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Introduction: Triple-A syndrome (Triple-A) is an autosomal recessive disorder characterized by alacrimia, achalasia, and adrenal insufficiency. Several variants on the AAAS gene have been described, and some variants are clustered in particular geographical areas, such as the c.1331+1G>A variant which is very frequent in North Africa. Here, we describe the genetic features of Triple-A in a series of unrelated families from Morocco. Methods: Screening for the AAAS c.1331+1G>A variant was performed by direct sequencing or by PCR-RFLP. Haplotype analysis using Single Tandem Repeat (STR) markers flanking AAAS gene was performed in order to evaluate the founder effect and estimate the age of the c.1331+1G>A variant. Results: Seven unrelated families with ten individuals clinically diagnosed with Triple-A were evaluated for sequence variations in the AAAS gene. The median age at diagnosis was 3 years, with a range between 2 and 11 years. Molecular analysis revealed that all patients were homozygous for the c.1331+1G>A variant. This variant was not found in 200 healthy controls, indicating that carriers are very rare in the general Moroccan population. Subsequently, STR marker analysis revealed a founder effect and that the most recent common ancestor of Triple-A patients in Morocco would have lived 125 years ago. Conclusion: This is the largest series of Triple-A in Morocco. The same AAAS c.1331+1G>A variant was found in all patients, suggesting a founder effect in Morocco which was subsequently confirmed by microsatellite marker analysis. Therefore, this variant should be systematically investigated to diagnose Triple-A in Morocco.

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Objective: Triple A syndrome, caused by autosomal recessively inherited mutations in the AAAS gene is characterized by alacrima, achalasia, adrenal insufficiency, and neurological impairment. To the best of our knowledge, no patients of both sexes have been reported to have offspring. Our aim was to assess the causes of infertility in male patients with this multisystemic syndrome, and to present a female patient that spontaneously conceived a child. Design: Cross-sectional study. Methods: Six males aged 19-48 years were included. Gonadotropins, testosterone, DHEAS, androstenedione, inhibin B, anti-Mullerian hormone measurements and testicular ultrasound were performed. Results: All six male patients had impaired general health and neurological symptoms including erectile and ejaculatory dysfunction. None of them had an offspring. The only demonstrated cause of infertility in our male patients was erectile and ejaculatory dysfunction which precludes sexual intercourse. Our patients had normal libido but were sexually abstinent. Except for low adrenal androgen levels, the concentrations of all measured hormones as well as testicular ultrasound were normal which may indicate the possibility of spermatogenesis in male patients with triple A syndrome. Little is known about fertility in female patients, but based on our observations spontaneous pregnancies seem to be possible. Conclusion: Our results contribute to still scarce knowledge on fertility in patients with Triple A syndrome and as well represents a foundation for further research on causes of infertility and possible treatment options.

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Introduction and importance: Allgrove syndrome (AS) (AAA syndrome) is a rare autosomal recessive disease caused by mutations in the AAAS gene located on chromosome 12q13. The AAAS gene encodes for the ALADIN protein (alacrima, achalasia, adrenal insufficiency, neurologic disorder). AS can manifest with a plethora of symptoms. Early recognition of the syndrome remains challenging due to its rarity and progressive nature. This report presents an unusual case of triple-A syndrome (TAS) with concurrent neuromuscular manifestations. Understanding the atypical presentation of this syndrome is vital for early diagnosis and appropriate management. Case presentation: We report a 16-year-old boy with severe malnutrition presented with painful swallowing, fatigue, and bilateral congenital ptosis. Barium swallow, upper gastrointestinal endoscopy, and Shimmer test were performed, which led to the diagnosis of TAS. Treatment included laparoscopic Heller's procedure, artificial tears, hydrocortisone. Clinical discussion: TAS, also known as AS, is a rare multisystem disorder characterized by achalasia, Addison's disease, and alacrima. This syndrome is occasionally referred to as 4A syndrome due to the inclusion of autonomic dysfunction. There is no treatment for AS. Management includes artificial tears for alacrima, glucocorticoid replacement therapy to treat adrenal insufficiency, and treatment of achalasia. Conclusion: This case emphasizes the importance of considering atypical presentations of TAS. Early diagnosis and treatment are paramount in addressing the varied components of this rare disorder. Understanding the clinical complexities of this syndrome aids in improved patient care and underscores the necessity for comprehensive evaluation and management in similar cases.

