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Showing papers by "Bruce M. Spiegelman published in 1985"


Journal ArticleDOI
TL;DR: The results indicate that the transcription of specific genes is increased during adipocyte differentiation and suggest that other levels of control, particularly mRNA stability, may contribute to the relative abundance of certain developmentally- regulated mRNAs in adipocytes.
Abstract: We have investigated the regulation of mRNA synthesis during 3T3-adipocyte differentiation by measuring the transcription of specific genes in isolated preadipocyte and adipocyte nuclei. Transcription was assayed by hybridization of newly synthesized RNA to cDNA clones coding for glycerophosphate dehydrogenase (GPD), the induced protein of 13K which is shown here to be related to myelin protein P-2, the induced protein of 28K, actin, and two RNAs that are not developmentally regulated. Transcription of GPD and 13K was observed in adipocyte but not preadipocyte nuclei. Actin was transcribed in both types of nuclei but at a lower level in adipocytes. For most of the RNAs examined, there was a consistent relationship between amounts of nuclear transcription and the abundance of the corresponding cytoplasmic mRNA in adipocytes. However, 13K and 28K mRNAs are 10-100 times more abundant than would be predicted by their nuclear transcription alone. Preliminary mRNA turnover experiments in which 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole was used to inhibit mRNA synthesis suggest that these mRNAs are much more stable in the adipocyte cytoplasm than the other mRNAs examined. These results indicate that the transcription of specific genes is increased during adipocyte differentiation and suggest that other levels of control, particularly mRNA stability, may contribute to the relative abundance of certain developmentally-regulated mRNAs in adipocytes.

149 citations


Journal ArticleDOI
TL;DR: It is demonstrated that adipocyte differentiation is accompanied by the expression of mRNA encoding a serine protease homologue that can be synthesized with two different signal peptides.
Abstract: We previously have isolated cDNA clones for several mRNAs that increase in abundance during the differentiation of 3T3 adipocytes but whose physiological role is unknown. We show here that a mRNA that is complementary to one of these clones and encodes a protein of 28 kDa is expressed abundantly in mouse fat pads but not in several other mouse tissues. Sequence analysis of the corresponding cDNA clone indicated that the encoded protein shows 30% overall amino acid homology to several serine proteases including trypsin, chymotrypsin, and elastase. Homology is much higher (64%) between the 28-kDa protein and regions that are strongly conserved among the members of the serine protease family. The derived protein also has key features characteristic of active serine proteases, including the histidine, aspartic acid, and serine residues, which comprise the charge relay system, and a potential cleavage site for activation of the zymogen. Primer extension analysis performed to obtain the sequence of the 5' end of mRNA that encodes the 28-kDa protein indicates that two forms of this mRNA exist and probably arise through alternative splicing. The two mRNAs encode signal sequences that differ by the deletion of one amino acid near the predicted cleavage site of the signal peptide. These results demonstrate that adipocyte differentiation is accompanied by the expression of mRNA encoding a serine protease homologue that can be synthesized with two different signal peptides.

141 citations