triiodothyronine--reverse and Hyperthyroxinemia

Serum transthyretin (TTR) is a protein of liver origin that under normal conditions transports approximately 20% T4. Missense mutations of the TTR gene produce familial amyloidotic polyneuropathy and rarely, euthyroid hyperthyroxinemia (EHT). Of the 3 TTR variants so far identified with increased affinity for T4, Ser6, Thr109, and Met119, only TTR-Thr109 has high enough affinity for T4 to produce consistent hyperthyroxinemia in the heterozygous individuals. Because the mutation GCC-->ACC in codon 109 results in the loss of one Bso FI site in exon 4 of the TTR gene, the use of this enzyme was suggested to screen for TR-Thr109 in subjects with EHT. We investigated a family with dominantly inherited EHT, in which two of eight affected members received ablative thyroid treatment for presumed thyrotoxicosis, and one was misdiagnosed as having resistance to thyroid hormone. All affected individuals had serum reverse T3 concentrations above normal and average T4 50% above the mean of unaffected relatives. Total T3 and TSH levels were within the normal range. Although loss of the Bso FI site in one allele of the two TTR suggested the presence of Thr109, gene sequencing revealed a different mutation in the same codon (GCC-->GTC) producing TTR-Val109. T4-binding to TTR-Val109 was compared to that of the normal TTR-Ala109 and the formerly identified variant TTR-Thr109. Association constants were 1.3, 9.5, and 13.6 X 10(7) M-1 for TTR-Ala109, Val109, and Thr109, respectively. Thus, for equally expressed mutant and normal allele and 20% of serum T4 bound to TTR, the calculated mean serum T4 concentration of heterozygotes for TTR-Val109 should be 50% above the normal mean; the observed value being 55%. These results are in agreement with the observations based on the crystallographic structure of TTR-Thr109 indicating that the extra atoms in Val as in Thr, which are absent in the Ala of the wild type TTR, widen the ligand binding site.

Topics: Adolescent; Adult; Aged; Base Sequence; Diagnosis, Differential; Female; Humans; Hyperthyroxinemia; Male; Middle Aged; Molecular Sequence Data; Mutation; Pedigree; Prealbumin; Thyroid Hormone Resistance Syndrome; Thyrotoxicosis; Thyrotropin; Thyroxine; Triiodothyronine; Triiodothyronine, Reverse; Valine

To investigate unusual free thyroxine (FT4) responses to T4 replacement doses in a hypothyroid patient with familial dysalbuminemic hyperthyroxinemia (FDH).. In this FDH hypothyroid patient, serum FT4 concentration by equilibrium dialysis and T4, triiodothyronine (T3), and thyroid stimulating hormone (TSH) determinations were supplemented by thyroxine binding globulin (TBG) and thyroxine binding prealbumin (TBPA) measurements.. Initial thyroid function tests were compatible with hypothyroidism and FDH (T4 = 78 nmol/L, T3 = 1.08 nmol/L, FT4 = 11.6 pmol/L, TSH = 45 mU/L). When she was initially treated with T4 (0.112-0.088 mg/day) there was an increase in FT4 concentration to hyperthyroid levels accompanied by TSH inhibition (FT4 = 31-51 pmol/L, TSH = <0.03 mU/L); the patient also complained of intolerance and nervousness, and T4 treatment was discontinued. Concentrations of thyroxine binding globulin (TBG) and thyroxine binding prealbumin (TBPA) were normal. When T4 therapy was later resumed at a dosage of 0.075 mg/day, there was a marked increase in percent dialyzable T4. The elevation in percent dialyzable T4 during T4 replacement in a patient with FDH is unusual in view of the very large T4 binding capacity of FDH albumin. The presence of an inhibitor that reduced T4 binding by both TBG and FDH albumin probably explains the elevation in percent dialyzable T4 during T4 treatment.. This FDH patient represents the first case of a putative inhibitor of T4 binding to both TBG and FDH albumin. The inhibition of T4 binding by these disparate proteins suggests that the inhibitor effect is mediated nonspecifically.

