Amy K. Schaefer scite author profile

Natural modifications of peptidoglycan modulate the innate immune response. Peptidoglycan derivatives activate this response via the intracellular innate immune receptor, Nod2. To probe how these modifications alter the response, a novel and eficient carbohydrate synthesis was developed to allow for late-stage modification of the amine at the 2-position. Modification of the carbohydrate was found to be important for stabilizing Nod2 and generating the proper response. The native Nod2 ligands demonstrate a significant increase in the cellular stability of Nod2. Moreover, changing the identity of the natural ligands at the carbohydrate 2-position allows for the Nod2-dependent immune response to be either up-regulated or down-regulated. The ligand structure can be adjusted to tune the Nod2 response, suggesting that other innate immune receptors and their ligands could use a similar strategy.

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Recovery of Chinese hamster ovary host cell proteins for proteomic analysis

Valente

Schaefer

Kempton

et al. 2013

Biotechnology Journal

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Identification and characterization of Chinese hamster ovary (CHO) host cell protein (HCP) impurities by proteomic techniques can aid bioprocess design and lead to more efficient development and improved biopharmaceutical manufacturing operations. Recovery of extracellular CHO HCP for proteomic analysis is particularly challenging due to the relatively low protein concentration and complex composition of media. We developed optimized protocols that improve proteome capture for CHO HCP. Eleven precipitation protocols were screened for protein recovery and optimized for a subset of the precipitants by a design of experiments approach. Because total protein recovery cannot describe physicochemical characteristics of proteins or detect non-protein agents, which may interfere with proteomic methods, a subset of precipitation conditions were compared by two-dimensional electrophoresis and liquid chromatography coupled with mass spectrometry, with optimized recovery shown to differ between the two proteomic methods. This work demonstrates broadly applicable methods that can be applied as initial steps to optimize sample preparation of any sample type for proteomic analysis and presents optimized precipitation protocols for extracellular CHO HCP recovery, which can vary appreciably between gel-based and shotgun proteomic methods.

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Membrane Association Dictates Ligand Specificity for the Innate Immune Receptor NOD2

et al. 2017

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The human gut must regulate its immune response to resident and pathogenic bacteria, numbering in the trillions. The peptidoglycan component of the bacterial cell wall is a dense and rigid structure that consists of polymeric carbohydrates and highly cross-linked peptides which offers protection from the host and surrounding environment. Nucleotide-binding oligomerization domain-containing protein 2 (NOD2), a human membrane-associated innate immune receptor found in the gut epithelium and mutated in an estimated 30% of Crohn’s disease patients, binds to peptidoglycan fragments and initiates an immune response. Using a combination of chemical synthesis, advanced analytical assays, and protein biochemistry, we tested the binding of a variety of synthetic peptidoglycan fragments to wild-type (WT)-NOD2. Only when the protein was presented in the native membrane did binding measurements correlate with a NOD2-dependent nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) response, supporting the hypothesis that the native-membrane environment confers ligand specificity to the NOD2 receptor for NF-κB signaling. While N-acetyl-muramyl dipeptide (MDP) has been thought to be the minimal peptidoglycan fragment necessary to activate a NOD2-dependent immune response, we found that fragments with and without the dipeptide moiety are capable of binding and activating a NOD2-dependent NF-κB response, suggesting that the carbohydrate moiety of the peptidoglycan fragments is the minimal functional epitope. This work highlights the necessity of studying NOD2-ligand binding in systems that resemble the receptor’s natural environment, as the cellular membrane and/or NOD2 interacting partners appear to play a crucial role in ligand binding and in triggering an innate immune response.

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Pathogen- and Microbial- Associated Molecular Patterns (PAMPs/MAMPs) and the Innate Immune Response in Crohn’s Disease

Schaefer

Melnyk

et al. 2018

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The Use of Gas Chromatography and Mass Spectrometry To Introduce General Chemistry Students to Percent Mass and Atomic Mass Calculations

Pfennig

Schaefer

2011

J. Chem. Educ.

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A general chemistry laboratory experiment is described that introduces students to instrumental analysis using gas chromatography−mass spectrometry (GC−MS), while simultaneously reinforcing the concepts of mass percent and the calculation of atomic mass. Working in small groups, students use the GC to separate and quantify the percent composition in a mixture of dichloromethane and chloroform dissolved in toluene by the injection of known quantities of each pure substance dissolved in toluene and the determination of the individual instrumental response factor. The relative abundances of the chlorine-35 and chlorine-37 isotopes can also be determined from several different groupings on the mass spectra of the compounds, allowing for the calculation of the atomic mass of chlorine. This collaborative-learning experiment enhances student understanding through the hands-on use of chemical instrumentation and helps to develop their problem solving skills in the analysis of several different types of experimental data.

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Amy K. Schaefer

Peptidoglycan Modifications Tune the Stability and Function of the Innate Immune Receptor Nod2

Recovery of Chinese hamster ovary host cell proteins for proteomic analysis

Membrane Association Dictates Ligand Specificity for the Innate Immune Receptor NOD2

Pathogen- and Microbial- Associated Molecular Patterns (PAMPs/MAMPs) and the Innate Immune Response in Crohn’s Disease

The Use of Gas Chromatography and Mass Spectrometry To Introduce General Chemistry Students to Percent Mass and Atomic Mass Calculations

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