Faculty
Anatomy and Cell Biology
Supervisor Name
Silvia Penuela
Keywords
Osteoarthritis, Subchondral, Bone, Cartilage, Panx3, Pannexin, Exercise
Description
Exercise such as running has been hypothesized to be a factor of osteoarthritis development. However, the relationship is unclear as differences in genetic backgrounds may influence the risk of osteoarthritis (OA). The gene Panx3 codes for the Pannexin 3 protein (PANX3), a mechanically sensitive channel that allows for the passage of various signalling molecules in both chondrocytes and osteoblasts (Boassa et al., 2007; Penuela et al., 2013; Zhang et al., 2021). We have previously shown PANX3 to be protective in traumatic osteoarthritis, however beneficial in age-induced osteoarthritis (Moon et al., 2021), suggesting that PANX3’s role in osteoarthritis development is context specific. As such, the present study aimed to investigate the role of PANX3 in an exercise model of osteoarthritis development.
To study this objective, adult male and female WT and Panx3 KO mice were subjected to a daily running protocol for 6 weeks. Knee samples of the mice were then analyzed through the Osteomeasure software. Although no cartilage defects indicating osteoarthritis was observed in any of the groups, the female KO mice had significantly more subchondral bone after forced exercise than all other groups. This data suggests that PANX3 is important in exercise induced subchondral bone remodelling. Considering changes in subchondral bone may precede cartilage degradation in OA, Panx3 KO mice may be more susceptible to non-traumatic OA development due to abnormal subchondral bone remodelling
Acknowledgements
I would like to first acknowledge my supervisor Dr. Silvia Penuela, along with my graduate mentor and co-supervisor Brent Wakefield, for being extraordinary teachers this summer. Secondly, thank you to the other members of Penuela Lab for their continued support. Furthermore I want to acknowledge the USRI program and its collaborators (Western Research, Western Libraries, Student Experience) for this wonderful opportunity. Finally, I would also like to thank the Western Bone and Joint Institute for providing me with additional funding to make this project happen.
Document Type
Poster
Included in
The role of Pannexin 3 in forced exercise bone remodelling and its potential implications for osteoarthritis
Exercise such as running has been hypothesized to be a factor of osteoarthritis development. However, the relationship is unclear as differences in genetic backgrounds may influence the risk of osteoarthritis (OA). The gene Panx3 codes for the Pannexin 3 protein (PANX3), a mechanically sensitive channel that allows for the passage of various signalling molecules in both chondrocytes and osteoblasts (Boassa et al., 2007; Penuela et al., 2013; Zhang et al., 2021). We have previously shown PANX3 to be protective in traumatic osteoarthritis, however beneficial in age-induced osteoarthritis (Moon et al., 2021), suggesting that PANX3’s role in osteoarthritis development is context specific. As such, the present study aimed to investigate the role of PANX3 in an exercise model of osteoarthritis development.
To study this objective, adult male and female WT and Panx3 KO mice were subjected to a daily running protocol for 6 weeks. Knee samples of the mice were then analyzed through the Osteomeasure software. Although no cartilage defects indicating osteoarthritis was observed in any of the groups, the female KO mice had significantly more subchondral bone after forced exercise than all other groups. This data suggests that PANX3 is important in exercise induced subchondral bone remodelling. Considering changes in subchondral bone may precede cartilage degradation in OA, Panx3 KO mice may be more susceptible to non-traumatic OA development due to abnormal subchondral bone remodelling
Comments
A list of references is provided following the poster slide.