Topics: Aged; Female; Humans; Hyperthyroxinemia; Hypothyroidism; Protein Binding; Serum Albumin; Thyroid Function Tests; Thyrotropin; Thyroxine; Thyroxine-Binding Proteins; Triiodothyronine; Triiodothyronine, Reverse

Familial dysalbuminemic hyperthyroxinemia (FDH) is the most common cause of inherited euthyroid hyperthyroxinemia in Caucasians. Transmitted as an autosomal dominant trait, it is always associated with high serum total T4 (TT4) and more rarely with elevated total T3 (TT3) and/or rT3 (TrT3) concentrations. Free T4, by dialysis, and TSH levels are normal, suggesting the presence of a T4-binding protein abnormality. The abnormal serum T4 carrier shares some physical and immunological properties with albumin, suggesting that it may be albumin itself. Here we show linkage between FDH and the albumin gene in a large Amish family of Swiss descent, using as markers a SacI polymorphism in the coding sequence of the albumin gene and the group-specific component (Gc) gene, located less than 1 centimorgan from the albumin gene. Blood samples were obtained from 160 members of this kindred, and 22 had FDH identified by the pattern of T4 binding to serum proteins separated by isoelectric focusing. Serum TT4 values were above the normal range in all subjects expressing the FDH phenotype, and TrT3 levels were above the normal range in only one half. TT4 concentrations correlated positively with TrT3 and TT3. All TT3 values were, however, within the normal range. Free T4 and TSH levels were normal, confirming the euthyroid state in these subjects. FDH was associated with the albumin SacI(+)/Gc 1S haplotype, yielding a LOD (logarithm of the odds ratio) score of 5.53, with a recombination frequency of 0. These data provide strong support that a variant albumin is the cause of FDH in this kindred.

Topics: Base Sequence; Child, Preschool; Ethnicity; Female; Genetic Linkage; Haplotypes; Humans; Hyperthyroxinemia; Molecular Probes; Molecular Sequence Data; Pedigree; Phenotype; Serum Albumin; Thyroxine; Triiodothyronine, Reverse

Familial dysalbuminemic hyperthyroxinemia (FDH) is the most common form of inherited increase of serum thyroxine in Caucasians. It is the result of increased thyroxine-binding to serum proteins and is inherited as a dominant trait. The entire coding region of the albumin gene of a subject with FDH was sequenced. A single nucleotide substitution, G to A transition in codon 218, was found in one of the two alleles, resulting in the replacement of the normal Arg with His. This mutation was found in 9 affected family members but not in 8 unaffected relatives and 18 unrelated normal individuals. The same missense mutation was found in 12 other subjects with FDH belonging to 7 unrelated families. In every individual with FDH, the mutation was associated with the Sac I+ polymorphism in the albumin gene, strongly suggesting a founder effect.

Topics: Arginine; Codon; DNA, Complementary; Histidine; Humans; Hyperthyroxinemia; Mutation; Pedigree; Phenotype; Serum Albumin; Thyroxine; Triiodothyronine, Reverse

A recent report documented the existence of three putative types of variant albumin in dysalbuminemic hyperthyroxinemia (DH) and suggested that measurement of the total concentration of three iodothyronines (T4, T3 and rT3) in serum of affected subjects could aid in their differentiation. In the present report, we describe three affected subjects from a single family which DH exhibited, in addition to increased serum total T4 levels, variable changes in the concentrations of total T3 and rT3. The concentrations of the following iodothyronines were above the normal limit: T4, T3 and rT3 in the propositus, T4 and T3 but not rT3 in her sister, and T4 but not T3 and rT3 in her mother. These differences cannot be caused by structurally different types of variant albumins, because the three subjects are members of the same family. They rather correlated with the relative abundance of the variant albumin in serum of the affected family members. Although previously reported subjects with DH always had serum T4 levels above the normal limit due to the predominantly higher affinity of the variant albumin for T4, significant increases in the concentration of serum T3 and rT3, reaching at times values above the upper normal range, have also been observed. Since a number of factors, including the relative abundance of the variant albumin, influence the concentration of iodothyronines in serum, their measurement alone cannot be used to determine the inherited type of DH.

Topics: Adult; Female; Humans; Hyperthyroxinemia; Pedigree; Serum Albumin; Thyroxine; Triiodothyronine; Triiodothyronine, Reverse

Serum thyroid hormones were measured in 62 cases of acute cerebrovascular apoplexy. Compared with the control group, T3, FT3 were markedly lowered and rT3, T4 and TSH were significantly increased with lowered T3/rT3 ratio. The patients were divided into two groups, according to whether there was hemorrhage in their CSF. Changes of serum thyroid hormones in cerebral haemorrhage were more remarkable than those observed in cerebral thrombosis. 16 cases with increased T4, FT4 were diagnosed as euthyroid hyperthyroxinemia. It was found that the amount of thyroid hormone changes appeared to be in proportion to the severity of acute cerebrovascular apoplexy. The determination of serum thyroid hormones would be useful in evaluating the severity of the strokes and in studying the thyroid function in acute cerebrovascular apoplexy.

Topics: Adult; Aged; Aged, 80 and over; Cerebrovascular Disorders; Female; Humans; Hyperthyroxinemia; Male; Middle Aged; Thyroxine; Triiodothyronine; Triiodothyronine, Reverse