Abstract

Epidermal growth factor (EGF) transcripts that use the terminal polyadenylation signal display a dramatic sex difference in the pattern of polyadenylation in the murine submaxillary gland (SMG), whereas those in the kidney do not. It takes 3 days before testosterone treatment begins to change the polyadenylation pattern in female SMG to resemble the male pattern, a finding that supports previous suggestions that posttranscriptional mechanisms are involved in regulating EGF expression. The conservation of a unique 23-b sequence centered on the terminal polyadenylation signal in all published mammalian EGF sequences suggested that trans-acting factors involved in EGF messenger RNA (mRNA) metabolism might bind to this sequence. To investigate this, we prepared 32P-RNA containing the 3' terminal EGF 23-b sequence plus a short poly-A tail, and incubated it with SMG cytosol. Cytosol retarded the electrophoretic mobility of this RNA as a single prominent band on 8% PAGE, and by UV-cross-linking, a single prominent 47-kDa protein was detected on 10% SDS-PAGE. Trypsin abolished both the gel-retarding and cross-linking activities. Cytosol from female SMGs contained approximately 8 times more of both the RNA binding activities than male cytosol. Injecting testosterone (200 microg QOD) into female mice altered both the RNA binding activities in a biphasic fashion, initially increasing them by about 40% at 2 days, then decreasing them by about 65% > or = 5 days, reaching male levels. Kidney cytosol contained both RNA binding activities but displayed neither sexual dimorphism nor testosterone-responsiveness. The tissue-specific testosterone-dependent changes observed in the 47-kDa protein occur before the increase in EGF mRNA levels and before the change in EGF mRNA polyad-enylation, so this cytosolic protein could be a trans-acting factor involved in EGF polyadenylation.

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