Suhas Ballal scite author profile

Lectins are carbohydrate binding proteins that are gaining attention as important tools for the identification of specific glycan markers expressed during different stages of the cancer. We earlier reported the purification of a mitogenic lectin from human pathogenic fungus Cephalosporium curvulum (CSL) that has complex sugar specificity when analysed by hapten inhibition assay. In the present study, we report the fine sugar specificity of CSL as determined by glycan array analysis. The results revealed that CSL has exquisite specificity towards core fucosylated N-glycans. Fucosylated trimannosyl core is the basic structure required for the binding of CSL. The presence of fucose in the side chain further enhances the avidity of CSL towards such glycans. The affinity of CSL is drastically reduced towards the non-core fucosylated glycans, in spite of their side chain fucosylation. CSL showed no binding to the tested O-glycans and monosaccharides. These observations suggest the unique specificity of CSL towards core fucosylated N-glycans, which was further validated by binding of CSL to human colon cancer epithelial and hepatocarcinoma cell lines namely HT29 and HepG2, respectively, that are known to express core fucosylated N-glycans, using AOL and LCA as positive controls. LCA and AOL are fucose specific lectins that are currently being used clinically for the diagnosis of hepatocellular carcinomas. Most of the gastrointestinal markers express core fucosylated N-glycans. The high affinity and exclusive specificity of CSL towards α1-6 linkage of core fucosylated glycans compared to other fucose specific lectins, makes it a promising molecule that needs to be further explored for its application in the diagnosis of gastrointestinal cancer.

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An overview of lectin–glycan interactions: a key event in initiating fungal infection and pathogenesis

Ballal

2018

Arch Microbiol

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Infections due to microfungi are of serious concern in many parts of the world. Many species of microfungi are known to cause systemic infection in human beings. Pathogenic microorganisms employ various molecular strategies for colonizing a susceptible host. Recent studies have shown the importance of lectins from microfungi that enable the pathogen to interact with the host, resulting in host immune response. These fungal lectins or adhesins show specific affinities to the glycans present on the membrane proteins or lipids. Binding of the pathogen to the receptors, probably toll-like receptors or dectins, present on the host cell surface triggers/initiates a cascade of signalling pathways, leading to the activation of transcription factors such as NF-κB resulting in the release of proinflammatory cytokines which in turn recruit cells of the immune system to the site of microbial insult to combat the pathogen or resulting in pathogenesis. In this review, we will focus on the interaction between fungal lectins and the host glycans initiating pathogenesis and how the host immune system tries to suppress the pathogenesis.

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Rhizoctonia bataticola lectin (RBL) induces phenotypic and functional characteristics of macrophages in THP-1 cells and human monocytes

Pujari¹,

Kumar²,

Ballal³

et al. 2015

Immunology Letters

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Suhas Ballal

Association of Cigarette Smoking With Superoxide Dismutase Enzyme Levels in Subjects With Chronic Periodontitis

Site-specific N-Linked Glycosylation of Receptor Guanylyl Cyclase C Regulates Ligand Binding, Ligand-mediated Activation and Interaction with Vesicular Integral Membrane Protein 36, VIP36

Exquisite specificity of mitogenic lectin from Cephalosporium curvulum to core fucosylated N-glycans

An overview of lectin–glycan interactions: a key event in initiating fungal infection and pathogenesis

Rhizoctonia bataticola lectin (RBL) induces phenotypic and functional characteristics of macrophages in THP-1 cells and human monocytes

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