Abstract
Intervertebral disc degeneration (IDD) is a prevalent disease characterized by low back pain. Increasing extracellular matrix (ECM) synthesis and decreasing nucleus pulposus cell (NPC) apoptosis are promising strategies to recover degenerated NP. LIM mineralization protein- (LMP-) 1 has anti-inflammatory potential and is a promising gene target for the treatment of NP degeneration. In this study, we measured the expression of LMP-1 in the NP of patients. Then, we constructed LMP-1-overexpressing NPCs using lentiviral vectors and investigated the effects of LMP-1 on cell proliferation, apoptosis, and ECM synthesis in NPCs. The results showed that LMP-1 was highly expressed in the NP of patients. LMP-1 overexpression significantly increased proliferation and decreased apoptosis in NPCs. The expression of collagen II and sulfated glycosaminoglycan (sGAG) in NPCs was also upregulated after LMP-1 was overexpressed. Moreover, we demonstrated that LMP-1 decreased apoptosis of NPCs by inhibiting NF-κB signaling activation. These findings suggest that LMP-1 plays an essential role in mediating apoptosis in NPCs by regulating NF-κB signaling and can be used as a gene target for the treatment of IDD.
Highlights
Intervertebral disc degeneration (IDD) increases the risk of low back pain and gives risk to a large economic burden [1]
Our results demonstrated that extracellular matrix (ECM) synthesis function of nucleus pulposus (NP) cell (NPC) was significantly regulated by LIM mineralization protein- (LMP-)1
We demonstrated that the expression level of LMP-1 is clinically related to IDD
Summary
Intervertebral disc degeneration (IDD) increases the risk of low back pain and gives risk to a large economic burden [1]. The acidic environment in the NP, which is caused by the accumulation of cell waste products and degraded matrix molecules, affects the function and viability of NPCs [5]. The acidic environment increases the mRNA expression levels of inflammatory and catabolic genes in NPCs and leads to inflammation, matrix degradation, oxidative stress responses, and apoptosis during IDD [7, 8]. Phytochemicals extracted from medicinal plants and small molecules are widely used for IDD treatment for their anti-inflammatory and antioxidative properties [9,10,11].
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