Lauzier Annie, Charbonneau Martine, Harper Kelly, Jilaveanu-Pelmus Manuela, Dubois Claire M
Department of Pediatrics, Université de Sherbrooke, Sherbrooke, Quebec, Canada.
Arthritis Rheum. 2011 Jun;63(6):1591-602. doi: 10.1002/art.30305.
Invasive synovial fibroblasts are suggested to be the major effectors of cartilage and bone destruction, and this aggressive phenotype can lead to irreversible damage. In cancer cells, invasion across tissue boundaries and metastasis have recently been shown to depend on the capacity of the cells to breach the basement membrane, a process that was linked to the formation of the actin-rich cell protrusions called invadopodia. This study was undertaken to investigate whether arthritic synovial cells use invadopodia to invade and degrade cartilage components.
Fibroblast-like synoviocytes (FLS) from control rats or rats with collagen-induced arthritis (CIA) were cultured on fluorescent matrix in the presence of Src inhibitors or were transfected with wild-type or variants of Src kinases. The in vivo effect of Src inhibition on cartilage degradation and invasion was studied in a rat model of CIA.
FLS from rats with CIA produced more invadopodia-like structures than did FLS from control rats, leading to increased extracellular matrix degradation. Furthermore, c-Src activation was increased in synovial cells from rats with CIA, and Src activity was found to mediate the formation of invadopodia. Pharmacologic blockade of Src activity by PP2 or intraarticular expression of a c-Src-specific short hairpin RNA in the CIA model reduced synovial membrane hyperplasia and cartilage degradation, an event linked to decreased invadopodia formation by synovial fibroblasts.
This study demonstrates that inhibition of invadopodia formation in arthritic synovial cells leads to a direct effect on extracellular matrix degradation in vitro and in vivo, making invadopodia a relevant therapeutic target for interfering with this process.
侵袭性滑膜成纤维细胞被认为是软骨和骨破坏的主要效应细胞,这种侵袭性表型可导致不可逆的损伤。最近研究表明,癌细胞穿越组织边界和转移取决于细胞突破基底膜的能力,这一过程与富含肌动蛋白的细胞突起即侵袭伪足的形成有关。本研究旨在探讨关节炎滑膜细胞是否利用侵袭伪足来侵袭和降解软骨成分。
将来自对照大鼠或胶原诱导性关节炎(CIA)大鼠的成纤维样滑膜细胞(FLS)在存在Src抑制剂的情况下培养于荧光基质上,或用Src激酶的野生型或变体进行转染。在CIA大鼠模型中研究Src抑制对软骨降解和侵袭的体内作用。
与对照大鼠的FLS相比,CIA大鼠的FLS产生了更多的侵袭伪足样结构,导致细胞外基质降解增加。此外,CIA大鼠滑膜细胞中的c-Src激活增加,并且发现Src活性介导侵袭伪足的形成。在CIA模型中,用PP2对Src活性进行药理阻断或关节内表达c-Src特异性短发夹RNA可减少滑膜增生和软骨降解,这一事件与滑膜成纤维细胞侵袭伪足形成减少有关。
本研究表明,抑制关节炎滑膜细胞中侵袭伪足的形成会在体外和体内对细胞外基质降解产生直接影响,使侵袭伪足成为干扰这一过程的相关治疗靶点。
