Tratamiento con TRIAC en pacientes pediátricos con deficiencia de MCT8 / Treatment with TRIAC in pediatric patients with MCT8

Los transportadores de monocarboxilatos (MCT) permiten el ingreso celular de hormonas tiroideas, especialmente en el sistema nervioso central (SNC), donde son indispensables para el neurodesarrollo. La deficiencia de MCT8 produce la combinación de hipotiroidismo en SNC e hipertiroidismo periférico, caracterizada por T3 elevada. El único tratamiento actualmente disponible es el ácido 3,3',5-triyodotiroacético (TRIAC), un análogo de hormonas tiroideas que tiene como objetivo mejorar la tirotoxicosis periférica y prevenir la progresión del deterioro neurológico. En el presente artículo, se evalúan las características clínicas, imagenológicas, bioquímicas y genéticas de 4 pacientes con deficiencia de MCT8 tratados con TRIAC hasta la fecha, las dosis utilizadas y la respuesta al tratamiento.

Monocarboxylate transporters (MCTs) allow the cellular entry of thyroid hormones, especially into the central nervous system (CNS), where they are crucial for neurodevelopment. MCT8 deficiency results in the combination of hypothyroidism in the CNS and peripheral hyperthyroidism, characterized by elevated T3 levels. The only treatment currently available is 3,3',5-triiodothyroacetic acid (TRIAC), a thyroid hormone analogue aimed at improving peripheral thyrotoxicosis and preventing the progression of neurological impairment. Here we assess the clinical, imaging, biochemical, and genetic characteristics of 4 patients with MCT8 deficiency who have received TRIAC to date, the doses used, and the response to treatment.

Nueva mutación heterocigota en el gen de la proteína regulatoria aguda de la esteroideogénesis (StAR) en un paciente 46,XY con hiperplasia adrenal congénita lipoidea / [Novel heterozygous mutation in the steroidogenic acute regulatory protein gene in a 46,XY patient with congenital lipoid adrenal hyperplasia].

StAR facilitates cholesterol entry into the mitochondria as part of the transduceosome complex. Recessive mutations in the gen STAR cause classic and nonclassic congenital lipoid adrenal hyperplasia. The aim of the study was to analyze the molecular consequences of a novel heterozygous STAR mutation in a 46,XY patient with ambiguous genitalia and adrenal insufficiency. We found a de novo heterozygous IVS-2A>G STAR mutation and the reported heterozygous p.G146A SF1 polymorphism with normal CYP11A1, FDXR, FDX1, VDAC1 and TSPO genes. RT-PCR and sequencing from patient’s testicular RNA showed a -exon2 transcript and the wild-type (WT) transcript. Both 37 kDa precursor and 30 kDa mature protein were detected in COS-7 cell transfected with mutant and WT plasmids. Immunofluorescence showed almost no co-localization of mitochondria and mutant protein (delta22-59StAR). Delta22-59StAR activity was 65±13

of WT. Cotransfection with WT and delta22-59StAR plasmids reduced WT activity by 62.0

± 13.9. Novel splice-junction heterozygous STAR mutation (IVS-2A>G) resulted in the in-frame loss of amino acids 22 to 59 in the N-terminal mitochondrial targeting signal. A misfolded p.G22_L59delStAR might interfere with WT StAR activity by blocking the transduceosome complex, causing an autosomal dominant form of StAR deficiency, explaining the clinical phenotype.

Nueva mutación heterocigota en el gen de la proteína regulatoria aguda de la esteroideogénesis (StAR) en un paciente 46,XY con hiperplasia adrenal congénita lipoidea. / [Novel heterozygous mutation in the steroidogenic acute regulatory protein gene in a 46,XY patient with congenital lipoid adrenal hyperplasia].

StAR facilitates cholesterol entry into the mitochondria as part of the transduceosome complex. Recessive mutations in the gen STAR cause classic and nonclassic congenital lipoid adrenal hyperplasia. The aim of the study was to analyze the molecular consequences of a novel heterozygous STAR mutation in a 46,XY patient with ambiguous genitalia and adrenal insufficiency. We found a de novo heterozygous IVS-2A>G STAR mutation and the reported heterozygous p.G146A SF1 polymorphism with normal CYP11A1, FDXR, FDX1, VDAC1 and TSPO genes. RT-PCR and sequencing from patients testicular RNA showed a -exon2 transcript and the wild-type (WT) transcript. Both 37 kDa precursor and 30 kDa mature protein were detected in COS-7 cell transfected with mutant and WT plasmids. Immunofluorescence showed almost no co-localization of mitochondria and mutant protein (delta22-59StAR). Delta22-59StAR activity was 65±13

of WT. Cotransfection with WT and delta22-59StAR plasmids reduced WT activity by 62.0

± 13.9. Novel splice-junction heterozygous STAR mutation (IVS-2A>G) resulted in the in-frame loss of amino acids 22 to 59 in the N-terminal mitochondrial targeting signal. A misfolded p.G22_L59delStAR might interfere with WT StAR activity by blocking the transduceosome complex, causing an autosomal dominant form of StAR deficiency, explaining the clinical phenotype.