Immunoglobulin-Like Protein B Interacts with the 20th Exon of Human Tropoelastin Contributing to Adhesion to Human Lung Cells
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immunoglobulin-like protein B (LigB)�, a surface adhesin���, is capable of mediating the attachment of pathogenic to the host through interaction with various components of the extracellular matrix (ECM). Human tropoelastin (HTE)����, the building block of elastin, confers resilience and elasticity to lung, and other tissues. Previously identified Ig-like domains of LigB�, including LigB4 and LigB12�, bind to HTE��, which is likely to promote adhesion to lung tissue. However�����, the molecular mechanism that mediates the LigB-HTE interaction is unclear. In this study��, the LigB-binding site on HTE was further pinpointed to a N-terminal region of the 20th exon of HTE (HTE20N). Alanine mutants of basic and a... More
immunoglobulin-like protein B (LigB)�����, a surface adhesin, is capable of mediating the attachment of pathogenic to the host through interaction with various components of the extracellular matrix (ECM). Human tropoelastin (HTE)�, the building block of elastin��, confers resilience and elasticity to lung, and other tissues. Previously identified Ig-like domains of LigB�, including LigB4 and LigB12����, bind to HTE�, which is likely to promote adhesion to lung tissue. However, the molecular mechanism that mediates the LigB-HTE interaction is unclear. In this study����, the LigB-binding site on HTE was further pinpointed to a N-terminal region of the 20th exon of HTE (HTE20N). Alanine mutants of basic and aromatic residues on HTE20N significantly reduced binding to the LigB. Additionally�, HTE-binding site was narrowed down to the first β-sheet of LigB12. On this binding surface�����, residues F1054����, D1061�����, A1065�, and D1066 were critical for the association with HTE. Most importantly, the recombinant HTE truncates could diminish the binding of LigB to human lung fibroblasts (WI-38) by 68%, and could block the association of LigA-expressing to lung cells by 61%. These findings should expand our understanding of leptospiral pathogenesis�, particularly in pulmonary manifestations of leptospirosis.
Leptospira�,LigB���,extracellular matrix proteins���,outer surface protein���,protein-protein interaction��,tropoela
