Cytosolic and nuclear distribution of PPARgamma2 in differentiating 3T3-L1 preadipocytes

In light of the pivotal role that PPARgamma2 plays in the expression of fat specific genes (e.g., A-FABP), we have examined the hypothesis that a rise in PPARgamma2 protein is required for the expression of A-FABP, and that the acceleration of fat cell differentiation by the thiazolidinedione agent, pioglitazone (PIOG), reflects an increase in the abundance of PPARgamma2 mRNA and protein. Western analyses surprisingly revealed that undifferentiated 3T3-L1 fibroblasts contained significant levels of PPARgamma2 protein; that the amount of total cellular PPARgamma2 only increased 2-fold during differentiation; and that the levels of PPARgamma2 protein and mRNA were not increased by PIOG even though fat cell differentiation was accelerated by PIOG as revealed by a 20-fold increase in A-FABP expression. Cell fractionation studies revealed that PPARgamma2 was evenly distributed between the cytosolic and nuclear compartments in both undifferentiated and differentiating 3T3-L1 cells. Immunocytochemical studies with a PPARgamma2-specific antibody indicated that PPARgamma2 was diffusely distributed throughout the cytosol of undifferentiated 3T3-L1 cells, but as the differentiation progressed, the PPARgamma2 became focused around the developing lipid droplets. In contrast to PPARgamma2, undifferentiated 3T3-L1 cells contained no measurable quantities of RXRalpha, but once fat cell differentiation was initiated by treatment with IBMX and dexamethasone, the cellular content of RXRalpha increased several fold. The rise in RXRalpha content paralleled the induction of A-FABP, but the expression of RXRalpha was not enhanced by PIOG. Although the amount of PPARgamma2 and RXRalpha was unaffected by PIOG, gel shift assays revealed that PIOG stimulated PPARgamma2/RXRalpha binding to the adipose response element of A-FABP by 5-fold in less than 12 h. Apparently, RXRalpha rather than PPARgamma2 is the pivotal trans-factor essential for the initiation of terminal fat cell differentiation. However, the high cytsolic content of PPARgamma2 and its association with the lipid droplet of differentiating 3T3-L1 cells suggests PPARgamma2 may possess a cytosolic function in the developing fat cell.