Helicobacter pylori binds to the gastric mucin, MUC5AC, and to trefoil factor, TFF1, which has been shown to interact with gastric mucin. We examined the interactions of TFF1 and H. pylori with purified gastrointestinal mucins from different animal species and from humans printed on a microarray platform to investigate whether TFF1 may play a role in locating H. pylori in gastric mucus. TFF1 bound almost exclusively to human gastric mucins and did not interact with human colonic mucins. There was a strong correlation between binding of TFF1 and H. pylori to human gastric mucins, and between binding of both TFF1 and H. pylori to gastric mucins with that of Griffonia simplicifolia lectin-II, which is specific for terminal non-reducing α- or β-linked N-acetyl-d-glucosamine. These results suggest that TFF1 may help to locate H. pylori in a discrete layer of gastric mucus and hence restrain their interactions with epithelial cells.
Oestrus is the period in the sexual cycle of female mammals where they become most receptive to mating and are most fertile. Efficient detection of oestrus is a key component...
Background Glycosylation is a post translational modification which results in the addition of carbohydrate determinants to proteins and lipids. This has a major influence on the function of molecules known to be important in myeloma cell adhesion and trafficking such as integrins and selectins. We previously reported that ST3GAL6, a sialyltransferase involved in the synthesis of functional selectin ligands in humans, is over expressed in myeloma cells and associated with inferior survival in the MRC Myeloma IX study (MRC IX). We now extend our analysis of the MRC IX dataset to evaluate the potential prognostic significance of other glycosylation genes that are differentially regulated between normal and malignant plasma cells. Methods Analyzing publically available microarray transcriptomic datasets (Mayo Clinic GSE6477, University of Arkansas (UAMS) GSE24080, GSE2658) we first identified dysregulated glycosylation genes in MM. The prognostic significance of these candidate genes in MRCIX (singly and in combination) was analyzed using Kaplan Meier survival estimates for progression free survival and overall survival (PFS, OS). These results were validated in independent datasets (TT2 and TT3). Any genes significantly associated with survival were correlated with FISH abnormalities and ISS and multivariate analysis was performed to determine their independence as prognostic factors. QPCR was performed in cell lines to validate GEP findings. Matching SNP-based mapping array and methylation array data were analyzed. Membrane protein extracts from MM cell lines were applied directly to lectin microarrays following fluorescent labeling to generate cell surface glycan profiles. Immunohistochemistry for glycosylation enzymes and glycans was performed on patient bone marrow samples. Results High expression (top quartile as cut-off) of the sialyltransferase gene ST3GAL1 showed a trend towards inferior OS (median survival 35 mos .v. 45 mos, p=0.07) with significantly reduced PFS (19 .v. 14 mos, p=0.015). Increased expression of ST3GAL1 correlated with the presence of t(4;14) (p=0.009), del13q (p=0.001), +1q (p=0.01) and hypodiploidy (p=0.00001). Low expression (lower quartile by GEP) of the gene FUCA1, which encodes tissue alpha-L-fucosidase, was linked to inferior outcome (median OS 44 .v. 38 mos, p=0.025). On multivariate analysis low FUCA1 expression was independent of other important prognostic factors (HR=1.61, p=0.017). Patients with t(11;14) by FISH were more likely to have low FUCA1 than t(11;14) negative patients. There was no significant association between ISS and ST3GAL6, ST3GAL1 or FUCA1. We verified the effect of low FUCA1 in the GSE24080 dataset from TT2 and TT3 combined. Patients with low FUCA1 had significantly worse OS (p=0.0002). SNP mapping array and methylation array analysis did not show any evidence of correlation between copy number alterations or hypermethylation of FUCA1 and its low expression level. Since FUCA1 participates in N-glycan degradation with removal of fucose residues, this raises the possibility that a reduction in FUCA1 may lead to excessive fucosylation of cancer related glycans involved in adhesion and trafficking, such as sLex. Indeed, lectin arrays of MM cell lines revealed high levels of a-1,3/a-1,6 linked fucose, as determined by binding of Aleuria Aurantia Lectin (AAL). The HECA-452 antibody recognizes a functional trisaccharide domain shared by sialyl Lewis a and sLex and known to bind to E-selectin. Preliminary immunohistochemistry revealed increased HECA452 staining in bone marrow samples, which had both strong ST3GAL6 and low FUCA1 staining. Combining gene expression data showed that reduced expression of FUCA1 with increased expression of either ST3GAL6 or ST3GAL1 or both, identified a subgroup of patients (18%) in MRC Myeloma IX with particularly poor outcome (figure 1). Similar results were found in TT2 and TT3 with 17% of patients affected. Conclusions Altered glycosylation gene expression patterns may identify patients at high risk of disease progression and early death. Our data implicates sialyltransferases and selectin ligands as potential therapeutic targets in MM. Disclosures: Morgan: Celgene: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees; Millenium: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees; Novartis: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees; Merck: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees; Johnson and Johnson: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees. Ghobrial:Onyx: Advisoryboard Other; BMS: Advisory board, Advisory board Other, Research Funding; Noxxon: Research Funding; Sanofi: Research Funding.
