The pivotal role of the Hes1/Piezo1 pathway in the pathophysiology of glucocorticoid-induced osteoporosis
Nagahiro Ochiai, … , Ken Nakata, Kosuke Ebina
Nagahiro Ochiai, … , Ken Nakata, Kosuke Ebina
Published December 6, 2024
Citation Information: JCI Insight. 2024;9(23):e179963. https://doi.org/10.1172/jci.insight.179963.
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Research Article Bone biology Therapeutics

The pivotal role of the Hes1/Piezo1 pathway in the pathophysiology of glucocorticoid-induced osteoporosis

Abstract

Glucocorticoid-induced osteoporosis (GIOP) lacks fully effective treatments. This study investigated the role of Piezo1, a mechanosensitive ion channel component 1, in GIOP. We found reduced Piezo1 expression in cortical bone osteocytes from patients with GIOP and a GIOP mouse model. Yoda1, a Piezo1 agonist, enhanced the mechanical stress response and bone mass and strength, which were diminished by dexamethasone (DEX) administration in GIOP mice. RNA-seq revealed that Yoda1 elevated Piezo1 expression by activating the key transcription factor Hes1, followed by enhanced CaM kinase II and Akt phosphorylation in osteocytes. This improved the lacuno-canalicular network and reduced sclerostin production and the receptor activator of NF-κB/osteoprotegerin ratio, which were mitigated by DEX. Comparative analysis of mouse models and human GIOP cortical bone revealed downregulation of mechanostimulated osteogenic factors, such as osteocrin, and cartilage differentiation markers in osteoprogenitor cells. In human periosteum-derived cells, DEX suppressed differentiation into osteoblasts, but Yoda1 rescued this effect. Our findings suggest that reduced Piezo1 expression and activity in osteocytes and periosteal cells contribute to GIOP, and Yoda1 may offer a novel therapeutic approach by restoring mechanosensitivity.

Authors

Nagahiro Ochiai, Yuki Etani, Takaaki Noguchi, Taihei Miura, Takuya Kurihara, Yuji Fukuda, Hidetoshi Hamada, Keisuke Uemura, Kazuma Takashima, Masashi Tamaki, Teruya Ishibashi, Shohei Ito, Satoshi Yamakawa, Takashi Kanamoto, Seiji Okada, Ken Nakata, Kosuke Ebina

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Figure 7

Hes1 is a regulatory transcription factor of Piezo1 modulated by DEX and Yoda1.

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Hes1 is a regulatory transcription factor of Piezo1 modulated by DEX and...
(A) The impact of Hes1 knockdown on Piezo1 expression, as assessed by qPCR following Hes1 siRNA or control RNA electroporation in MLO-Y4 cells, 2 days after electroporation. Results are presented as mean ± SD (n = 3) and were analyzed using a 2-tailed Student’s t test with a 95% confidence interval. *P < 0.05, **P < 0.01. (B) WB analysis for Hes1 and Piezo1 was conducted after siRNA transfection and overnight incubation with DEX (1 μM). (C) A schematic of the Piezo1 promoter (1200 bp) with the Hes1 binding site (657 bp) and highlighted CUT&RUN assay primers. (D) CUT&RUN assay results after siRNA transfection and overnight incubation, followed by treatment with DEX (1 μM) or Yoda1 (10 μM) for 1 day. The Ctrl group utilized rabbit IgG for immunoprecipitation, while other groups used an anti-Hes1 antibody (n = 3). (E) Luciferase assay after vector electroporation and overnight incubation, followed by DEX (1 μM) overnight and subsequently Yoda1 (10 μM) treatment for 4 hours. Constructs included Empty (empty pNL3.1 vector) and Ctrl (pNL3.1 with Hes1 binding region), n = 6. (F) The DEX dose-response effect on Hes1 expression in MLO-Y4 cells was analyzed using qPCR 4 hours after treatment (n = 4). (G) The effects of DEX (1 μM) and Yoda1 (10 μM) on HES1 mRNA levels in human cortical bone organ cultures were measured by qPCR 6 hours after treatment (n = 3). (H) Analysis of Hes1 phosphorylation upon treatment with DEX (1 μM), followed by Yoda1 (10 μM) for 4 hours. Data are presented as mean ± SD. Results were analyzed with a 1-way ANOVA and the Tukey-Kramer post hoc test. *P < 0.05; **P < 0.01; ***P < 0.001. NS, not significant.