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dc.contributor.authorChatterjee, V. Krishna K.
dc.contributor.authorNagaya, Takashi
dc.contributor.authorMadison, Laird D.
dc.contributor.authorDatta, Shoumen
dc.contributor.authorRentoumis, Anne
dc.contributor.authorJameson, Larry J.
dc.date.accessioned2008-11-03T14:52:28Z
dc.date.available2008-11-03T14:52:28Z
dc.date.issued1991-06
dc.identifier.otherJournal of Clinical Investigation (1991) 87 1977-1984
dc.identifier.urihttp://hdl.handle.net/1721.1/42900
dc.descriptionThyroid hormone (T3) resistance is inherited in most cases in an autosomal dominant manner. The disorder is characterized by elevated free thyroid hormone levels and partial resistance to thyroid hormone at the cellular level. Distinct single amino acid substitutions in the ligand binding domain of the ft form of the thyroid hormone receptor have been described in two kindreds with this disorder. We used transient expression assays to characterize the functional properties of these receptor mutants, one containing a Gly to Arg change at amino acid 340 (G340R) and the other a Pro to His change at amino acid 448 (P448H). A nine amino acid carboxy terminal deletion (A448456), analogous to an alteration that occurs in v-erbA, was also studied for comparison with the mutations that occur in the T3 resistance syndrome. None of the receptor mutants were able to mediate thyroid hormone dependent activation (TreTKCAT) or repression (TSHaCAT) of reporter genes when compared with the wild type receptor. In addition, the mutants inhibited the activity of normal a and (3 receptor isoforms when examined in coexpression assays. This activity, referred to as dominant negative inhibition, was manifest with respect to both the positively and negatively regulated reporter genes. Although mutant receptor binding to DNA was unaffected, ligand binding studies showed that the G340R and A448456 mutants failed to bind T3, whereas the P448H mutant bound hormone with reduced affinity (- 10% of normal) compared to the wild type receptor. Consistent with this finding, the P448H mutant receptor was partially active at higher T3 concentrations. Furthermore, the dominant negative inhibition elicited by the P448H receptor mutant at higher T3 concentrations was reversed in the presence of high doses of T3. These findings indicate that mutant (3 receptors in patients with thyroid hormone resistance have reduced affinity for T3 and are functionally deficient, but impair the activity of normal receptors, thereby providing a mechanism for the dominant mode of inheritance in this disorder. (J. Clin. Invest. 1991. 87:1977-1984.) Key words: transcriptional regulation - erbA - thyroid-stimulating hormone - thyroid hormone resistance * thyroid hormoneen
dc.description.abstractThyroid hormone (T3) resistance is inherited in most cases in an autosomal dominant manner. The disorder is characterized by elevated free thyroid hormone levels and partial resistance to thyroid hormone at the cellular level. Distinct single amino acid substitutions in the ligand binding domain of the ft form of the thyroid hormone receptor have been described in two kindreds with this disorder. We used transient expression assays to characterize the functional properties of these receptor mutants, one containing a Gly to Arg change at amino acid 340 (G340R) and the other a Pro to His change at amino acid 448 (P448H). A nine amino acid carboxy terminal deletion (A448456), analogous to an alteration that occurs in v-erbA, was also studied for comparison with the mutations that occur in the T3 resistance syndrome. None of the receptor mutants were able to mediate thyroid hormone dependent activation (TreTKCAT) or repression (TSHaCAT) of reporter genes when compared with the wild type receptor. In addition, the mutants inhibited the activity of normal a and (3 receptor isoforms when examined in coexpression assays. This activity, referred to as dominant negative inhibition, was manifest with respect to both the positively and negatively regulated reporter genes. Although mutant receptor binding to DNA was unaffected, ligand binding studies showed that the G340R and A448456 mutants failed to bind T3, whereas the P448H mutant bound hormone with reduced affinity (- 10% of normal) compared to the wild type receptor. Consistent with this finding, the P448H mutant receptor was partially active at higher T3 concentrations. Furthermore, the dominant negative inhibition elicited by the P448H receptor mutant at higher T3 concentrations was reversed in the presence of high doses of T3. These findings indicate that mutant (3 receptors in patients with thyroid hormone resistance have reduced affinity for T3 and are functionally deficient, but impair the activity of normal receptors, thereby providing a mechanism for the dominant mode of inheritance in this disorder. (J. Clin. Invest. 1991. 87:1977-1984.) Key words: transcriptional regulation - erbA - thyroid-stimulating hormone - thyroid hormone resistance * thyroid hormoneen
dc.description.sponsorshipHarvard Medical School, Massachusetts General Hospitalen
dc.language.isoenen
dc.publisherThe American Society for Clinical Investigationen
dc.subjectThroid hormone resistanceen
dc.titleThyroid Hormone Resistance Syndromeen
dc.title.alternativeInhibition of Normal Receptor Function by Mutant Thyroid Hormone Receptorsen
dc.typeArticleen
dc.identifier.citationJournal of Clinical Investigation (1991) 87 1977-1984en


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