Academic Thesis

Basic information

Name KANAMOTO Takashi
Belonging department
Occupation name
researchmap researcher code B000314005
researchmap agency Bukkyo University

Title

RANKL-derived peptide MHP1-AcN attenuates ovariectomy-induced osteoporosis by targeting RANK and TNFR1 in mice.

Bibliography Type

 

Author

Takuya Kurihara
Munehisa Shimamura
Yuki Etani
Takaaki Noguchi
Yuji Fukuda
Nagahiro Ochiai
Atsushi Goshima
Taihei Miura
Makoto Hirao
Atsushi Sugimoto
Nan Ju
Satoshi Yamakawa
Takashi Kanamoto
Ken Nakata
Seiji Okada
Kosuke Ebina

OwnerRoles

 

Summary

PURPOSE: Estrogen deficiency following menopause increases receptor activator of nuclear factor-kappa B ligand (RANKL) expression in osteoblasts, thereby promoting osteoclast differentiation, and enhances T cell-derived tumor necrosis factor-alpha (TNFα) production, which induces sclerostin expression in osteocytes, thereby inhibiting bone formation. This study aimed to develop a novel uncoupling therapeutic agent for osteoporosis. METHODS: We developed microglial healing peptide 1 with N-terminal acetylation and C-terminal amidation (MHP1-AcN), a modified RANKL peptide with N-terminal acetylation and C-terminal amidation lacking the osteoclast activating CD loop. Given the structural similarities of RANK and TNF receptor 1 (TNFR1), we hypothesized that MHP1-AcN could inhibit both the RANKL-RANK and TNFα-TNFR1 pathways to address the pathophysiology of osteoporosis, as evaluated in vitro and in vivo using an ovariectomized mouse model. RESULTS: In ovariectomized mice, MHP1-AcN inhibited osteoclastogenesis, reduced osteocytic sclerostin expression, prevented bone loss, and improved the femoral cancellous and cortical bone microarchitecture. Unlike anti-RANKL antibody, MHP1-AcN considerably preserved bone formation by osteoblasts and enhanced bone strength, as evidenced by increases in energy absorption capacity. In vitro, MHP1-AcN bound to both RANK and TNFR1, suppressing osteoclast activity via the RANKL-RANK pathway and reducing sclerostin expression through the TNFα-TNFR1-nuclear factor-kappa B pathway. MHP1-AcN did not affect osteoblast proliferation and differentiation or RANKL expression. CONCLUSION: MHP1-AcN effectively inhibits osteoclastogenesis and sclerostin-mediated suppression of bone formation while considerably preserving osteoblast function. These findings suggest that MHP1-AcN, which targets dual pathways critical for bone homeostasis, is a promising uncoupling therapeutic agent for osteoporosis.

Magazine(name)

Bone

Publisher

 

Volume

 

Number Of Pages

 

StartingPage

117440

EndingPage

117440

Date of Issue

2025-03-01

Referee

Exist

Invited

 

Language

English

Thesis Type

Research papers (academic journals)

International Journal

International

International Collaboration

 

ISSN

 

eISSN

 

ISBN

 

DOI

10.1016/j.bone.2025.117440

NAID

 

Cinii Books Id

 

PMID

 

PMCID

 

Format

Download

J-GLOBAL ID

 

arXiv ID

 

ORCID Put Code

 

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Major Achivement

Other