Abstract
Triple A syndrome is a rare, autosomal recessive cause of adrenal failure. Additional features include alacrima, achalasia of the esophageal cardia, and progressive neurodegenerative disease. The AAAS gene product is the nuclear pore complex protein alacrima-achalasia-adrenal insufficiency neurological disorder (ALADIN), of unknown function. Triple A syndrome patient dermal fibroblasts appear to be more sensitive to oxidative stress than wild-type fibroblasts. To provide an adrenal and neuronal-specific disease model, we established AAAS-gene knockdown in H295R human adrenocortical tumor cells and SH-SY5Y human neuroblastoma cells by lentiviral short hairpin RNA transduction. AAAS-knockdown significantly reduced cell viability in H295R cells. This effect was exacerbated by hydrogen peroxide treatment and improved by application of the antioxidant N-acetylcysteine. An imbalance in redox homeostasis after AAAS knockdown was further suggested in the H295R cells by a decrease in the ratio of reduced to oxidized glutathione. AAAS-knockdown SH-SY5Y cells were also hypersensitive to oxidative stress and responded to antioxidant treatment. A further impact on function was observed in the AAAS-knockdown H295R cells with reduced expression of key components of the steroidogenic pathway, including steroidogenic acute regulatory and P450c11β protein expression. Importantly a significant reduction in cortisol production was demonstrated with AAAS knockdown, which was partially reversed with N-acetylcysteine treatment. Conclusion: Our in vitro data in AAAS-knockdown adrenal and neuronal cells not only corroborates previous studies implicating oxidative stress in this disorder but also provides further insights into the pathogenic mechanisms in triple A syndrome.
Highlights
We have previously identified full-length human ferritin heavy chain protein (FTH1), which has a DNA-protective role in the nucleus, as an interacting protein partner for achalasia-adrenal insufficiency neurological disorder (ALADIN) in vitro [20]
AAAS mRNA expression was reduced to 12.6% Ϯ 1.6% in AAAS knockdown (AAAS-KD) H295R cells and to 21.1% Ϯ 7.4% in AAAS-KD SHSY5Y cells compared with controls
Cell number assessed by cell counting was significantly reduced on day 5 after plating AAAS-KD H295R cells (10.73 ϫ 104 Ϯ 1.59 ϫ 104), compared with controls (41.45 ϫ 104 Ϯ 4.97 ϫ 104) (P Ͻ .0001, n ϭ 4; Figure 2A). 3-(4,5-Dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium, inner salt (MTS) assays were used to assess cell viability in which the absorbance readings are proportional to cellular metabolic activity
Summary
Apoptosis of neuronal cells induced by hydrogen peroxide is significantly reduced by transfection of AAAS or FTH1 and maximally by both genes together [20] These findings provide further compelling evidence that oxidative stress is involved in disease progression and that nuclear import of specific cargo(es) may be defective. To further understand the functional role of ALADIN in the pathogenesis of triple A syndrome, a better model of this complex disease is necessary. We investigated the potential role of oxidative stress in the pathogenesis of triple A syndrome and antioxidant treatment in recovery These studies provide a better understanding of the pathogenic mechanisms of triple A syndrome looking at affected tissue types
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