Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0271742 (
AAA
)
3,032
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Achalasia of the cardia is an uncommon condition with an incidence of 0.1 cases per year per 100,000 population under 14 years. A review of experience at Booth Hall Children's Hospital over the past 10 years has revealed six cases of achalasia in children. This includes two cases of the rare syndrome of achalasia, alacrima and
ACTH
insensitivity (also known as
Triple A syndrome
) and its variants. There are 23 previously reported cases of
Triple A syndrome
and a further eight cases of its variants reported in the world literature. One-third of these cases (10 out of 31) have associated neurological abnormalities. The clinical and radiological features of achalasia are reviewed. The importance of barium studies in making the diagnosis is emphasized. However, early cases may show only spasm or incoordination, and manometry is required to confirm the diagnosis in these equivocal cases. In this series only three of the six barium studies were diagnostic and the remainder were diagnosed by manometry; all cases were subsequently confirmed by histology. Delay in diagnosis may result in severe lung damage due to repeated aspiration; this occurred in one of the six cases and was the cause of the child's death.
...
PMID:Achalasia of the cardia in childhood and the syndrome of achalasia alacrima and ACTH insensitivity. 160 7
Allgrove syndrome
(isolated glucocorticoid deficiency, achalasia and alacrima) was found in eight members of an inbred French Canadian/North American Indian pedigree. The high degree of consanguinity supports an autosomal recessive mode of inheritance for this disorder. Six patients presented with hypoglycaemia and other evidence of cortisol deficiency between 2.5 and 8 years of age; however, two others became cortisol deficient after initial testing showed normal cortisol responses to
ACTH
, evidence that the glucocorticoid insufficiency of this syndrome may not be congenital, but may develop as late as the third decade. No evidence of mineralocorticoid deficiency has been found during 65 patient-years of follow-up. Alacrima was the earliest and most consistent clinical sign of
Allgrove syndrome
. Other manifestations of peripheral or autonomic neuropathy were found in four patients. The patients showed similar facial features, and three had significant velo-pharyngeal incompetence. All showed oesophageal dysmotility even in the absence of symptomatic dysphagia. In-vitro studies of lymphocyte
ACTH
binding showed no differences from normal controls. If such lymphocyte binding, as has been suggested, reflects adrenal ACTH receptor activity, these data would suggest that the glucocorticoid deficiency of
Allgrove syndrome
is not the result of a defect in that receptor. However, the observation that
ACTH
does not elicit increased adenylate cyclase activity even in normal lymphocytes casts considerable doubt on the physiological significance of
ACTH
binding to lymphocytes. It seems likely, therefore, that true
ACTH
receptors are not expressed on peripheral lymphocytes, and any conclusions regarding a possible receptor defect in
Allgrove syndrome
must await studies of receptor expression on adrenal cell membranes.
...
PMID:Allgrove syndrome: an autosomal recessive syndrome of ACTH insensitivity, achalasia and alacrima. 185 Jun 71
Familial glucocorticoid deficiency (FGD) is an autosomal recessive syndrome with hereditary adrenocortical unresponsiveness to
ACTH
. After the cloning of ACTH receptor or melanocortin-2 receptor (MC-2R) cDNA, several kinds of mutations in the receptor genes have been reported. However, the apparently normal ACTH receptor gene in some affected children suggests that the etiology of FGD is heterogeneous. In this short review, we describe the recent advances in the molecular biology of ACTH receptor genes, its post-receptor signal transduction in the adrenocortical cells, and the molecular genetics of the FGD and a related syndrome,
Allgrove syndrome
. We also discuss that this kind of work will help us to understand better about the molecular mechanism of the glucocorticoidogenesis in the human being.
...
PMID:[ACTH receptor, ACTH receptor anomaly, and familial glucocorticoid deficiency]. 970 62
Triple A syndrome
(
Allgrove syndrome
, MIM No. 231550) is a rare autosomal recessive disorder characterised by
ACTH
-resistant adrenal insufficiency, achalasia of the cardia, and alacrimia. The triple A gene has been previously mapped to chromosome 12q13 in a maximum interval of 6 cM between loci D12S1629 and D12S312. Using linkage analysis in 12 triple A families, mostly originating from North Africa, we confirm that the disease locus maps to the 12q13 region (Zmax = 10.89 at theta = 0 for D12S1604) and suggest that triple A is a genetically homogeneous disorder. Recombination events as well as homozygosity for polymorphic markers enabled us to reduce the genetic interval to a 3.9 cM region. Moreover, total linkage disequilibrium was found at the D12S1604 locus between a rare allele and the mutant chromosomes in North African patients. Analysis of markers at five contiguous loci showed that most of the triple A chromosomes are derived from a single founder chromosome. As all markers are located in a 0 cM genetic interval and only allele 5 at the D12S1604 locus was conserved in mutant chromosomes, we speculate that the triple A mutation is due to an ancient Arabian founder effect that occurred before migration to North Africa. Since we also found linkage disequilibrium at D12S1604 in two patients from Southern Europe (France and Spain), the founder effect might well extend to other Mediterranean countries. Taking advantage of a YAC contig encompassing the triple A minimal physical region, the triple A gene was mapped to a 1.7 Mb DNA fragment accessible to gene cloning.
