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Uncoupling Protein-3 Is a Molecular Determinant for the Regulation of Resting Metabolic Rate by Thyroid Hormone

Dipartimento di Scienze della Vita, Seconda Università degli Studi di Napoli (P.d.L., A.L.), 81100 Caserta, Italy; and Dipartimento di Fisiologia Generale ed Ambientale, Università degli Studi di Napoli Federico II (L.B., A.L.), 80134 Naples, Italy; and Facoltà di Scienze, Università degli Studi del Sannio (M.M., E.S., F.G.), 82100 Benevento, Italy

Address all correspondence and requests for reprints to: Dr. Fernando Goglia, Facoltà di Scienze, Università degli Studi del Sannio, Via Port’Arsa 11, 82100 Benevento, Italy. E-mail: goglia{at}unisannio.it

Thyroid hormones increase energy expenditure, partly by reducing metabolic efficiency. The control of specific genes at the transcriptional level is thought to be the major molecular mechanism. However, both the number and the identity of the thyroid hormone-controlled genes remain unknown, as do their relative contributions. Uncoupling protein-3, a recently identified member of the mitochondrial transporter superfamily and one that is predominantly expressed in skeletal muscle, has the potential to be a molecular determinant for thyroid thermogenesis. However, changes in mitochondrial proton conductance and resting metabolic rate after physiologically mediated changes in uncoupling protein-3 levels have not been described. Here, in a study on hypothyroid rats given a single injection of T₃, we describe a strict correlation in terms of time course between the induced increase in uncoupling protein-3 expression (at mRNA and protein levels) and decrease in mitochondrial respiratory efficiency, on the one hand, and the increase in resting metabolic rate, on the other. First, we describe our finding that uncoupling protein-3 is present and regulated by T₃ only in metabolically relevant tissues (such as skeletal muscle and heart). Second, we follow the time course (at 0, 6, 12, 24, 48, 65, 96, and 144 h) of both uncoupling protein-3 mRNA levels and mitochondrial uncoupling protein-3 density in gastrocnemius muscle and heart. In both tissues, the maximal (12-fold) increase in uncoupling protein-3 density was reached at 65 h. The resting metabolic rate [lO₂(kg^0.75)^-1h^-1] showed the same time course, and at 65 h the increase vs. time zero was 45% (1.316 ± 0.026 vs. 0.940 ± 0.007; P < 0.001). At the same time point, gastrocnemius muscle mitochondria showed a significantly higher nonphosphorylating respiration rate (nanoatoms of oxygen per min/mg protein; increase vs. time zero, 40%; 118 ± 4 vs. 85 ± 9; P < 0.05), whereas the membrane potential decreased by 8% (168 ± 2 vs. 182 ± 4; P < 0.05). These data are diagnostic of mitochondrial uncoupling. The results reported here provide the first direct in vivo evidence that uncoupling protein-3 has the potential to act as a molecular determinant in the regulation of resting metabolic rate by T₃.

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