Ovarian steroid hormones exert major influences on eating behaviour and body weight regulation of female rats. Ovariectomy (OVX) results in an increase in food intake and a concomitant increase in body weight, while estradiol (E2) replacement reverses these effects. In this study, we examined the influence of OVX on obese (ob) gene expression in rat adipose tissues and serum leptin concentration. Female Wistar rats, 10 weeks old, were divided into three groups: sham-operated control rats receiving corn oil (group 1, n = 4), ovariectomized rats receiving corn oil (group 2, n = 5), and ovariectomized rats receiving 17beta-E2 (10 microg/kg/day) replacement (group 3, n = 4). After 4 weeks, the rats and food consumption were weighed and serum E2 and leptin levels were measured by radioimmunoassays. Furthermore, the expression levels of ob mRNA obtained from the bilateral perimetric fat pads were estimated by Northern blot analysis. The mean weight and food consumption in group 2 were significantly (p < 0.01) heavier than those in group 1. But there were no significant differences between group 1 and group 3. The expression levels of ob mRNA in group 2 were lower than those in group 1, however, the levels of group 3 were restored to the level of group 1. On the other hand, no significant differences among the 3 groups as to serum levels of leptin were observed. The data herein clearly indicate that ovarian steroid hormones may be one of the factors involved in the regulation of ob gene.
Follistatin (FST) and FST-like-3 (FSTL3) are structurally related proteins that bind and neutralize activin and closely related members of the TGFbeta superfamily. Three FST isoforms (FST288, FST303, and FST315) are produced from the Fst gene that are primarily secreted proteins. FSTL3 is secreted, but is also observed within the nucleus of most cells. We used pulse-chase (35)S labeling to examine the biosynthetic and intracellular transport patterns that lead to differential secretion and intracellular retention of these proteins. Among the FST isoforms, FST315 was secreted fastest and FST288 was secreted more slowly, with some remaining intracellular. In contrast, FSTL3 was secreted the slowest, with newly synthesized proteins being both secreted and trafficked to the nucleus. This nuclear FSTL3 was N-glycosylated, although not to the same degree as secreted FSTL3. Both FST and FSTL3 have two Mets in their signal sequence. Mutation of the first Met in FST288 eliminated protein translation, whereas FSTL3 could be translated from either Met. However, although FSTL3 translated from the second Met, which had no signal sequence, was confined to the nucleus, it was not glycosylated. Interestingly, this FSTL3 retained activin-antagonizing activity. Thus, although bioactive, nuclear FSTL3 can be translated from the second Met when the first Met is mutated, the glycosylated nuclear FSTL3 produced endogenously indicates that a different mechanism must be used under natural conditions that apparently includes N-glycosylation. Moreover, the differential biosynthetic and intracellular transport patterns for FST288 and FSTL3 suggest that these two activin-binding proteins may have distinct intracellular roles.
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