Artículos de revistas
Functional analysis of monocarboxylate transporter 8 mutations identified in patients with X-linked psychomotor retardation and elevated serum triiodothyronine
Fecha
2007Registro en:
JOURNAL OF CLINICAL ENDOCRINOLOGY AND METABOLISM Vol. 92 JUN 2007 6 2378-2381
Autor
Jansen, Jurgen
Friesema, Edith C. H.
Kester, Monique H. A.
Milici, Carmelina
Reeser, Maarten
Grüeters, Annette
Barrett, Timothy G.
Mancilla Vergara, Edna
Svensson, Johan
Wemeau, Jean-Louis
Busi da Silva Canalli, Maria Heloisa
Lundgren, Johan
McEntagart, Meriel E.
Hopper, Neil
Arts, Willem Frans
Visser, Theo J.
Institución
Resumen
Context: T-3 action in neurons is essential for brain development. Recent evidence indicates that monocarboxylate transporter 8 (MCT8) is important for neuronal T-3 uptake. Hemizygous mutations have been identified in the X-linked MCT8 gene in boys with severe psychomotor retardation and elevated serum T-3 levels. Objective: The objective of this study was to determine the functional consequences of MCT8 mutations regarding transport of T-3. Design: MCT8 function was studied in wild-type or mutant MCT8-transfected JEG3 cells by analyzing: 1) T-3 uptake, 2) T-3 metabolism in cells cotransfected with human type 3 deiodinase, 3) immunoblotting, and 4) immunocytochemistry. Results: The mutations identified in MCT8 comprise four deletions (24.5 kb, 2.4 kb, 14 bp, and 3 bp), three missense mutations (Ala224Val, Arg271His, and Leu471Pro), a nonsense mutation (Arg245stop), and a splice site mutation (94 amino acid deletion). All tested mutants were inactive in uptake and metabolism assays, except MCT8 Arg271His, which showed approximately 20% activity vs. wild-type MCT8. Conclusion: These findings support the hypothesis that the severe psychomotor retardation and elevated serum T-3 levels in these patients are caused by inactivation of the MCT8 transporter, preventing action and metabolism of T-3 in central neurons.