreatment with RNAase but not DNAase, but aggregates of cGMP were not affected by pretreatment with RNAase. Sites of active RNA synthesis were determined by autoradiography using [3H]uridine, and did not correspond to the aggregates of cGMP. The relationship of cGMP to nucleolar function was examined in the endothelial cells of the isthmus and ampulla of the rat fallopian tube. Previous studies have shown that in proestrous, a period of increased RNA synthesis, nucleoli detectable by staining for RNA appear in the endothelial cells lining the fallopian tube. After immunofluorescent staining, we found prominent accumulation of cGMP in the nucleoli. During other phases of the cycle, there is an absence of nucleoli detectable by staining for RNA, and an absence of nucleolar cGMP. After we treated hypophysectomized or oophorectomized rats with estrogen, which is known to increase nucleolar RMA synthesis in the fallopian tube and endometrium, nucleoli in the endothelial cells of the rat fallopian tube and uterus stained strongly for cGMP. In conclusion, our studies suggest that the discrete aggregates of nuclear cGMP are associated with a fraction of DNA uninvolved in RNA synthesis. In contrast, cGMP appears in the nucleolus during a period of increased RNA synthesis, suggesting a role for cGMP in regulating nucleolar synthesis and processing of RNA.

Authors

E M Rosenberg, J G Conway, S M Tucci, E W Doucet