Tereza Moore scite author profile

Abdominal aortic aneurysms (AAAs) can cause aortoenteric fistulae (AEF). AEF can either be primary, arising from the aneurysm or other diseases, causing the aorta to erode into the bowel, or secondary, from previous aortic grafting. Primary aortoduodenal fistula (ADF) is a rare clinical entity that usually presents with gastrointestinal bleeding that can be occult, intermittent, or massive. We report a 71-year-old woman with acute onset of abdominal pain and massive hematemesis. Esophagogastroduodenal endoscopy (EGD) and arteriography were nondiagnostic. The patient's condition became unstable, and she was brought emergently to the operating room where the diagnosis of an ADF was made. The ADF and AAA were surgically repaired, and the patient recovered without complications. This case represents an example of a rare complication of AAA with the unusual presentation of multiple aortic aneurysms. We will address the pathophysiology, diagnostic evaluation, and management of AEF.

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A new LC–MS/MS method for the clinical determination of reduced and oxidized glutathione from whole blood

Moore

Niemi

et al. 2013

Journal of Chromatography B

107

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A conserved role for AMP-activated protein kinase in NGLY1 deficiency

et al. 2020

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Mutations in human N-glycanase 1 (NGLY1) cause the first known congenital disorder of deglycosylation (CDDG). Patients with this rare disease, which is also known as NGLY1 deficiency, exhibit global developmental delay and other phenotypes including neuropathy, movement disorder, and constipation. NGLY1 is known to regulate proteasomal and mitophagy gene expression through activation of a transcription factor called "nuclear factor erythroid 2-like 1" (NFE2L1). Loss of NGLY1 has also been shown to impair energy metabolism, but the molecular basis for this phenotype and its in vivo consequences are not well understood. Using a combination of genetic studies, imaging, and biochemical assays, here we report that loss of NGLY1 in the visceral muscle of the Drosophila larval intestine results in a severe reduction in the level of AMP-activated protein kinase α (AMPKα), leading to energy metabolism defects, impaired gut peristalsis, failure to empty the gut, and animal lethality. Ngly1–/– mouse embryonic fibroblasts and NGLY1 deficiency patient fibroblasts also show reduced AMPKα levels. Moreover, pharmacological activation of AMPK signaling significantly suppressed the energy metabolism defects in these cells. Importantly, the reduced AMPKα level and impaired energy metabolism observed in NGLY1 deficiency models are not caused by the loss of NFE2L1 activity. Taken together, these observations identify reduced AMPK signaling as a conserved mediator of energy metabolism defects in NGLY1 deficiency and suggest AMPK signaling as a therapeutic target in this disease.

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Degree of Glutathione Deficiency and Redox Imbalance Depend on Subtype of Mitochondrial Disease and Clinical Status

Enns

Moore

et al. 2014

PLoS ONE

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Mitochondrial disorders are associated with decreased energy production and redox imbalance. Glutathione plays a central role in redox signaling and protecting cells from oxidative damage. In order to understand the consequences of mitochondrial dysfunction on in vivo redox status, and to determine how this varies by mitochondrial disease subtype and clinical severity, we used a sensitive tandem mass spectrometry assay to precisely quantify whole blood reduced (GSH) and oxidized (GSSG) glutathione levels in a large cohort of mitochondrial disorder patients. Glutathione redox potential was calculated using the Nernst equation. Compared to healthy controls (n = 59), mitochondrial disease patients (n = 58) as a group showed significant redox imbalance (redox potential −251 mV±9.7, p<0.0001) with an increased level of oxidation by ∼9 mV compared to controls (−260 mV±6.4). Underlying this abnormality were significantly lower whole blood GSH levels (p = 0.0008) and GSH/GSSG ratio (p = 0.0002), and significantly higher GSSG levels (p<0.0001) in mitochondrial disease patients compared to controls. Redox potential was significantly more oxidized in all mitochondrial disease subgroups including Leigh syndrome (n = 15), electron transport chain abnormalities (n = 10), mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (n = 8), mtDNA deletion syndrome (n = 7), mtDNA depletion syndrome (n = 7), and miscellaneous other mitochondrial disorders (n = 11). Patients hospitalized in metabolic crisis (n = 7) showed the greatest degree of redox imbalance at −242 mV±7. Peripheral whole blood GSH and GSSG levels are promising biomarkers of mitochondrial dysfunction, and may give insights into the contribution of oxidative stress to the pathophysiology of the various mitochondrial disorders. In particular, evaluation of redox potential may be useful in monitoring of clinical status or response to redox-modulating therapies in clinical trials.

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Gastrin stimulates receptor-mediated proliferation of human esophageal adenocarcinoma cells

Moore

Jepeal

Boylan

et al. 2004

Regulatory Peptides

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Tereza Moore

Primary aortoduodenal fistula: A case report and review of the literature

A new LC–MS/MS method for the clinical determination of reduced and oxidized glutathione from whole blood

A conserved role for AMP-activated protein kinase in NGLY1 deficiency

Degree of Glutathione Deficiency and Redox Imbalance Depend on Subtype of Mitochondrial Disease and Clinical Status

Gastrin stimulates receptor-mediated proliferation of human esophageal adenocarcinoma cells

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