Abstract
Mannose-binding lectin, together with mannose-associated serine proteases, activates the lectin pathway of the complement system and subsequent inflammatory mechanisms. An association between mannose-binding lectin deficiency and anti-Saccharomyces cerevisiae antibody levels is observed in Crohn’s disease and this deficiency is frequently associated with a severe Crohn’s disease phenotype. In the present study, we assessed the relationship between serum concentrations of mannose-binding lectin, mannose-binding lectin functional activity, MBL2 and NOD2 polymorphisms, anti-S. cerevisiae antibody levels and clinical Crohn’s disease phenotype in 69 Crohn’s disease patients and 30 age- and sex-matched healthy controls. The results show that the MBL2 variant rs5030737 at codon 52 was associated with a low level of mannose-binding lectin and impaired mannose-binding lectin–mannose-associated serine protease (MBL-MASP) functional activity in Crohn’s disease patients. This MBL2 variant was also associated with a higher level of anti-S. cerevisiae antibodies. In addition, the NOD2 variant rs2066844, which is associated with susceptibility to Crohn’s disease, was significantly correlated with an impairment in MBL-MASP functional activity. These results provide evidence that Crohn’s disease patients have an impairment in MBL-MASP functional activity and that this defect is associated with MBL2 and NOD2 variants.
Highlights
Immune defence against pathogens and promotes intestinal homeostasis[9,10]
It has been reported that single nucleotide polymorphisms located within the promoter region and exon 1 of the MBL2 gene are correlated with mannose-binding lectin serum levels and, are associated with a higher risk of developing infectious disease
The present study aimed to investigate the relationship between mannose-binding lectin serum concentrations, mannose-binding lectin functional activity, MBL2, MASP1, MASP2 and NOD2 variants, anti-S. cerevisiae antibody levels and clinical Crohn’s disease phenotype in a cohort of Crohn’s disease patients in comparison with healthy subjects
Summary
Immune defence against pathogens and promotes intestinal homeostasis[9,10] This lectin circulates in the blood as a complex with mannose-associated serine proteases. The carbohydrate recognition domain of mannose-binding lectin senses polysaccharide patterns such as D-mannose, L-fucose and N-acetylglucosamine on several clinically relevant pathogens[13] This results in activation of MASP-1 and MASP-2 leading to the complement cascade and to pathogen neutralisation. The association between mannose-binding lectin serum concentrations and MBL2 gene mutations in Crohn’s disease patients has been studied previously, the functional activity of the MBL-MASP complex has not yet been investigated in any clinical cohort of Crohn’s disease patients. The present study aimed to investigate the relationship between mannose-binding lectin serum concentrations, mannose-binding lectin functional activity, MBL2, MASP1, MASP2 and NOD2 variants, anti-S. cerevisiae antibody levels and clinical Crohn’s disease phenotype in a cohort of Crohn’s disease patients in comparison with healthy subjects
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