Homotypic Versican G1 Domain Interactions Enhance Hyaluronan Incorporation into Fibrillin Microfibrils

Yusuke Murasawa,Ken Watanabe,Masahiko Yoneda,Masahiro Zako,Koji Kimata,Lynn Y Sakai,Zenzo Isogai

doi:10.1074/jbc.m113.456947

Abstract

Versican G1 domain-containing fragments (VG1Fs) have been identified in extracts from the dermis in which hyaluronan (HA)-versican-fibrillin complexes are found. However, the molecular assembly of VG1Fs in the HA-versican-microfibril macrocomplex has not yet been elucidated. Here, we clarify the role of VG1Fs in the extracellular macrocomplex, specifically in mediating the recruitment of HA to microfibrils. Sequential extraction studies suggested that the VG1Fs were not associated with dermal elements through HA binding properties alone. Overlay analyses of dermal tissue sections using the recombinant versican G1 domain, rVN, showed that rVN deposited onto the elastic fiber network. In solid-phase binding assays, rVN bound to isolated nondegraded microfibrils. rVN specifically bound to authentic versican core protein produced by dermal fibroblasts. Furthermore, rVN bound to VG1Fs extracted from the dermis and to nondenatured versican but not to fibrillin-1. Homotypic binding of rVN was also seen. Consistent with these binding properties, macroaggregates containing VG1Fs were detected in high molecular weight fractions of sieved dermal extracts and visualized by electron microscopy, which revealed localization to microfibrils at the microscopic level. Importantly, exogenous rVN enhanced HA recruitment both to isolated microfibrils and to microfibrils in tissue sections in a dose-dependent manner. From these data, we propose that cleaved VG1Fs can be recaptured by microfibrils through VG1F homotypical interactions to enhance HA recruitment to microfibrils.

Highlights

Versican interacts with hyaluronan (HA) via its G1 domain and with fibrillin microfibrils via its G3 domain
We clarified the structural properties of versican fragments containing the G1 domain and Versican G1 domain-containing fragments (VG1Fs) in the HA-microfibril network in the dermis, where HA-versican-microfibril complexes are associated, and demonstrated that VG1Fs homotypically interacted with and incorporated HA into dermal microfibrils
It seems likely that VG1Fs require protein ligands to localize to the fibrillin microfibril network in the normal dermis

Summary

Background

Versican interacts with hyaluronan (HA) via its G1 domain and with fibrillin microfibrils via its G3 domain. Versican G1 domain-containing fragments (VG1Fs) have been identified in extracts from the dermis in which hyaluronan (HA)-versican-fibrillin complexes are found. Consistent with these binding properties, macroaggregates containing VG1Fs were detected in high molecular weight fractions of sieved dermal extracts and visualized by electron microscopy, which revealed localization to microfibrils at the microscopic level. Exogenous rVN enhanced HA recruitment both to isolated microfibrils and to microfibrils in tissue sections in a dose-dependent manner. From these data, we propose that cleaved VG1Fs can be recaptured by microfibrils through VG1F homotypical interactions to enhance HA recruitment to microfibrils. Our findings highlight novel properties of VG1Fs and suggest an important role for VG1Fs in the formation of the microfibril-versican-HA complex

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION