Hippo/YAP1 inhibition by verteporfin attenuates osteophyte formation in a mouse surgical osteoarthritis model.

Osteophyte is an outgrowth of cartilage formed at the margins of the affected joint through endochondral ossification-like processes, and is one of the most common radiographic features of osteoarthritis (OA) that has been used to define the stage of disease. Osteophyte has been regarded to adapt the joint to the altered biomechanics of OA patients, limits joint movement and represent a source of joint pain, however, the mechanism of osteophyte formation, the morphology characteristics and biomechanical properties of osteophyte cells are remained unclear. In the present study, we isolated osteophyte cells and chondrocytes from late-stage OA patients who underwent total knee replacement surgeries, by applying Atomic Force Microscopy (AFM), we identified osteophyte cells were in irregular shape with dendrites, shrunk cell body, smooth surface and high elastic modulus (23.3 ± 5.4 kPa) when compared with chondrocytes (6.5 ± 1.8 kPa). In addition, osteophyte cells showed higher proliferation ability and colony formation capacity than chondrocytes. Mechanistically, we identified YAP1, the core transcriptional factor of Hippo signaling pathway, was highly expressed in osteophyte cell both at protein and RNA levels. Inactivation of Hippo/YAP1 signaling pathway by Verteporfin is sufficient to inhibit osteophyte cell proliferation in vitro and attenuate osteophyte formation in vivo. In conclusion, the morphology characteristic and biomechanical property of osteophyte cells at single cell level are quite different from chondrocytes, although we could not exclude other regulatory mechanisms, our findings suggested that Hippo/YAP1 is of great importance for osteophyte formation.