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Adrenal insufficiency is a life-threatening condition resulting from the inability to produce adrenal hormones in a dose- and time-dependent manner. Establishing a cell-based therapy would provide a physiologically responsive approach for the treatment of this condition. We report the generation of large numbers of human-induced steroidogenic cells (hiSCs) from human pluripotent stem cells (hPSCs). Directed differentiation of hPSCs into hiSCs recapitulates the initial stages of human adrenal development. Following expression of steroidogenic factor 1, activation of protein kinase A signaling drives a steroidogenic gene expression profile most comparable to human fetal adrenal cells, and leads to dynamic secretion of steroid hormones, in vitro. Moreover, expression of the adrenocorticotrophic hormone (ACTH) receptor/co-receptor (MC2R/MRAP) results in dose-dependent ACTH responsiveness. This protocol recapitulates adrenal insufficiency resulting from loss-of-function mutations in AAAS, which cause the enigmatic triple A syndrome. Our differentiation protocol generates sufficient numbers of hiSCs for cell-based therapy and offers a platform to study disorders causing adrenal insufficiency.

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INTRODUCTION: Allgrove syndrome is a genetic disorder characterized by a multisystem involvement manifesting mainly in childhood with esophageal achalasia, adrenal insufficiency, and alacrima. Associated neurological manifestations are frequent in patients with late-onset forms and include peripheral, central, and autonomic dysfunction. The definitive diagnosis remains genetic, but neurological symptoms/signs could be a relevant clue for the diagnosis. DISCUSSION: This syndrome is rare, but it is not impossible for it to occur in adults, so all neurologists must be alert. Moreover, in this regard, neurological symptoms can sometimes be very similar to those of motor neuron disease patients, so that, although rare, Allgrove syndrome may also enter into the differential diagnosis with the bulbar variant of amyotrophic lateral sclerosis. Nevertheless, attention to extra-neurological symptoms must remain high as these play an equally important role in reaching the diagnosis. CASE REPORT: Here we present the case of a patient with some peculiarities that are onset at an advanced age, genetic confirmation of the diagnosis, and prominent neurological involvement, which also opens the differential diagnosis to amyotrophic lateral sclerosis.

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BACKGROUND: Allgrove disease is a rare genetic syndrome characterized by adrenal insufficiency, alacrimia, achalasia and complex neurological involvement. Allgrove disease is due to recessive mutations in the AAAS gene, which encodes for the nucleoporin Aladin, implicated in the nucleocytoplasmic transport. The adrenal insufficiency has been suggested to rely on adrenal gland-ACTH resistance. However, the link between the molecular pathology affecting the nucleoporin Aladin and the glucocorticoid deficiency is still unknown. RESULTS: By analyzing postmortem patient's adrenal gland, we identified a downregulation of Aladin transcript and protein. We found a downregulation of Scavenger receptor class B-1 (SCARB1), a key component of the steroidogenic pathway, and SCARB1 regulatory miRNAs (mir125a, mir455) in patient's tissues. With the hypothesis of an impairment in the nucleocytoplasmic transport of the SCARB1 transcription enhancer cyclic AMP-dependent protein kinase (PKA), we detected a reduction of nuclear Phospho-PKA and a cytoplasmic mislocalization in patient's samples. CONCLUSIONS: These results shed a light on the possible mechanisms linking ACTH resistance, SCARB1 impairment, and defective nucleocytoplasmic transport.

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Adrenal insufficiency (AI) is a severe endocrine disorder characterized by insufficient glucocorticoid (GC) and/or mineralocorticoid (MC) secretion by the adrenal glands, due to impaired adrenal function (primary adrenal insufficiency, PAI) or to insufficient adrenal stimulation by pituitary ACTH (secondary adrenal insufficiency, SAI) or tertiary adrenal insufficiency due to hypothalamic dysfunction. In this review, we describe rare genetic causes of PAI with isolated GC or combined GC and MC deficiencies and we also describe rare syndromes of isolated MC deficiency. In children, the most frequent cause of PAI is congenital adrenal hyperplasia (CAH), a group of adrenal disorders related to steroidogenic enzyme deficiencies, which will not be included in this review. Less frequently, several rare diseases can cause PAI, either affecting exclusively the adrenal glands or with systemic involvement. The diagnosis of these diseases is often challenging, due to the heterogeneity of their clinical presentation and to their rarity. Therefore, the current review aims to provide an overview on these rare genetic forms of paediatric PAI, offering a review of genetic and clinical features and a summary of diagnostic and therapeutic approaches, promoting awareness among practitioners, and favoring early diagnosis and optimal clinical management in suspect cases.

