Publications by authors named "Connor A West"
N-glycosylation is an abundant post-translational modification of most cell-surface proteins. N-glycans play a crucial role in cellular functions like protein folding, protein localization, cell-cell signaling, and immune detection. As different tissue types display different N-glycan profiles, changes in N-glycan compositions occur in tissue-specific ways with development of disease, like cancer.
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- - The study focuses on using MALDI imaging mass spectrometry (IMS) to analyze N-glycan distributions in FFPE tissues, which helps in understanding various diseases better.
- - New techniques, such as sialic acid chemical derivatization and the use of endoglycosidase F3, are applied to identify isomeric structures and linkages of N-glycans for more specific localization in tissues.
- - The proposed workflow combines these chemical and enzymatic methods to enhance the characterization of fucosylation isomers in the same tissue sample, providing deeper insights into glycan structure.
Article Synopsis
- Early detection of pancreatic ductal adenocarcinoma (PDAC) is crucial for improving patient survival, but current carbohydrate biomarkers like CA19-9 and sTRA are not effective in differentiating PDAC from other cancers or non-cancerous conditions.* -
- Researchers used imaging mass spectrometry (IMS) and immunofluorescence to analyze the N-glycome in pancreatic tissues, revealing distinct differences in glycan structures and localization between healthy and cancerous tissues.* -
- The study found unique sulfated N-glycans in normal pancreatic islets and identified distinctive glycan patterns associated with CA19-9 and sTRA, suggesting potential new biomarkers that could enhance PDAC diagnosis.*
Specific alterations in N-linked glycans, such as core fucosylation, are associated with many cancers and other disease states. Because of the many possible anomeric linkages associated with fucosylated -glycans, determination of specific anomeric linkages and the site of fucosylation (i.e.
View Article and Find Full Text PDFA new platform for N-glycoprotein analysis from serum that combines matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI MSI) workflows with antibody slide arrays is described. Antibody panel based (APB) N-glycan imaging allows for the specific capture of N-glycoproteins by antibodies on glass slides and N-glycan analysis in a protein-specific and multiplexed manner. Development of this technique has focused on characterizing two abundant and well-studied human serum glycoproteins, alpha-1-antitrypsin and immunoglobulin G.
View Article and Find Full Text PDFMatrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) has been used for two decades to profile the glycan constituents of biological samples. An adaptation of the method to tissues, MALDI mass spectrometry imaging (MALDI-MSI), allows high-throughput spatial profiling of hundreds to thousands of molecules within a single thin tissue section. The ability to profile N-glycans within tissues using MALDI-MSI is a recently developed method that allows identification and localization of 40 or more N-glycans.
View Article and Find Full Text PDFHepatocellular carcinoma (HCC) remains as the fifth most common cancer in the world and accounts for more than 700,000 deaths annually. Changes in serum glycosylation have long been associated with this cancer but the source of that material is unknown and direct glycan analysis of HCC tissues has been limited. Our laboratory previously developed a method of in situ tissue based N-linked glycan imaging that bypasses the need for microdissection and solubilization of tissue prior to analysis.
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