Interstitial fluid flow induces myofibroblast differentiation and collagen alignment in vitro

doi:10.1242/jcs.02605

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JCS ePress online publication date 27 Sep 2005
doi: 10.1242/jcs.02605

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Research Article

Interstitial fluid flow induces myofibroblast differentiation and collagen alignment in vitro

Chee Ping Ng, Boris Hinz, and Melody A. Swartz^*
^* Author for correspondence (e-mail: melody.swartz{at}epfl.ch)

The differentiation of fibroblasts to contractile myofibroblasts,which is characterized by de novo expression of ${alpha}$ -smooth muscleactin ( ${alpha}$ -SMA), is crucial for wound healing and a hallmark oftissue scarring and fibrosis. These processes often follow inflammatoryevents, particularly in soft tissues such as skin, lung andliver. Although inflammatory cells and damaged epithelium canrelease transforming growth factor ${beta}$ ₁ (TGF- ${beta}$ ₁), which largelymediates myofibroblast differentiation, the biophysical environmentof inflammation and tissue regeneration, namely increased interstitialflow owing to vessel hyperpermeability and/or angiogenesis,may also play a role. We demonstrate that low levels of interstitial(3D) flow induce fibroblast-to-myofibroblast differentiationas well as collagen alignment and fibroblast proliferation,all in the absence of exogenous mediators. These effects wereassociated with TGF- ${beta}$ ₁ induction, and could be eliminated withTGF- ${beta}$ ₁ blocking antibodies. Furthermore, ${alpha}$ ₁ ${beta}$ ₁ integrin was seento play an important role in the specific response to flow,as its inhibition prevented fibroblast differentiation and subsequentcollagen alignment but did not block their ability to contractthe gel in a separate floating gel assay. This study suggeststhat the biophysical environment that often precedes fibrosis,such as swelling, increased microvascular permeability and increasedlymphatic drainage - all which involve interstitial fluid flow- may itself play an important role in fibrogenesis.

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