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Objective:To discuss the clinical manifestations, diagnosis and treatment of a patient with Allgrove syndrome.Methods:Retrospective analysis of the clinical data of a patient with Allgrove syndrome admitted to Gansu Provincial People's Hospital on August 8, 2018, and review of relevant literature.Results:The patient, female, 20 years old, presented with dysphagia for 10 years and aggravated for 4 years. No tears since childhood. The upper digestive tract barium meal showed that lower esophageal stenosis, a "beak" shaped change. Esophageal manometry suggested multiple peristalsis failures. Laboratory tests showed low plasma cortisol and high ACTH. The clinical diagnosis was Allgrove syndrome. POME was performed to improve dysphagia, and hormone replacement therapy was given. The symptoms were improved after long-term follow-up.Conclusion:Allgrove syndrome is a multisystem disease. The possibility of Allgrove syndrome should be vigilant when suspicious symptoms appear. If necessary, gene detection is helpful for early diagnosis.Treatment, which focuses on the appropriate management of the manifested signs and symptoms, requires the mutual assistance of multiple disciplines.

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Allgrove syndrome or Triple-A syndrome is a triad of achalasia, alacrimia, and adrenal insufficiency. It is a rare disease that's only described in the literature with no known incidence rate. Atypical presentation of some cases is rarely seen, especially with monotonous symptoms. We are describing an early age of presentation with dual symptoms of Allgrove Syndrome than the triplet with novel homozygous variant at c.885G>A in the AAAS gene.

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Triple A syndrome 3A (Allgrove syndrome) is a rare autosomal recessive multiorgans dysfunction characterized by alacrima, achalasia which is the absence of esophageal muscle peristalsis and lower sphincter failure to relax and adrenal insufficiency. About third of patient additional features like neurological and autonomic manifestations reported (making the syndrome 4A), the spectrum of neurological symptoms varies including gait disturbances, parkinsonism, muscle wakeness, mental retardation, peripheral sensory and motor neuropathy. Here we reported A 18 years old male, who had postnatal recurrent conjunctivitis so alacrima was diagnosed, in the sventh years he developed achalasia signs; dysphagia and regurgitation and laparscopic surgical myotomy and fundoplication were done, when he became 16 he presented to our clinic for poor appetite, weight loss,and failure to thrive. Assessment of ACTH, cortisol, ACTH stimulation test confirmed he had adrenal insufficiency and physical examination showed he had foots deformity due to muscular atrophy caused by neuropathy.treatment performed by managing symptoms of the condition(replacement of glucocorticoids, surgical correction of achalasia, artificial tears).The follow-up was over a period of 6 months and we noted a great improvement of patient's condition.

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Allgrove syndrome (AS), also known as triple A syndrome, is an autosomal recessive inherited disorder characterized by a triad of alacrimia, achalasia, and adrenocorticotrophic hormone (ACTH) resistant adrenal insufficiency. We present a case of a 16-year-old male presenting with the classic triad and a homozygous mutation in the Aladin WD Repeat Nucleoporin (AAAS gene). Genetic analysis and detection of AAAS gene mutation is the cornerstone of diagnosis. Delayed detection results in multiple hospital admissions and life-threatening complications. More data and research are needed to aid in expanding the knowledge about Allgrove syndrome in the literature.

