Background: Malfunction of the SLC26A4 protein
leads to prelingual deafness often associated with
mild thyroid dysfunction and goiter. It is assumed that
SLC26A4 acts as a chloride/anion exchanger
responsible for the iodide organification in the thyroid
gland, and conditioning of the endolymphatic fluid in
the inner ear. Methods: Chloride uptake studies were
made using HEK293-Phoenix cells expressing human
wild type SLC26A4 (pendrin) and a mutant
(SLC26A4S28R) we recently described in a patient with
hypothyroidism, goiter and sensorineural hearing
loss. Results: Experiments are summarized showing
the functional characterization of wild type SLC26A4
and a mutant (S28R), which we described recently.
This mutant protein is transposed towards the cell
membrane, however, its transport capability is
markedly reduced if compared to wild-type SLC26A4.
Furthermore, we show that the SLC26A4 induced
chloride uptake in HEK293-Phoenix cells competes
with iodide, and, in addition, that the chloride uptake
can be blocked by NPPB and niflumic acid, whereas
DIDS is ineffective. Conclusions: The functional
characteristics of SLC26A4S28R we describe here, are
consistent with the clinical phenotype observed in the
patient from which the mutant was derived.
Mutations in the thyroid peroxidase (TPO) gene lead to severe congenital hypothyroidism due to total iodide organification defect (TIOD). According to the recessive mode of inheritance, patients are homozygous or compound heterozygous for gene mutations. However, about 17% of cases with typical phenotype harbor a single TPO-mutated allele. We present a TIOD family in which the three affected siblings had a single genomic TPO mutation (R693W) inherited from the unaffected father. Other mutations were not found, although all TPO coding exons and exon/intron boundaries were sequenced. Eleven different polymorphisms were found in hetero- or homozygosity in all family members. On the contrary, using retrotranscribed thyroid tissue RNA, all heterozygous polymorphisms and the mutation were homozygous. The distribution of the polymorphisms indicated that only the mutant paternal allele is transcribed at the thyroid tissue level. We excluded the presence of major deletions involving the maternal chromosome at 2p25 and of maternal imprinting or mutations in part of the regulatory regions of the gene. In summary, we report one family with TIOD due to monoallelic expression of a mutant TPO allele in the thyroid. This mechanism might be generally involved in TIOD cases with a single TPO-mutated allele.
Experimental data suggest an involvement of immune cellular components in the development of Alzheimer''s disease (AD). Against this background, the spontaneous natural killer (NK) cell activity and the NK-induced cytotoxicity after interleukin-2 (IL-2) were studied in healthy elderly subjects and in patients with dementia of Alzheimer type (SDAT) and multi-infarct type (MID). Higher NK cytotoxicity (expressed as total lysis and percent increase) at different IL-2 concentrations (50 and 100 IU/ml/cells) was demonstrated in patients with SDAT than in healthy elderly subjects (p < 0.001) and MID patients (p < 0.001). NK cell activity of MID patients was similar to that of healthy elderly and healthy young subjects. A negative correlation between the percent increase in NK cytotoxicity after IL-2 and the Mini Mental State Examination Score was also found in SDAT patients (p < 0.01). Alterations of IL-2-mediated NK cytotoxicity may therefore support the neuroimmune hypothesis of AD.
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