Role of versican in extracellular matrix formation: analysis in 3D culture

Three-dimensional cell culture creates an environment that allows cells to grow and interact with the surrounding extracellular framework. Versican plays a pivotal role in forming the provisional matrix, but it is still unclear how this proteoglycan affects the formation of the extracellular matrix. Here, we established a three-dimensional culture system using fibrin gel, which enables a long-term culture up to a month. With this system, we characterized fibroblasts obtained from the newborn knock-in homozygotes, termed R/R, expressing ADAMTS-resistant versican and wild-type mice. R/R fibroblasts showed higher levels of versican deposition than wild-type, demonstrating that the initial ADAMTS-cleavage site is involved in versican turnover. These fibroblasts exhibited faster proliferation and myofibroblastic differentiation, concomitant with higher levels of TGFβ-signaling. R/R fibroblast culture had higher deposition levels of fibronectin, type I and V collagens, and fibrillin-1, especially at the late stages of culture. These results suggest that versican expressed by dermal fibroblasts facilitates the extracellular matrix formation, at least by affecting fibroblast behavior.