17β-estradiol maintains extracellular matrix homeostasis of nucleus pulposus cells by activating p70 S6K1 signaling pathway.

IF 4.6 2区生物学 Q2 CELL BIOLOGY

Frontiers in Cell and Developmental Biology Pub Date : 2025-06-06 eCollection Date: 2025-01-01 DOI:10.3389/fcell.2025.1564458

Tao Liu, Zhaohui Li, Wei Zhang, Xuzhao Guo, Guobin Liu, Dalong Yang, Sidong Yang

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引用次数: 0

Abstract

Background: Estrogen can inhibit the apoptosis of nucleus pulposus cells (NPCs) through the PI3K/AKT/mTOR signaling pathway. However, the downstream of mTOR signaling pathway remains elusive. This study investigates the effect of 17β-estradiol (E2) on intervertebral disc degeneration (IVDD) through the p70 S6K1 signaling pathway, downstream of mTOR.

Methods: The IVDD model of rats was established by needle puncture and bilateral ovariectomy. Fifteen Sprague-Dawley rats were randomly assigned to the following three groups: (A) Sham surgery group (Sham); (B) Bilateral ovariectomy, 21G needle puncture and carrier injection (OVX + veh); (C) Bilateral ovariectomy, 21G needle puncture, E2 supplementation (OVX + E2). The degree of IVDD was evaluated by X-ray, magnetic resonance imaging (MRI), hematoxylin and eosin (H&E), and Safranin O-Fast Green staining. The expression levels of target protein p70S6K1 and its phosphorylated products were detected by immunohistochemistry (IHC). Finally, Western blot analysis and immunofluorescence staining were used to investigate the effect of E2 on the p70 S6K1 signaling pathway in vitro.

Results: Histological staining and radiological results showed that E2 supplementation altered signaling, suggesting that it may have a protective effect against IVDD. IHC showed that compared with the Sham and OVX + E2 groups, the level of p70 S6K1 in the OVX + veh group was significantly increased while the expression of phosphorylated products (p-S6) was significantly decreased, suggesting that E2 could inhibit IVDD by activating p70 S6K1 signaling pathway, the downstream of mTOR. Furthermore, cellular immunofluorescence and Western blot showed that E2 can maintain extracellular matrix (ECM) balance and inhibits apoptosis of nucleus pulposus cells (NPCs) by activating the p70 S6K1 signaling pathway.

Conclusion: In summary, 17β-estradiol mitigates IVDD progression by maintaining ECM homeostasis and inhibiting NPCs apoptosis through activation of the p70 S6K1 signaling pathway downstream of mTOR.

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17β-雌二醇通过激活p70 S6K1信号通路维持髓核细胞胞外基质稳态。

背景：雌激素可通过PI3K/AKT/mTOR信号通路抑制髓核细胞（NPCs）凋亡。然而，mTOR信号通路的下游尚不清楚。本研究通过mTOR下游p70 S6K1信号通路探讨17β-雌二醇（E2）对椎间盘退变（IVDD）的影响。方法：采用针刺法和双侧卵巢切除术建立大鼠IVDD模型。将15只sd大鼠随机分为3组：(A)假手术组（Sham）；(B)双侧卵巢切除术，21G穿刺+载体注射（OVX + veh）；(C)双侧卵巢切除术，21G穿刺，E2补充（OVX + E2）。采用x线、磁共振成像（MRI）、苏木精和伊红（H&E）、红素O-Fast Green染色评价IVDD程度。免疫组化法检测靶蛋白p70S6K1及其磷酸化产物的表达水平。最后，采用Western blot分析和免疫荧光染色研究E2对体外p70 S6K1信号通路的影响。结果：组织学染色和放射学结果显示，补充E2改变了信号传导，表明它可能对IVDD有保护作用。免疫组化结果显示，与Sham和OVX + E2组相比，OVX + veh组p70 S6K1水平显著升高，磷酸化产物（p-S6）表达显著降低，提示E2可能通过激活mTOR下游的p70 S6K1信号通路抑制IVDD。细胞免疫荧光和Western blot结果显示，E2可通过激活p70 S6K1信号通路，维持细胞外基质（ECM）平衡，抑制髓核细胞（NPCs）凋亡。结论：综上所述，17β-雌二醇通过激活mTOR下游的p70 S6K1信号通路，维持ECM稳态，抑制NPCs凋亡，从而减轻IVDD的进展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cell and Developmental Biology Biochemistry, Genetics and Molecular Biology-Cell Biology

CiteScore

9.70

自引率

3.60%

发文量

2531

审稿时长

12 weeks

期刊介绍： Frontiers in Cell and Developmental Biology is a broad-scope, interdisciplinary open-access journal, focusing on the fundamental processes of life, led by Prof Amanda Fisher and supported by a geographically diverse, high-quality editorial board. The journal welcomes submissions on a wide spectrum of cell and developmental biology, covering intracellular and extracellular dynamics, with sections focusing on signaling, adhesion, migration, cell death and survival and membrane trafficking. Additionally, the journal offers sections dedicated to the cutting edge of fundamental and translational research in molecular medicine and stem cell biology. With a collaborative, rigorous and transparent peer-review, the journal produces the highest scientific quality in both fundamental and applied research, and advanced article level metrics measure the real-time impact and influence of each publication.