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1.
Thyroid ; 11(7): 685-90, 2001 Jul.
Article in English | MEDLINE | ID: mdl-11484898

ABSTRACT

In this work we have extended our initial molecular studies of a consanguineous family with two affected goitrous siblings (H.S.N. and Ac.S.N.) with defective thyroglobulin (Tg) synthesis and secretion because of a homozygotic deletion of a fragment of 138 nucleotides (nt) in the central region of the Tg mRNA, identified previously in H.S.N. In order to identify the intron/exon boundaries and to analyze the regions responsible for pre-mRNA processing corresponding to a 138 nt deletion, we performed a screening of a human genomic library. The intron/exon junction sequences were determined from one positive clone by sequencing both strands of the DNA template. The results showed that the deletion mapped between positions 5549 and 5686 of the Tg mRNA and corresponded to exon 30. The positions of the exon limits differed by three nucleotides from the previously reported data obtained from direct sequencing of the deleted reverse transcriptase-polymerase chain reaction fragment from H.S.N. These variations are because the intron/exon junctions in this region were not available at the time when the deletion was first described. The deletion does not affect the reading frame of the resulting mRNA and is potentially fully translatable into a Tg polypeptide chain that is shortened by 46 residues. The same 138 nt deletion was observed in reverse transcriptase-polymerase chain reaction studies performed in the thyroid tissues from Ac.S.N. Genomic DNA analysis showed that a G to T transversion was observed at position +1 in the donor site of intron 30. Both affected patients (H.S.N. and Ac.S.N.) are homozygous for the mutation whereas the normal sister (At.S.N.) had a normal allele pattern. The functional consequences of the deletion are related to structural changes in the protein molecule that either could modify the normal routing of the translation product through the membrane system of the cell or could impair the coupling reaction. Probably the mutant Tg polypeptide might be functionally active in the production of thyroid hormone, because in the presence of a normal iodine ingestion (approximately 150 microg/day), Ac.S.N. was able to maintain normal serum levels of total triiodothyronine (T3) associated with relatively low serum total thyroxine (T4) with normal somatic development without signs of brain damage.


Subject(s)
DNA, Recombinant , Goiter/congenital , Goiter/genetics , Hypothyroidism/genetics , Mutation/physiology , Thyroglobulin/genetics , Adult , Amino Acid Sequence/genetics , Base Sequence/genetics , DNA, Complementary/genetics , Exons/genetics , Genome , Humans , Introns/genetics , Male , Molecular Sequence Data , Mutation/genetics , Reverse Transcriptase Polymerase Chain Reaction
2.
Thyroid ; 8(4): 291-7, 1998 Apr.
Article in English | MEDLINE | ID: mdl-9588493

ABSTRACT

We have previously reported a Brazilian family with congenital goiter, hypothyroidism, and marked impairment of thyroglobulin (Tg) synthesis. Analysis of the Tg mRNA in the goiter of one of the siblings revealed a cytosine to thymine transition creating a stop codon at position 1510. This point mutation is removed from the majority of Tg mRNA transcripts by the preferential generation in the goiter of a 171 nt deleted Tg mRNA by alternative splicing. The nonsense mutation destroys a TaqI site at this position in the mutant Tg gene. Using polymerase chain reaction (PCR) amplification and TaqI digestion we found that two siblings affected with goiter and hypothyroidism, as well as the father and three siblings with normal thyroid function, are all heterozygous for the nonsense mutation. This implies that an additional mutation must be present in the affected individuals, generating a compound heterozygote genotype. A new polymorphism within the thyroglobulin gene represented by three alleles has been detected. This was documented by the TaqI restriction enzyme and phTgM3 probe hybridization that showed a three allelic polymorphism with fragment sizes of 16.5 kb (allele A), 14.5 kb (allele B) and 11.0 kb (allele C). Segregation analysis of these alleles in the family indicated that the two affected siblings were homozygous for the allele C. In contrast the unaffected father and three other siblings, who carried the nonsense mutation, were heterozygous for alleles B and C. Analysis of the Tg genotypes implies that two additional mutations of the Tg gene must segregate in this family to account for the observed phenotypes.


Subject(s)
Goiter/genetics , Hypothyroidism/genetics , Mutation/physiology , Thyroglobulin/genetics , Adult , Alleles , Amino Acid Sequence , Base Sequence , Blotting, Southern , Brazil , Codon, Nonsense/genetics , Congenital Hypothyroidism , DNA/analysis , DNA/genetics , Female , Gene Frequency , Genome, Human , Goiter/congenital , Humans , Male , Molecular Sequence Data , Pedigree , Polymerase Chain Reaction
3.
J Clin Invest ; 98(12): 2838-44, 1996 Dec 15.
Article in English | MEDLINE | ID: mdl-8981932

ABSTRACT

Recent advances in understanding the molecular pathogenesis of congenital hypothyroid goiter in cog/cog mice, have raised important questions concerning the maturation of thyroglobulin (the thyroid prohormone) in certain human kindreds with congenital goiter. We have now examined affected siblings from two unrelated families that synthesize an apparently normally glycosylated, > 300 kD immunoreactive thyroglobulin, yet have a reduced quantity of intraglandular thyroglobulin and that secreted into the circulation. From thyroid tissues of the four patients, light microscopic approaches demonstrated presence of intracellular thyroglobulin despite its absence in thyroid follicle lumina, while electron microscopy indicated abnormal distention of the endoplasmic reticulum (ER). We have confirmed biochemically that most intrathyroidal thyroglobulin fails to reach the (Golgi) compartment where complex carbohydrate modification takes place. Moreover, the disease in the affected patients is associated with massive induction of specific ER molecular chaperones including the hsp90 homolog, GRP94, and the hsp70 homolog, BiP. The data suggest that these patients synthesize a mutant thyroglobulin which is defective for folding/assembly, leading to a markedly reduced ability to export the protein from the ER. Thus, these kindreds suffer from a thyroid ER storage disease, a cell biological defect phenotypically indistinguishable from that found in cog/cog mice.


