Autoimmune polyendocrine syndrome type 1 (APS I) in Norway

OBJECTIVE The aim of the present study was to investigate Norwegian patients with autoimmune polyendocrine syndrome type I (APS I), with respect to occurrence and clinical presentation, reactivity towards different autoantigenes and mutations in the autoimmune regulator (AIRE) gene. PATIENTS Twenty...

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Bibliographic Details
Published in:Clinical endocrinology (Oxford) 2001-02, Vol.54 (2), p.211-217
Main Authors: Myhre, Anne Grethe, Halonen, Maria, Eskelin, Petra, Ekwall, Olov, Hedstrand, Håkan, Rorsman, Fredrik, Kämpe, Olle, Husebye, Eystein S.
Format: Article
Language:English
Subjects:
Adolescent
Adult
AIRE Protein
Aromatic-L-Amino-Acid Decarboxylases - immunology
Autoantibodies - blood
Biological and medical sciences
Child
Child, Preschool
Cholesterol Side-Chain Cleavage Enzyme - immunology
Cohort Studies
Complex syndromes
Endocrinopathies
Female
General aspects. Associated endocrine diseases. Endocrine paraneoplasic syndromes
Humans
Male
Medical genetics
Medical sciences
Medicin och hälsovetenskap
Middle Aged
Norway - epidemiology
Polyendocrinopathies, Autoimmune - epidemiology
Polyendocrinopathies, Autoimmune - genetics
Polyendocrinopathies, Autoimmune - immunology
Prevalence
Primary Ovarian Insufficiency - immunology
Sequence Analysis, DNA
Steroid 21-Hydroxylase - immunology
Transcription Factors - genetics
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Summary:OBJECTIVE The aim of the present study was to investigate Norwegian patients with autoimmune polyendocrine syndrome type I (APS I), with respect to occurrence and clinical presentation, reactivity towards different autoantigenes and mutations in the autoimmune regulator (AIRE) gene. PATIENTS Twenty Norwegian patients from 15 families with APS I (11 males, nine females; mean age 26 years, range 4–54) were included by contacting all major hospitals in Norway. METHODS Clinical data was collected from both patients and their physicians by the use of questionnaires and patient records. Autoantibodies were analysed using radioimmunoassays based on antigen synthesized by in vitro transcription and translation. AIRE mutations were determined by DNA sequence analysis. RESULTS The prevalence of APS I in Norway was estimated to be about 1 : 80 000 individuals. We found about the same distribution of disease characteristics as has been reported in Finnish patients. The diagnosis was delayed in many individuals. In two thirds of the cases, the patients were admitted in Hospital with acute adrenal insufficiency or hypocalcaemic crisis. Forty percent of these patients already had one of the main disease manifestations. Four different mutations in the AIRE gene were found in the Norwegian cohort. A 13‐bp deletion in exon 8 (1085–1097del) was the most frequent mutation, present in 22/40 (55%) of the alleles. Eighty‐five percent of the patients had either autoantibodies against 21 hydroxylase or aromatic l‐amino acid decarboxylase. Five of eight women (age > 13 years) had ovarian failure, and all of these had antibodies against side‐chain cleavage enzyme (P = 0·0002). CONCLUSION Norwegian patients with APS I clinically resemble patients from Finland and other European countries. The diagnosis APS I must be considered in children and adolescents with chronic mucocutaneous candidiasis, autoimmune adrenocortical failure or hypoparathyroidism in order to avoid fatal complications. Analysis of autoantibodies and mutational analysis of the AIRE gene are valuable diagnostic tools, especially in the early stages of the disease.
ISSN:0300-0664
1365-2265
DOI:10.1046/j.1365-2265.2001.01201.x