Showing papers by "Jürgen M. Lehmann published in 1996"

Peroxisome proliferator-activated receptor-gamma activation by thiazolidinediones induces adipogenesis in bone marrow stromal cells.

Abstract: The thiazolidinediones improve insulin sensitivity in animal models and have promise as potent oral antidiabetic agents. Their clinical use has been limited because of the resulting anemia and cardiac hypertrophy. Some compounds of this class have been reported to induce bone marrow fat accumulation in animals, and this effect could account for the observed anemia. We examined the biological mechanism contributing to this phenomenon. The thiazolidinediones BRL49653 and pioglitazone induced adipocyte differentiation in the BMS2 bone marrow stromal cell line in a dose- and time-dependent manner. These actions were further enhanced by the presence of glucocorticoids and other adipogenic agonists. The thiazolidinediones increased the mRNA levels of adipocyte-specific genes, including that of their receptor, the peroxisome proliferator-activated receptor-gamma (PPAR gamma). In contrast, mRNA levels of genes encoding other PPAR family members (PPAR alpha, PPAR delta, or NUC-1) were unchanged or decreased. Thiazolidinedione treatment of primary bone marrow stromal cells elicited a comparable dose-dependent response. Using a polyclonal antibody, PPAR gamma was detected in protein lysates from adipose-rich bone marrow. Thus, thiazolidinedione directly regulates bone marrow stromal cell differentiation; induced PPAR gamma expression may play a key regulatory role in this process.

Discovery of Ligands for the Nuclear Peroxisome Proliferator-activated Receptors

Abstract: The identification of high-affinity ligands for PPAR gamma has revealed the role of this receptor as the molecular target for the antidiabetic activity of the thiazolidinediones. The surprising observation that agonists of an adipogenic transcription factor reverse the obesity-associated disease of diabetes highlights the power of using potent and selective ligands to study receptor-mediated biology. Similarly, the observation that PGD2 and its cyclopentenone metabolites compounds are microM PPAR ligands suggests that these receptors may have a physiological role in mediating prostaglandin signaling in the spleen.