Subject(s)
Endoplasmic Reticulum/metabolism , Goiter/metabolism , Hypothyroidism/physiopathology , Molecular Chaperones/metabolism , Thyroglobulin/deficiency , Animals , Electrophoresis, Polyacrylamide Gel , Gene Expression Regulation/genetics , Glycosylation , HSP70 Heat-Shock Proteins/metabolism , Humans , Immunoassay , Immunoblotting , Immunohistochemistry , Membrane Proteins/metabolism , Mice , Mice, Inbred Strains , Microscopy, Electron , Mutation/genetics , Thyroid Gland/cytology , Thyroid Gland/metabolism , Thyrotropin/pharmacology
4.
Thyroid ; 6(1): 11-5, 1996 Feb.
Article in English | MEDLINE | ID: mdl-8777378

ABSTRACT

The effects of administration of iodine (1 mg/day orally, 64 days) were studied in three siblings with congenital goiter and hypothyroidism due to defective thyroglobulin (Tg) synthesis. The patients presented very large goiters, elevated RAI uptake, negative perchlorate discharge test, low serum T4, and elevated TSH concentrations. Immunoassayable Tg was low and failed to increase after stimulation with exogenous bovine TSH. Analysis of individual thyroid extracts by gel filtration failed to reveal a Tg component; the immunoassayable Tg antigens in these goitrous tissues were 0.12 and 0.21 mg/g tissue, respectively (normal 70-90 mg/g tissue). The histological pattern of their thyroids was compatible with defective Tg synthesis. The administration of iodine caused a rise in the mean serum T4, T3, and free T4 concentrations in all three siblings, but did not alter the serum Tg concentration. TSH concentrations rose in the terminal period of observation in the three subjects and this was considered to be due to a possible effect produced by the iodine load in the thyroperoxidase system (Wolff-Chaikoff effect). One patient showed an increase in goiter size during the period of observation. These results suggest that iodine administration enhanced the ability of the dyshormonogenetic gland to synthesize iodothyronines.


Subject(s)
Goiter/drug therapy , Goiter/metabolism , Hypothyroidism/drug therapy , Hypothyroidism/metabolism , Iodine/therapeutic use , Thyroglobulin/biosynthesis , Adolescent , Adult , Child , Chromatography, Gel , Female , Goiter/genetics , Humans , Hypothyroidism/genetics , Male , Pedigree , Thyroid Gland/metabolism , Thyroid Gland/pathology , Thyroid Hormones/biosynthesis , Thyroid Hormones/blood , Thyrotropin
5.
J Clin Endocrinol Metab ; 80(11): 3356-60, 1995 Nov.
Article in English | MEDLINE | ID: mdl-7593451

ABSTRACT

Two siblings (HSN and AcSN) with congenital goitrous hypothyroidism were investigated in terms of clinical, biochemical, and molecular biology. Diagnosis of defective thyroglobulin (Tg) was based on findings of low serum T4, low normal or normal serum T3, a negative percholate discharge test, and the virtual absence of the serum Tg response to challenge by bovine TSH. Only minute amounts of Tg-related antigens were detected by RIA in the goitrous tissue (HSN, 0.82 mg/g, compared to 70-90 mg/g in normal thyroid tissue), as confirmed by sodium dodecyl sulfate-agarose gel electrophoresis that indicated the virtual absence of Tg. The Tg messenger ribonucleic acids (mRNAs) from controls and HSN thyroid tissue were first reverse transcribed and then divided into several portions from positions 57-8448; the resulting complementary DNAs were, in turn, amplified by reverse polymerase chain reaction. The amplification of nucleotides 5165-6048 from control thyroid tissue Tg mRNA showed a fragment of 884 base pairs (bp). In contrast, the fragment present in the HSN was +/- 750 bp and lacked the normal fragment. The sequencing of the smaller fragment revealed that 138 bp were missing between positions 5590-5727 of the HSN Tg mRNA. This deletion does not affect the reading frame of the resulting mRNA and is potentially fully translatable into a Tg polypeptide chain that is shorter by 46 residues. A cysteine residue is maintained by the junction between the proximal T from leucine 1831 and the distal GT from cysteine 1877. DNA genomic polymerase chain reaction amplification excludes a deletion in the Tg gene and indicates that the deleted 138-nucleotide sequences lie in the same exon. The functional consequences of the deletion are not entirely clear, but it is conceivable that the excision of this segment of the Tg molecule could affect the protein structure, resulting in its premature degradation, very low colloid storage, and diminished thyroid hormone production rate.


Subject(s)
Goiter/genetics , Goiter/metabolism , RNA, Messenger/genetics , Sequence Deletion , Thyroglobulin/biosynthesis , Thyroglobulin/genetics , Adult , Amino Acid Sequence , Animals , Base Sequence , Blotting, Southern , Cattle , Child , DNA/genetics , Female , Goiter/congenital , Humans , Male , Molecular Probes/genetics , Molecular Sequence Data , Polymerase Chain Reaction , RNA, Messenger/metabolism
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