Mark Schiefermeier scite author profile

Wilson's disease is a disorder of biliary copper excretion that may result in severe neurological symptoms and advanced liver disease. The wide variation of phenotypic disease expression cannot be fully explained by the different mutations of the Wilson disease gene. In neurological disorders, such as Alzheimer's disease, temporal lobe epilepsy and cerebral trauma, the presence of the apolipoprotein E (ApoE) allele epsilon4 is associated with an increased vulnerability of the brain to the effects of the disease, whereas the presence of the ApoE genotype epsilon3/3 appears to provide moderate neuroprotection. We examined whether this hypothesis holds true for the development of neurological symptoms in patients with Wilson's disease. The ApoE genotype and the H1069Q mutation (the most common in Wilson's disease) status were determined by polymerase chain reaction-based mutation assays in 121 well-characterized, symptomatic index patients with Wilson's disease. An investigation profile was established in which the patients were grouped according to the clinical symptoms at presentation, the ApoE genotypes and the status of the H1069Q mutation. Fifty-nine per cent of the 121 patients had the allele combination ApoE epsilon3/3 (21% ApoE epsilon3/4, 19% ApoE epsilon3/2, 1% ApoE epsilon4/2). The distribution of ApoE genotypes did not deviate from known distributions in healthy European subjects. Within the group of 40 H1069Q-homozygous patients, the onset of symptoms was significantly delayed in patients with the ApoE epsilon3/3 genotype (25 +/- 6 years at presentation) compared with patients with the ApoE epsilon3/4 genotype (20 +/- 3 years at presentation). In this study, the ApoE genotype was established as an important factor delaying the onset of neurological and hepatic symptoms, but not modifying phenotypic disease expression in a homogeneous group of patients with Wilson's disease (all H1069Q-homozygotes, similar genetic background). The presence of ApoE epsilon3/3 attenuates clinical manifestations in Wilson's disease by mechanisms which might involve the antioxidant and membrane-stabilizing properties of the ApoE 3 protein.

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HILIC analysis of fluorescence-labeled N-glycans from recombinant biopharmaceuticals

Melmer¹,

Stangler²,

Schiefermeier³

et al. 2010

Anal Bioanal Chem

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In contrast with conventional drugs, biopharmaceuticals are highly complex molecules with remarkable heterogeneity. Protein glycosylation is an inherent source of this heterogeneity and also affects the safety, efficacy, and serum half-life of therapeutic glycoproteins. Therefore analysis of the glycan pattern is an important issue for characterization and quality control in the biopharmaceutical industry. In this publication we describe a complete workflow for the analysis of protein N-glycans. The sample-preparation procedure, consisting of the release of the N-glycans by PNGase-F, followed by fluorescence labeling with 2-aminobenzamide and removal of excess label, was optimized to avoid alteration of the glycan sample. Subsequently, labeled glycans were analyzed by hydrophilic-interaction liquid chromatography (HILIC) with fluorescence detection. The developed method was validated for analysis of antibody N-glycans. To demonstrate the accuracy of the method an antibody sample was additionally analyzed by an orthogonal method. The antibody was digested with lysyl endopeptidase and the (glyco-)peptides were analyzed by RP-HPLC-MS. The consistency of the results between these two methods demonstrates the reliability of the glycan analysis method introduced herein.

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Severity of insulin resistance in critically ill medical patients

et al. 2007

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Energy and Substrate Metabolism in Patients With Chronic Extensive Graft-Versus-Host Disease

Zauner

Rabitsch²,

Schneeweiß³

et al. 2001

Transplantation

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