Elastin is an extracellular matrix component with key structural and biological roles in elastic tissues. Interactions between resident cells and tropoelastin, the monomer of elastin, underpin elastin’s regulation of cellular processes. However, the nature of tropoelastin–cell interactions and the contributions of individual tropoelastin domains to these interactions are only partly elucidated. In this study, we identified and characterized novel cell-adhesive sites in the tropoelastin N-terminal region between domains 12 and 16. We found that this region interacts with aV and a5b1 integrin receptors, which mediate cell attachment and spreading. A peptide sequence from within this region, spanning domains 14 to mid-domain 16, binds heparan sulfate through electrostatic interactions with peptide lysine residues and induces conformational ordering of the peptide. We propose that domains 14–16 direct initial cell attachment through cell-surface heparan sulfate glycosaminoglycans, followed by aV and a5b1 integrin-promoted attachment and spreading on domains 12–16 of tropoelastin. These findings advance our mechanistic understanding of elastin matrix biology, with the potential to enhance tissue regenerative outcomes of elastin-based materials.
Domains 12 to 16 of tropoelastin promote cell attachment and spreading through interactions with glycosaminoglycan and integrins alphaV and alpha5beta1
Brigida BochicchioWriting – Original Draft Preparation
;Antonietta PepeData Curation
;Antonio Laezza;Nicola Ciarfaglia;
2021-01-01
Abstract
Elastin is an extracellular matrix component with key structural and biological roles in elastic tissues. Interactions between resident cells and tropoelastin, the monomer of elastin, underpin elastin’s regulation of cellular processes. However, the nature of tropoelastin–cell interactions and the contributions of individual tropoelastin domains to these interactions are only partly elucidated. In this study, we identified and characterized novel cell-adhesive sites in the tropoelastin N-terminal region between domains 12 and 16. We found that this region interacts with aV and a5b1 integrin receptors, which mediate cell attachment and spreading. A peptide sequence from within this region, spanning domains 14 to mid-domain 16, binds heparan sulfate through electrostatic interactions with peptide lysine residues and induces conformational ordering of the peptide. We propose that domains 14–16 direct initial cell attachment through cell-surface heparan sulfate glycosaminoglycans, followed by aV and a5b1 integrin-promoted attachment and spreading on domains 12–16 of tropoelastin. These findings advance our mechanistic understanding of elastin matrix biology, with the potential to enhance tissue regenerative outcomes of elastin-based materials.File | Dimensione | Formato | |
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febs.15702.pdf
Open Access dal 07/07/2021
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