The triple A syndrome is due to mutations in ALADIN, a novel member of the nuclear pore complex.

[triple a syndrome]

The triple A syndrome (MIM #231550 ) is a rare autosomal recessive disorder characterized by adrenocorticotropic hormone (ACTH ) resistant adrenal failure , achalasia , alacrima , and a variety of neurological and dermatological features . The triple A syndrome is caused by mutations in the AAAS gene , which encodes a protein known as ALADIN (ALacrima Achalasia aDrenal Insufficiency Neurologic disorder ). ALADIN is a new WD-repeat protein that has no significant homology to any previously identified WD-repeat protein . It has been shown that it colocalizes with nuclear pore complexes (NPCs ), a finding that strongly suggests an involvement of ALADIN in nucleocytoplasmic transport . An investigation of 110 families with triple A syndrome disclosed mutation hot spots including Q 15 K (exon 1 ), and S 293 P (exon 8 ), which occur in 17 and 21 families from different geographical regions , respectively . The variable phenotype of all patients can not be correlated with the localization and the nature of the ALADIN mutations . Thus , modifying genes /factors may be involved in the progression of this neurodegenerative disease . The lack of AAAS mutations in eight patients and negative linkage to chromosome 12 q 13 in three families are suggestive of genetic heterogeneity . To examine the cellular localization of ALADIN mutants causing triple A syndrome , we investigated nine different ALADIN-mutants : 2 nonsense (W 84 X , Q 456 X ), 2 frameshift (F 157 fsX 171 , G 397 fsX 414 ) and 5 point mutations (Q 15 K , L 25 P , H 160 R , S 263 P , L 381 R ) by transfection experiments with green fluorescence protein . Mutants were predominantly localized in the cytoplasm , but also found in the nucleus indicating that ALADIN is essential for NPC targeting . To investigate physiological functions of ALADIN in vivo , we generated and analysed Aaas-/- knockout mice by homologous recombination in embryonic stem cells . Surprisingly , required animals lack any gross abnormality in adrenal and nervous system function . Further studies have to investigate the role of ALADIN at NPCs and to identify interacting proteins . Functional analyses of ALADIN may permit further understanding of its role for adrenocortical function and neurodevelopment .