Allgrove syndrome in the mainland of China: clinical report and mutation analysis.
- Author:
Chun-xiu GONG
1
;
Ya-ran WEN
;
Xiu-li ZHAO
;
Chang SU
;
Bing-yan CAO
;
Xue ZHANG
Author Information
- Publication Type:Journal Article
- MeSH: Adrenal Insufficiency; genetics; Adrenocorticotropic Hormone; blood; China; Consanguinity; DNA; analysis; DNA Mutational Analysis; Esophageal Achalasia; genetics; Exons; Female; Genetic Diseases, Inborn; genetics; Humans; Lacrimal Apparatus Diseases; genetics; Mutation; Nerve Tissue Proteins; genetics; Nuclear Pore Complex Proteins; genetics; Optic Atrophy; genetics; physiopathology
- From: Chinese Journal of Pediatrics 2007;45(6):422-425
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVEAllgrove syndrome is a rare autosomal recessive disorder characterized by the triad of adrenal insufficiency, achalasia and alacrima and many cases have multi-systems disorder: endocrine, gastrointestinal tract, eyes and nervous system. This syndrome is also known as achalasia-addisonianism-alacrima syndrome or triple A syndrome. Allgrove syndrome is now known to be caused by mutations of AAAS gene encoding the aladin protein. In the present paper, we report a Chinese mainland girl with Allgrove syndrome with mutations in the AAAS gene.
METHODThe patient was a 7-year-old girl complained of coma and dark skin; she was treated as Addison disease for 2 years and had vomiting for 9 months before the second admission. Gene analysis was performed after extracting genomic DNA by amplification and sequencing of the specific fragments of AAA gene.
RESULTSThe patient was confirmed to have adrenal insufficiency at the age of 5 years and 6 months. During the second hospitalization, she was found to have a remarkable brisk reflexion, bilateral optic nerve atrophy, alacrima and achalasia besides ACTH resistance. The girl was born to consanguineous parents. Based on these findings, she was diagnosed as having Allgrove syndrome. Mutation analysis revealed a novel homozygous deletion of a single G, c.771delG, in exon 8 of the AAAS gene. This frame shift mutation was predicted to create a premature stop codon at locus 290, p.R258GfsX33, leading to a truncated and non-functioning aladin protein. Both the parents were heterozygous for the mutation.
CONCLUSIONThe clinical manifestations and AAAS gene mutations analysis confirmed the diagnosis of Allgrove syndrome. Gene analysis indicated that this syndrome is an autosomal recessive inherent disorder. ALADIN is significant for the normal cell function. When compared with reported cases, it seems that there are no remarkable relation between gene mutation loci and clinical manifestations in Allgrove syndrome.