S1P regulates intervertebral disc aging by mediating endoplasmic reticulum–mitochondrial calcium ion homeostasis
Bingjie Zheng, Xuyang Zhang, Xiangxi Kong, Jie Li, Bao Huang, Hui Li, Zhongyin Ji, Xiaoan Wei, Siyue Tao, Zhi Shan, Zemin Ling, Junhui Liu, Jian Chen, Fengdong Zhao
Bingjie Zheng, Xuyang Zhang, Xiangxi Kong, Jie Li, Bao Huang, Hui Li, Zhongyin Ji, Xiaoan Wei, Siyue Tao, Zhi Shan, Zemin Ling, Junhui Liu, Jian Chen, Fengdong Zhao
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Research Article Aging Bone biology

S1P regulates intervertebral disc aging by mediating endoplasmic reticulum–mitochondrial calcium ion homeostasis

Abstract

As the aging process progresses, age-related intervertebral disc degeneration (IVDD) is becoming an emerging public health issue. Site-1 protease (S1P) has recently been found to be associated with abnormal spinal development in patients with mutations and has multiple biological functions. Here, we discovered a reduction of S1P in degenerated and aging intervertebral discs, primarily regulated by DNA methylation. Furthermore, through drug treatment and siRNA-mediated S1P knockdown, nucleus pulposus cells were more prone to exhibit degenerative and aging phenotypes. Conditional KO of S1P in mice resulted in spinal developmental abnormalities and premature aging. Mechanistically, S1P deficiency impeded COP II–mediated transport vesicle formation, which leads to protein retention in the endoplasmic reticulum (ER) and subsequently ER distension. ER distension increased the contact between the ER and mitochondria, disrupting ER-to-mitochondria calcium flow and resulting in mitochondrial dysfunction and energy metabolism disturbance. Finally, using 2-APB to inhibit calcium ion channels and the senolytic drug dasatinib and quercetin (D + Q) partially rescued the aging and degenerative phenotypes caused by S1P deficiency. In conclusion, our findings suggest that S1P is a critical factor in causing IVDD in the process of aging and highlight the potential of targeting S1P as a therapeutic approach for age-related IVDD.

Authors

Bingjie Zheng, Xuyang Zhang, Xiangxi Kong, Jie Li, Bao Huang, Hui Li, Zhongyin Ji, Xiaoan Wei, Siyue Tao, Zhi Shan, Zemin Ling, Junhui Liu, Jian Chen, Fengdong Zhao

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Figure 4

S1P-cKO mice exhibit a higher propensity for degeneration and aging.

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S1P-cKO mice exhibit a higher propensity for degeneration and aging. (A ...
(A and B) Double-stained images of S1Pfl/fl and Shh-Cre-S1Pfl/fl embryonic mice at E15.5 days and enlarged images of the spinal region within the black frame (stained with Safranin O in red for bone and Alcian blue in blue for cartilage). Scale bar: 1 mm. (C) Images of 2-week-old S1Pfl/fl and Shh-Cre-S1Pf/- mice. (D) Statistical analysis of percentage of the IVD height index (DHI) for S1Pfl/fl and Shh-Cre-S1Pf/- mice (n = 6, each group) (E) Images of H&E, Safranin O, and Alcian blue staining of IVD tissues from 2-week-old S1Pfl/fl and Shh-Cre-S1Pf/- mice, as well as immunofluorescence images showing Col2 (green) and MMP13 (red) with DAPI staining for cell nuclei (Blue). (F) Mean fluorescence intensity for Col2 and MMP13 of 2-week-old S1Pfl/fl and Shh-Cre-S1Pfl/– mice (n = 6, each group). (G) H&E, Safranin O and Fast Green, and Alcian blue staining images of IVD tissues from 12-week-old S1Pfl/fl and Acan-CreERT-S1Pfl/fl mice after tail-looping modeling for 8 weeks. (H) Statistical analysis of the mean histological scores (n = 6, each group). (I) Images of H&E, Safranin O and Fast Green, and Alcian blue staining of IVD from 15-month-old naturally aging S1Pfl/fl and Acan-CreERT-S1Pfl/fl mice, as well as immunofluorescence images showing p16, Col2, and MMP13. (J) Percentage of p16+ area (n = 6, each group). (K) Mean fluorescence intensity for Col2 and MMP13 (n = 6, each group). Scale bars: 80 μm (E, G, and I). Results are shown as points with means ± SD. *P < 0.05, ***P < 0.001 compared with S1Pfl/fl mice. Student’s t-test or one-way ANOVA, followed by Tukey’s post hoc analysis, was employed to assess statistical significance.