...
PMID:Linkage disequilibrium in inbred North African families allows fine genetic and physical mapping of triple A syndrome. 1095 24
ACTH
resistance syndromes consist of a group of rare disorders with three various molecular etiologies. However, all these diseases share the feature of severe glucocorticoid adrenal insufficiency. The simplest disorder is the isolated familial glucocorticoid deficiency (FGD) which could be divided in two different types. In FGD type 1, ACTH receptor mutations have been described and are responsible for the loss of function of the receptor, leading to the
ACTH
unresponsiveness. Patients with FGD type 2 show the same phenotype as in the previous syndrome but no mutation of the ACTH receptor has been reported in these cases. It has been proposed that morbidity of one or several other gene(s) could be responsible for this syndrome although there is no information about their chromosomal localization. The third molecular form of the disease corresponds to the
Triple A syndrome
for the triad of association "ACTH resistance, Achalasia, Alacrima", thus reflecting a large spectrum of additional symptoms. It has recently been reported that the morbid gene in this last syndrome maps to chromosome 12q13. The aim of this review is to examine the clinical aspect as well as the current knowledge of the molecular and genetic aspects of the different forms of the disease.
...
PMID:[ACTH resistance syndromes]. 1108 94
Familial glucocorticoid deficiency due to corticotropin (
ACTH
) resistance consists of two distinct genetic syndromes that are both inherited as autosomal recessive traits: isolated
ACTH
resistance (iACTHR), which may be caused by inactivating mutations of the ACTH receptor (the MC2R gene) or mutations in an as yet unknown gene(s), and
Allgrove syndrome
(AS). The latter is also known as triple-A syndrome (MIM 231550). In three large cohorts of AS kindreds, the disease has been mapped to chromosome 12; most recently, mutations in the AAAS gene on 12q13 were found in these AS families. AAAS codes for the WD-repeat containing ALADIN (for alacrima-achalasia-adrenal insufficiency-neurologic disorder) protein. We investigated families with iACTHR (n = 4) and AS (n = 6) and a Bedouin family with ACTHR and a known defect of the TSH receptor. Four AS families were of mixed extraction from Puerto Rico (PR); most of the remaining six families were Caucasian families from North America (NA). Sequencing analysis found no MC2R genetic defects in any of the kindreds. No iACTHR kindreds, but all of AS families, had AAAS mutations. The previously reported IVS14+1G-->A splice donor mutation was found in all PR families, apparently due to a founder effect; one NA kindred was heterozygous for this mutation. In the latter family, long-range PCR failed to identify a deletion or other rearrangements of the AAAS gene. No other heterozygote or transmitting parent had any phenotype that could be considered part of AS. The IVS14+1G-->A mutation results in a premature termination of the predicted protein; although it was present in all PR families (in the homozygote state in three of them), there was substantial clinical variation between them. One PR family also carried a novel splice donor mutation of the AAAS gene in exon 11, IVS11+1G-->A; the proband was a compound heterozygote. A novel point mutation, 43C-->A(Gln15Lys), in exon 1 of the AAAS gene was identified in the homozygote state in a Canadian AS kindred with a milder AS phenotype. The predicted amino acid substitution in this family is located in a sequence that may participate in the preservation of stability of ALADIN beta-strands, whereas the splicing mutation in exon 11 may interfere with the formation of WD repeats in this molecule. We conclude that 1) AAAS does not appear to be frequently mutated in families with iACTHR; 2) AAAS is mutated in AS families from PR (that had previously been mapped to 12q13) and NA; and, 3) there is significant clinical variability between patients with the same AAAS defect.
...
