Clinical and genetic characterization of families with triple A (Allgrove) syndrome

doi:10.1093/brain/awf270

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Brain, Vol. 125, No. 12, 2681-2690, December 2002
© 2002 Oxford University Press

Clinical and genetic characterization of families with triple A (Allgrove) syndrome

Henry Houlden¹, Stephen Smith², Mamede de Carvalho⁵, Julian Blake³, Christopher Mathias⁴, Nicholas W. Wood¹ and Mary M. Reilly¹

¹ Departments of Clinical Neurology, ² Neuro-ophthalmology, ³ Neurophysiology and ⁴ Autonomic Research Unit, Institute of Neurology, London, UK and ⁵ Department of Neurology, EMG Laboratory, Hospital de Santa Maria, Lisboa, Portugal

Correspondence to: H. Houlden, Department of Clinical Neurology, Institute of Neurology, Queen Square, London WC1N 3BG, UK E-mail: hhoulden{at}ion.ucl.ac.uk

Triple A (Allgrove) syndrome is characterized by achalasia,alacrima, adrenal abnormalities and a progressive neurologicalsyndrome. Affected individuals have between two and four ofthese relatively common clinical problems; hence the diagnosisis often difficult in all but the classical presentation. Theinheritance is autosomal recessive, and most cases of tripleA have no family history. Using genetic linkage analysis ina small number of families, a locus on chromosome 12q13 wasidentified. The triple A gene was identified recently at thislocus and called ALADIN (alacrima, achalasia, adrenal insufficiencyneurologic disorder). Mutations in this gene were reported infamilies from North Africa and Europe. The majority of mutationswere homozygous. We have identified 20 families with betweentwo and four of the clinical features associated with the tripleA syndrome. Sequencing of the triple A gene revealed five familiesthat had a total of nine compound heterozygous mutations, andone Portuguese family (previously published) had two homozygousmutations; these changes were spread throughout the triple Agene in exons 1, 2, 7, 8, 10, 11, 12, 13 and 16, and the poly(A)tract. Those bearing mutations had the classical triple A syndromeof achalasia, alacrima, adrenal abnormalities and a progressiveneurological syndrome. We identified a spectrum of associatedneurological abnormalities in these cases, including pupil andcranial nerve abnormalities, frequent optic atrophy, autonomicneuropathy and upper and lower motor neurone signs includingdistal motor neuropathy and amyotrophy with severe selectiveulnar nerve involvement. In these families, we have made genotype–phenotypecorrelations. Mutations in the triple A gene are thus an importantcause of this clinically heterogeneous syndrome, and sequencingrepresents an important diagnostic investigation. Identifyingfurther mutations and defining their phenotype along with functionalprotein analysis will help to characterize this neuroendocrinegene.

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