Isabel Castro

Publications (3)8.69 Total impact

• Article: Septic shock NTIS causes hypothyroidism and conditions for reduced sensitivity to thyroid hormone.

  Isabel Castro, Leah Quisenberry, Rosa Maria Calvo, Maria-Jesus Obregon, J Lado-Abeal
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  ABSTRACT: Non-thyroidal illness syndrome (NTIS) is part of the neuroendocrine response to stress, but the significance of this syndrome remains uncertain. The aim of this study was to investigate the effect of lipopolysaccharide (LPS) induced NTIS on thyroid hormone (TH) levels and TH molecular targets, as well as the relationship between septic shock NF-kB (nuclear factor kappa-light-chain-enhancer of activated B cells) activation and TH receptor beta (THRB) gene expression at a multi-tissue level in a pig model. Pre-pubertal domestic pigs were given iv saline or LPS for 48 h. Serum and tissue TH was measured by chemiluminescence and RIA. Expression of TH receptors and co-factors was measured by real time PCR, and deiodinase (DIO) activity was measured by enzyme assays. Tissue NF-kB nuclear binding activity was evaluated by EMSA. LPS-treated pigs had decreased TH levels in serum and most tissues. Dio1 expression in liver and kidney and DIO1 activity in kidney decreased after LPS. No changes in DIO2 activity were observed between groups. LPS-induced an increase in hypothalamus, thyroid, and liver DIO3 activity. Among the other studied genes, monocarboxylate transporter 8 and THRB were the most commonly repressed in endotoxemic pigs. LPS-induced NF-kB activation was associated with a decrease in THRB gene expression only in frontal lobe, adrenal gland, and kidney cortex. We conclude that LPS-induced NTIS in pigs is characterized by hypothyroidism and tissue-specific reduced TH sensitivity. The role of NF-kB in regulating THRB expression during endotoxemia, if any, is restricted to a limited number of tissues.
  Journal of Molecular Endocrinology 01/2013; · 3.48 Impact Factor
• Article: Regional decrease of subcutaneous adipose tissue in patients with type 2 familial partial lipodystrophy is associated with changes in thyroid hormone metabolism.

  Joaquin Lado-Abeal, Rosa-Maria Calvo, Berta Victoria, Isabel Castro, Maria Jesus Obregon, David Araujo-Vilar
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  ABSTRACT: Familial partial lipodystrophy of the Dunnigan type (FPLD2) presents with a decrease of subcutaneous adipose tissue (SAT) in the limbs and trunk. As thyroid hormones (TH) play an important role in adipogenesis, we studied if SAT from subjects with FPLD2 have changes in the gene expression levels of monocarboxylate transporter 8 (MCT8), a TH transporter, and TH nuclear receptors and in iodothyronine deiodinases (DIOs) expression and activities that could affect TH bioavailability and action in white adipose tissue. Seven subjects with FPLD2 and 10 healthy controls were studied. Two biopsies of SAT were obtained from each subject, one near the umbilicus and the other from the thigh. Expression of MCT8, DIO2, DIO3, THRA1, THRB1, and RXRG mRNAs were quantified by real-time polymerase chain reaction. DIO1 and DIO2 activities in adipose tissue homogenates were determined. Serum thyroid-stimulating hormone and TH levels were measured by chemiluminescence. Subjects with FPLD2 had lower levels of MCT8 mRNA expression in the thigh than in the abdomen SAT, and lower than in the abdomen and thigh SAT from control subjects. FPLD2 subjects also had higher DIO2 expression and activity in the thigh than in the abdomen SAT and higher than in controls. Thigh SAT from subjects with FPLD2 has lower expression of MCT8 and higher DIO2 expression and activity than abdominal SAT, suggesting that changes in local TH metabolism may occur in areas with lipoatrophy. DIO2 expression and activity in SAT suggest that DIO2 can regulate the metabolism and action of TH in human white adipose tissue.
  Thyroid: official journal of the American Thyroid Association 04/2010; 20(4):419-24. · 2.60 Impact Factor
• Article: Identification and functional characterization of two novel activating thyrotropin receptor mutants in toxic thyroid follicular adenomas.

  Isabel Castro, Luis Lima, Rafael Seoane, Joaquin Lado-Abeal
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  ABSTRACT: Two previously unreported thyrotropin (TSH) receptor mutations, A623F and I635V, were identified in toxic follicular thyroid adenoma specimens from two patients with hyperthyroidism. Our aim was to characterize both novel mutants in terms of the following: cAMP basal constitutive activity, cAMP response to TSH, plasma membrane expression levels, and TSH binding properties. We performed DNA extraction for TSHR gene sequencing. COS-7 cells were transiently transfected with wild-type and mutated TSH receptor constructs for determination of basal cAMP constitutive activity and dose-response accumulation of cAMP using recombinant human TSH. Flow cytometry analysis was performed to evaluate plasma membrane expression. Binding studies using bovine TSH as a ligand were performed to compare the affinities of wild-type and mutated TSH receptors for TSH. Both mutants, A623F and I635V, had higher cAMP basal constitutive activities than the wild-type TSH receptor. A623F but not I635V showed lower plasma membrane expression than the wild-type receptor. IC50, an indirect measurement of ligand-receptor affinity, was lower in A623F and higher in I635V than in the wild-type TSH receptor, although no statistically significant differences were observed. No differences were observed in EC50 and although the absolute values of maximal stimulation achieved with both mutants were higher than the wild type, the differences did not achieve statistical significance. A623F and I635V are two naturally occurring TSH receptor mutations that increase basal cAMP accumulation and consequently promote the development of toxic follicular thyroid adenoma. cAMP response to increasing TSH dose is retained by A623F and I635V mutated receptors and the maximal stimulation obtained is not different from that of the wild-type receptor. Substitution of alanine 623 by phenylalanine 623 at the third intracellular loop of the TSH receptor decreases its plasma membrane expression, indicating that alanine 623 is important in directing the TSH receptor to the cell surface or in down-regulating the constitutive receptor. By contrast, isoleucine 635, located in the sixth transmembrane domain, is important in regulating TSH receptor basal activity but does not modify its plasma membrane expression.
  Thyroid: official journal of the American Thyroid Association 07/2009; 19(6):645-9. · 2.60 Impact Factor