2931 Background Alterations in glycosylation are associated with malignant transformation, with growing evidence implicating the dysregulation of glycosylation genes (glyco-genes) in multiple myeloma (MM). P selectin glycoprotein ligand-1 (PSGL1), recently reported to be important in MM cell adhesion and trafficking is over expressed by MM cells. Importantly, the generation of functional selectin ligands requires post-translational modification of scaffold proteins by glycosyltransferases and sialyltransferases generating selectin ligands such as Sialyl Lewis X (sLex). This background led us to undertake a comprehensive evaluation of the role glyco-genes in MM disease progression. Methods Analyzing publically available microarray transcriptomic datasets (Mayo Clinic GSE6477, University of Arkansas (UAMS) GSE24080, GSE2658) we sought to identify dysregulated glyco-genes in MM. The most significantly dysregulated genes were validated using real time quantitative PCR (RT_PCR) in the MM cell lines RPMI8226 and MMIR and in primary MM patient CD138 positive cells. The prognostic significance of any dysregulated genes was analyzed using Kaplan Meier survival estimates. Membrane protein extracts from MM cell lines were applied directly to lectin microarrays following fluorescent labeling to generate cell surface glycan profiles. Protein expression was assessed by immunohistochemistry (IHC) on primary MM bone marrow sections from MM patients and healthy controls. Lectin based flow cytometry was used to assess for the binding of sialic acid lectins to MM cell line RPMI8226. Results Gene expression microarray dataset analysis confirmed the over-expression of genes related to the process of glycosylation in MM. Seventy-three genes were differentially expressed (> 2 fold change in MM from combined datasets). Nineteen genes were dysregulated in smoldering MM, 12 of which were common to MM. Thirteen were differentially regulated in MGUS, 6 of which were common to both MM and MGUS. One of these genes, the sialyltransferase ST3GAL6 (ST3 beta-galactosidase, alpha-2,3-sialyltransferase 6), which plays a critical role in generation of functional selectin ligands such as sLex, was upregulated in MM (fold change = 2.67) and smoldering MM (fold change = 2.22) but was absent in MGUS. Patients from GSE24080 (n=509) were stratified into two groups based on their expression intensities for ST3GAL6. Patients with higher normalized intensity values corresponding to probeset ID 210942_s_at (ST3GAL6) were found to have a lower median overall survival compared to their lower expressing counterparts. The difference in overall survival observed was 5.13 months (p <0.001 CI 1.3, 8.9). The association with reduced survival was independently verified in the MRC Myeloma IX microarray dataset (n=260). In this dataset using the median expression of ST3GAL6 as a cutoff there was a statistically significant reduction on overall survival with higher expression of ST3GAL6 (median OS 35.7 vs. 48 months, log rank test p=0.04) RT-PCR analysis validated the over expression of glycogenes, including ST3GAL6 in MM cell lines and primary samples compared to healthy controls. We observed a trend for higher fold changes for ST3GAL6 in samples from patients with relapsed/refractory disease compared to those with responsive disease. IHC for ST3GAL6 on primary bone marrow sections from MM patients (n=57), demonstrated specific Golgi staining compared to controls. Consistent with the over expression of ST3GAL6 lectin microarray analysis of membrane protein extracts from MM cell lines RPMI8226 and MMIR showed binding to sialic acid-specific lectins Maackia amurensis agglutinin (MAA), which is specific for a2–3 linked sialic acids, and Sambucus nigra(SNA) which is specific for a2–6 linked sialic acids. This pattern was confirmed using biotinylated lectin based flow cytometry, which demonstrated a shift in allophycocyanin (APC) median fluorescence intensity for these lectins on RPMI8226 cells. Conclusions Glyco-genes, including the sialyltransferase ST3GAL6, are differentially regulated in all stages of MM with potential effects on MM biology and survival. Upregulation of ST3GAL6 may play an important role in MM cell trafficking and in this analysis is associated with inferior survival. Studies are ongoing to address the roles of ST3GAL6 over expression and altered sialylation in MM cell adhesion and trafficking. Disclosures: Morgan: Novartis: Consultancy; Celgene: Consultancy; J&J: Consultancy.
Correction for ‘Examination of oestrus-dependent alterations of bovine cervico-vaginal mucus glycosylation for potential as optimum fertilisation indicators’ by Marie Le Berre et al., Mol. Omics, 2021, 17, 338–346, DOI: 10.1039/D0MO00193G.
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