Abstract

Intervertebral disc degeneration (IDD) is characterized by the decreased function and number of nucleus pulposus cells (NPCs) caused by excessive intervertebral disc (IVD) pressure. This research aims to provide novel insights into IDD prevention and treatment by clarifying the effect of andrographolide (ANDR) on IDD cell autophagy and oxidative stress under mechanical stress. Human primary NPCs were extracted from the nucleus pulposus tissue of non-IDD trauma patients. An IDD cell model was established by posing mechanical traction on NPCs. Through the construction of an IDD rat model, the influence of ANDR on IDD pathological changes was explored in vivo. The proliferation and autophagy of NPCs were decreased while the apoptosis rate and oxidative stress reaction were increased by mechanical traction. ANDR intervention obviously alleviated this situation. MiR-9 showed upregulated expression in IDD cell model, while FoxO3 and PINK1/Parkin were downregulated. Decreased proliferation and autophagy as well as enhanced apoptosis and oxidative stress response of NPCs were observed following miR-9 mimics and H89 intervention, while the opposite trend was observed after FoxO3 overexpression. FoxO3 is a direct target downstream miR-9. The in vivo experiments revealed that after ANDR intervention, the number of apoptotic cells in rat IVD tissue decreased and the autophagy increased. In conclusion, ANDR improves NPC proliferation, and autophagy, inhibits apoptosis and oxidative stress, and alleviates the pathological changes of IDD via the miR-9/FoxO3/PINK1/Parkin axis, which may be a new and effective treatment for IDD in the future.

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