Glycan:glycan interactions: High affinity biomolecular interactions that can mediate binding of pathogenic bacteria to host cells

Day, Christopher J.; Tran, Elizabeth Ngoc Hoa; Semchenko, Evgeny A.; Tram, Greg; Hartley-Tassell, Lauren E.; Ng, Peggy; King, Rebecca M.; Ulanovsky, Rachel; McAtamney, Sarah; Apicella, Michael A.; Tiralongo, Joe; Morona, Renato; Korolik, Victoria; Jennings, Michael P.

doi:10.1073/pnas.1421082112

Cited by 101 publications

(107 citation statements)

References 68 publications

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“…This is in agreement with the role of N-glycans of integrins (Janik et al, 2010;Gu et al, 2012), which are transmembrane proteins involved in mechanotransduction by facilitating interactions with the ECM (Schwartz, 2010). The proposed new role of N-glycans as facilitators of mechanical activation of ion channels is also supported by studies identifying that glycan/glycan interactions provide a high binding strength that facilitates binding of bacteria to host cells (Day et al, 2015), but also cell adhesion in multicellular organisms (Popescu et al, 2003).…”

Section: Discussionsupporting

confidence: 79%

Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

Knoepp

Ashley

Barth

et al. 2017

Preprint

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Section: Discussionsupporting

confidence: 79%

Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

Knoepp

Ashley

Barth

et al. 2017

Preprint

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“…Almost all membrane and secreted proteins of mammals, 1 as well as numerous cytoplasm and nucleus proteins [2][3][4] are glycosylated. It has been well documented that N-glycans play crucial roles in many biological processes such as cell growth and development, 5,6 immune recognition, 7-9 cell-cell communication, 10 infectivity of many pathogenic bacteria 11,12 and most viruses.…”

Section: Introductionmentioning

confidence: 99%

A facile method for cellular N-glycomic profiling by matrix-assisted laser desorption/ionization mass spectrometry

et al. 2017

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Conventional protocols for cellular N-glycan profiling often need several time-consuming and laborintensive steps, and a large amount of material (5-20 Â 10 6 cells) is required. In this study, an optimized co-derivatization method was applied for convenient, rapid and highly-sensitive analysis of cellular Nglycan. Taking human cervical carcinoma cells (HeLa) as a model, the required amount for comprehensive cellular N-glycans analysis was reduced down to an original cell number of 10 5 and the total analysis time was decreased from several days to several hours. Good reproducibility of the method was also obtained with the CV averaging to less than 13.1%. In addition, compared to permethylation derivatization, more than 5-fold sensitivity improvement was achieved and more concise and clear mass spectra were obtained with the new developed method. As a preliminary study, this method was also

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“…The carbohydrate moieties of LOS are antigens presented on the bacterial cell surface that can interact with host proteins [15] and host glycans [16]. Some LOS carbohyd r a t e m o i e t i e s m i m i c h u m a n g l y c o l i p i d a n d glycosphingolipid structures [17,18].…”

mentioning

confidence: 99%

Analysis of Bacterial Lipooligosaccharides by MALDI-TOF MS with Traveling Wave Ion Mobility

Phillips

John

Jarvis

2016

J. Am. Soc. Mass Spectrom.

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LOS MALDI IMS-MSAbstract. Lipooligosaccharides (LOS) are major microbial virulence factors displayed on the outer membrane of rough-type Gram-negative bacteria. These amphipathic glycolipids are comprised of two domains, a core oligosaccharide linked to a lipid A moiety. Isolated LOS samples are generally heterogeneous mixtures of glycoforms, with structural variability in both domains. Traditionally, the oligosaccharide and lipid A components of LOS have been analyzed separately following mild acid hydrolysis, although important acid-labile moieties can be cleaved. Recently, an improved method was introduced for analysis of intact LOS by MALDI-TOF MS using a thin layer matrix composed of 2,4,6-trihydroxyacetophenone (THAP) and nitrocellulose. In addition to molecular ions, the spectra show in-source Bprompt^fragments arising from regiospecific cleavage between the lipid A and oligosaccharide domains. Here, we demonstrate the use of traveling wave ion mobility spectrometry (TWIMS) for IMS-MS and IMS-MS/MS analyses of intact LOS from Neisseria spp. ionized by MALDI. Using IMS, the singly charged prompt fragments for the oligosaccharide and lipid A domains of LOS were readily separated into resolved ion plumes, permitting the extraction of specific subspectra, which led to increased confidence in assigning compositions and improved detection of less abundant ions. Moreover, IMS separation of precursor ions prior to collision-induced dissociation (CID) generated time-aligned, clean MS/MS spectra devoid of fragments from interfering species. Incorporating IMS into the profiling of intact LOS by MALDI-TOF MS exploits the unique domain structure of the molecule and offers a new means of extracting more detailed information from the analysis.

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Glycan:glycan interactions: High affinity biomolecular interactions that can mediate binding of pathogenic bacteria to host cells

Cited by 101 publications

References 68 publications

Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

A facile method for cellular N-glycomic profiling by matrix-assisted laser desorption/ionization mass spectrometry

Analysis of Bacterial Lipooligosaccharides by MALDI-TOF MS with Traveling Wave Ion Mobility

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Glycan:glycan interactions: High affinity biomolecular interactions that can mediate binding of pathogenic bacteria to host cells

Cited by 101 publications

References 68 publications

Mechanical activation of epithelial Na+channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

Mechanical activation of epithelial Na+channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

A facile method for cellular N-glycomic profiling by matrix-assisted laser desorption/ionization mass spectrometry

Analysis of Bacterial Lipooligosaccharides by MALDI-TOF MS with Traveling Wave Ion Mobility

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Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC

Mechanical activation of epithelial Na⁺channel relies on an interdependent activity of the extracellular matrix and extracellularN-glycans of αENaC