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BACKGROUND: The elucidation of pathomechanisms leading to the manifestation of rare (genetically caused) neurological diseases including neuromuscular diseases (NMD) represents an important step toward the understanding of the genesis of the respective disease and might help to define starting points for (new) therapeutic intervention concepts. However, these "discovery studies" are often limited by the availability of human biomaterial. Moreover, given that results of next-generation-sequencing approaches frequently result in the identification of ambiguous variants, testing of their pathogenicity is crucial but also depending on patient-derived material. METHODS: Human skin fibroblasts were used to generate a spectral library using pH8-fractionation of followed by nano LC-MS/MS. Afterwards, Allgrove-patient derived fibroblasts were subjected to a data independent acquisition approach. In addition, proteomic signature of an enriched nuclear protein fraction was studied. Proteomic findings were confirmed by immunofluorescence in a muscle biopsy derived from the same patient and cellular lipid homeostasis in the cause of Allgrove syndrome was analysed by fluorescence (BODIPY-staining) and coherent anti-Stokes Raman scattering (CARS) microscopy. RESULTS: To systematically address the question if human skin fibroblasts might serve as valuable biomaterial for (molecular) studies of NMD, we generated a protein library cataloguing 8280 proteins including a variety of such linked to genetic forms of motoneuron diseases, congenital myasthenic syndromes, neuropathies and muscle disorders. In silico-based pathway analyses revealed expression of a diversity of proteins involved in muscle contraction and such decisive for neuronal function and maintenance suggesting the suitability of human skin fibroblasts to study the etiology of NMD. Based on these findings, next we aimed to further demonstrate the suitability of this in vitro model to study NMD by a use case: the proteomic signature of fibroblasts derived from an Allgrove-patient was studied. Dysregulation of paradigmatic proteins could be confirmed in muscle biopsy of the patient and protein-functions could be linked to neurological symptoms known for this disease. Moreover, proteomic investigation of nuclear protein composition allowed the identification of protein-dysregulations according with structural perturbations observed in the muscle biopsy. BODIPY-staining on fibroblasts and CARS microscopy on muscle biopsy suggest altered lipid storage as part of the underlying disease etiology. CONCLUSIONS: Our combined data reveal that human fibroblasts may serve as an in vitro system to study the molecular etiology of rare neurological diseases exemplified on Allgrove syndrome in an unbiased fashion.

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In triple A (Allgrove) syndrome, motor neuron disease is a co-morbid condition. We herein report a 38-year-old Japanese man with triple A (Allgrove) syndrome and novel tandem mutations: a novel c.881delT deletion mutation and c.835C>T localized to the AAAS gene. A nerve conduction study revealed marked axonal damage in several motor nerves. Tandem mutations in the AAAS gene may be involved in co-morbid motor neuron disease and aberrant electrophysiological findings.

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Triple A syndrome (Allgrove syndrome) is characterized by a triad of specific features, namely, alacrimia, adrenal insufficiency, and achalasia cardia. It is a rare autosomal recessive disorder. In the present study, an 18-year-old boy was presented with complaints of decreased tears, darkening of the skin, difficulty in walking and standing up from sitting position, and difficulty in swallowing liquids. Adrenal insufficiency, alacrimia, achalasia, and neurological manifestations were confirmed with relevant laboratory investigations. His condition improved with steroids and artificial teardrops. However, a vigilant eye of the clinician for clinical clues of syndromic manifestation will help in early diagnosis and proper management.

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Cough and respiratory infections are common in pediatrics. Our case report illustrates the need for pediatricians to consider rare diagnoses such as genetic syndromes and primary gastrointestinal motility disorders in patients with unremitting respiratory and gastrointestinal symptoms. Early identification provides early intervention and reduces long-term morbidity for pediatric patients.

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PURPOSE: The triple A syndrome (AAAS) is an inherited condition associated with mutations in the AAAS gene, which encodes a protein of 546 amino acids known as ALADIN (alacrima achalasia adrenal insufficiency neurologic disorder) whose function is not well understood. This protein belongs to the WD-repeat family of regulatory proteins and is located in the nuclear pore complexes. Only a few cohorts of AAAS patients have been reported and fully characterized. Thus, the objective of the present study was to report on a mini cohort of Italian AAAS patients and to get insights on their predisposing genetic defects. METHODS: Genetic analysis of AAAS gene in triple A syndrome patient and molecular and functional characterization of the novel identified allelic variants. RESULTS: Here we describe three newly diagnosed cases of AAAS, in whom genetic analysis allowed us to identify two novel allelic variants in the AAAS gene: the frameshift substitution c.765 dupT (p.Gly256Trp fsX67) in exon 8 and the splice site mutation in intron 11(c.997-2 A > G, IVS11-2A > G). Both variants result in a truncated non-functional protein, as we demonstrate by transcript analysis and expression studies. CONCLUSIONS: Our findings establish a pathogenic role for both new variants. Moreover, our data highlight the essential role of the C-terminal domain of the protein for its correct targeting and function and underline the importance of sequencing splice sites surrounding the intron-exon junctions to ensure accurate molecular diagnosis and correct genetic counseling in AAAS patients.