PMID:Spectrum of mutations of the AAAS gene in Allgrove syndrome: lack of mutations in six kindreds with isolated resistance to corticotropin. 1170 18
Allgrove syndrome
is a genetic disorder inherited in an autosomal recessive pattern and characterized by a triad of adrenal insufficiency, achalasia, and alacrima. The gene affected by the mutation in patients with
Allgrove syndrome
is termed either AAAS or ALADIN (alacrima/achalasia/adrenal insufficiency/neurologic disorder). Adrenal insufficiency in patients with this disorder may develop as late as the third decade of life. We describe a 24-year-old female with
Allgrove syndrome
, in whom initial testing with 250 microg corticotropin (
ACTH
) stimulation test performed on 3 occasions produced normal serum cortisol values and results of the 1-microg
ACTH
stimulation tests performed on 6 occasions were conflicting. Insulin-induced hypoglycemia produced a nadir serum glucose value of 36 mg/dL without adequate serum cortisol stimulation, confirming presence of adrenal insufficiency. Gene sequencing identified 2 mutations in the triple A gene: an IVSC14 + 1 G to A mutation, which has been previously reported, and a novel R155P exon 6 mutation. We conclude that a novel R155P mutation in the ALADIN gene is associated with
Allgrove syndrome
and that insulin-induced hypoglycemia, rather than
ACTH
stimulation tests, should be used for accurate diagnosis of adrenal insufficiency in this disorder.
...
PMID:The diagnosis of adrenal insufficiency in a patient with Allgrove syndrome and a novel mutation in the ALADIN gene. 1569 Mar 14
Triple A or
Allgrove syndrome
is a rare autosomal recessive disease with alacrima, achalasia, and
ACTH
-resistant adrenal insufficiency. It is usually associated with neurological disorders. Recently, mutations in the AAAS, a candidate gene mapped to chromosome 12q13, were identified. We report a family with seven affected siblings. All of them have signs of alacrima, four were operated on for achalasia, five have neurological abnormalities including cranial nerve abnormalities, amyotrophic lateral sclerosis, pyramidal syndrome, distal motor neuropathy, and amyotrophy, and two have adrenal insufficiency.
Triple A syndrome
should be considered in any young patient with alacrima.
...
PMID:[Allgrove syndrome. Report on a family]. 1688 10
The triple A syndrome is a rare autosomal recessive disease that is characterised by the triad of adrenocorticotropin (
ACTH
)-resistant adrenal insufficiency, achalasia and alacrima. In most patients, neurological and dermatological abnormalities are associated features. We report on the first Bosnian patient with triple A syndrome. Endocrine investigation confirmed primary adrenal insufficiency at the age of 5.8 years. Two months later, achalasia was diagnosed, and in the presence of alacrima, the patient satisfies the diagnostic criteria of triple A syndrome. In addition, a large number of associated neurological and dermatological features were present in this patient. Moreover, he has dysmorphic facial features, which have not been previously described in triple A syndrome.
Triple A syndrome
was confirmed by molecular analysis, revealing a nonsense mutation p.W84X in the AAAS gene. The parents are both heterozygous carriers of the mutation. The affected twin brother unfortunately died from hypoglycaemic shock, despite a normal cortisol rise in an
ACTH
stimulation test. Further, triple A syndrome patients carrying the identical homozygous p.W84X mutation have to be studied to assess a genotype-phenotype relationship for this mutation.
...
PMID:Clinical and molecular genetic findings in a 6-year-old Bosnian boy with triple A syndrome. 1855 17
Triple A syndrome
is a rare autosomal recessive disorder characterized by
ACTH
-resistant adrenal failure, alacrima, achalasia, and progressive neurological manifestations. The majority of cases are associated with mutations in the AAAS gene, which encodes a novel, 60-kDa WD-repeat nuclear pore protein, alacrima-achalasia-adrenal insufficiency neurological disorder (ALADIN) of unknown function. Our aim was to elucidate the functional role of ALADIN by determining its interacting protein partners using the bacterial two-hybrid (B2-H) technique. Nonidentical cDNA fragments were identified from both a HeLa S-3 cell and human cerebellar cDNA library that encoded the full-length ferritin heavy chain protein (FTH1). This interaction was confirmed by both co-immunoprecipitation and fluorescence lifetime imaging microscopy-fluorescence resonance energy transfer studies. Immunoblotting showed that fibroblasts from triple A patients (with known AAAS mutations) lack nuclear FTH1, suggesting that the nuclear translocation of FTH1 is defective. Cells transfected with FTH1 and visualized by confocal microscopy had very little nuclear FTH1, but when cotransfected with AAAS, FTH1 is readily visible in the nuclei. Therefore, FTH1 nuclear translocation is enhanced when ALADIN is coexpressed in these cells. In addition to its well known iron storage role, FTH1 has been shown to protect the nucleus from oxidative damage. Apoptosis of neuronal cells induced by hydrogen peroxide was significantly reduced by transfection of AAAS or by FTH1 or maximally by both genes together. Taken together, this work offers a plausible mechanism for the progressive clinical features of triple A syndrome.
...
PMID:Deficiency of ferritin heavy-chain nuclear import in triple a syndrome implies nuclear oxidative damage as the primary disease mechanism. 1985 93
1
2
Next >>
