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A comparison of thiazolidinedione-induced adipogenesis and myogenesis in stromal-vascular cells from subcutaneous adipose tissue or semitendinosus muscle of postnatal pigs¹

USDA-ARS, Richard B. Russell Agricultural Research Center, Animal Physiology Research Unit, Athens, GA 30605-2720

² Correspondence: ghausman{at}saa.ars.usda.gov

This study compared the adipogenic potential of porcine stromal-vascular (S-V) cells from semitendinosus muscles and s.c. adipose tissue using thiazolidinediones. Stromal-vascular cells were obtained from s.c. adipose tissue and both semitendinosus muscles from 5- to 7-d-old pigs after collagenase digestion. Preadipocyte recruitment was measured using immunohistological evaluation for AD-3, a preadipocyte antibody. Ciglitazone increased the number of preadipocytes in adipose tissue but not semitendinosus muscle S-V cell cultures, whereas 10 µM troglitazone increased preadipocyte abundance in both adipose and muscle S-V cultures by approximately 3-fold (P < 0.05). Increasing troglitazone doses did not further increase preadipocyte number. Increases in preadipocytes were paralleled by increases in CCAAT/enhancer-binding protein (C/EBP) and peroxisome proliferator-activated receptor gamma (PPAR) positive cells in adipose tissue S-V cultures, whereas PPAR-reactive but not C/EBP-reactive cells were increased in muscle S-V cultures treated with 10 µM troglitazone. Additionally, troglitazone treatment did not increase lipid content in s.c. adipose tissue or muscle S-V cell cultures. Cells plated on laminin-precoated culture dishes were used to determine whether troglitazone influenced adipogenesis or myogenesis in cocultures from muscle S-V cells. There was no effect on the number of myotubes or the average number of nuclei per myotube, suggesting myogenesis was not impaired by troglitazone treatment. These results suggest that regulation of intramuscular adipogenesis differs from that of subcutaneous adipogenesis.

Key Words: adipose tissue • cell culture • cell differentiation • fat cell • skeletal muscle • transcription factor

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