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BACKGROUND: Allgrove syndrome is a multisystem disorder first described in 1978 and is classically associated with esophageal achalasia, alacrima, and adrenal insufficiency. Allgrove syndrome is caused by homozygous and/or compound heterozygous mutations on Chromosome 12q13, designated as "AAA" (Achalasia, Addisonianism Alacrima). AAA encodes the protein ALADIN (Alacrima, Achalasia, aDrenal Insufficiency Neurologic disorder), a member of the nuclear porin family forming the nuclear pore complex. PURPOSE: The purpose of this case report is to illustrate the clinical decision making and results following an active rehabilitation program on a patient with Allgrove syndrome. A detailed physical examination is also provided to contribute to the body of knowledge regarding the clinical presentation of this disorder. CONCLUSION: It appears that in this case, this patient with Allgrove syndrome demonstrated a significant increase in endurance, balance, and a return to functional activities and participation following a 10-week physical therapy program consisting of task-oriented exercise, aerobic training, postural control exercises, and patient education. Due to the pathophysiology of Allgrove syndrome, these patients cannot be exercised in a traditional manner. It is prudent to perform these interventions with precautions including frequent monitoring of vitals, rest breaks in cool environments, close supervision during balance tasks, and submaximal exercise at a Borg scale of moderate intensity. C.A.'s overall improvements illustrate the potential value of complementing the medical management of persons with Allgrove syndrome with active exercise interventions.

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BACKGROUND: Allgrove syndrome (OMIM 231550) is a rare autosomal recessive disease characterized by non-CAH primary adrenal insufficiency (non-CAH PAI), alacrima, and achalasia. It is caused by mutations in the AAAS gene. The syndrome is also associated with variable progressive neurological impairment and dermatological abnormalities. METHODS AND RESULTS: We diagnosed 23 patients from 14 families with Allgrove syndrome, based on the presence of at least two characteristic symptoms, usually adrenal insufficiency and alacrima, between 2008 and 2018. A previously described nonsense variant of AAAS was detected in 19 patients from 12 families at homozygous state. Another novel homozygous mutation (c.394-397delCTGT) in AAAS was detected in four patients from two families. Presenting symptoms were alacrima (23/23; 100%), adrenal insufficiency (18/23; 78%), achalasia (13/23; 57%), short stature/growth retardation (16/23; 70%), hyperreflexia (15/23; 65%), palmoplantar hyperkeratosis (13/23; 57%), hyperpigmentation of the skin (10/23; 43%), hypoglycemia-induced convulsion (7/23; 30%), swallowing difficulty and vomiting (6/23; 26%). Serum DHEAS concentrations were low in all patients (23/23; 100%). CONCLUSIONS: Clinical symptoms vary even among patients carrying the same mutation. Triple A syndrome should be considered in the etiology of non-CAH PAI in Arab populations and in Southeast Turkey. Any child with non-CAH PAI should be evaluated for the presence of alacrima and/or achalasia or family history of alacrima and/or achalasia. Children with alacrima and/or achalasia should also be investigated for adrenal insufficiency. Definitive molecular diagnosis is essential for early diagnosis and management of adrenal insufficiency, neurological symptoms, and growth retardation in patients and early diagnosis of as yet asymptomatic cases in the family, together with genetic counseling.

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OBJECTIVE: Triple A syndrome is a rare autosomal recessive disorder caused by mutations in the AAAS gene on chromosome 12q13. Its main clinical features are alacrima, achalasia, and adrenal insufficiency, with most patients also having neurological symptoms and autonomic dysfunction. The neurologic manifestations are less well-understood, especially in children. Here, we examine two siblings who were found to have a novel mutation in the AAAS gene and who were found to have subtle, but important, neurologic findings. DESIGN: This is a case report of two siblings. RESULTS: We discuss two siblings exhibiting different signs of the disorder including neurologic dysfunction found at varying ages. Genetic analysis revealed that both patients have the same compound heterozygous mutations in the AAAS gene consisting of one novel mutation (c.500 C>A, A167E) and one previously described mutation (c.1331+1G> A/IVS14+1 G>A). A diagnosis of triple A syndrome was reached based on their clinical and genetic findings. CONCLUSIONS: The unique characteristic of these two cases is the novel mutation in the AAAS gene, which is likely pathogenic. In addition, they showcase the genotype-phenotype variability of the disease, as well as the importance of early identification of the neurologic abnormalities, which can result in early intervention and possibly improved outcomes.

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