Abstract
There is growing interest in bioactive substances from marine organisms for their potential use against diverse human diseases. Osteoporosis is a skeletal disorder associated with bone loss primarily occurring through enhanced osteoclast differentiation and resorption. Recently, we reported the anti-osteoclastogenic activity of fermented Pacific oyster (Crassostrea gigas) extract (FO) in vitro. The present study focused on investigating the anti-osteoporotic efficacy of FO in bone loss prevention in an experimental animal model of osteoporosis and elucidating the mechanism underlying its effects. Oral administration of FO significantly decreased ovariectomy-induced osteoclast formation and prevented bone loss, with reduced serum levels of bone turnover biomarkers including osteocalcin and C-terminal telopeptide fragment of type I collagen C-terminus (CTX). FO significantly suppressed receptor activator of nuclear factor-κB ligand (RANKL)-induced differentiation of bone marrow-derived macrophages (BMMs) into osteoclasts and attenuated the induction of osteoclast-specific genes required for osteoclastogenesis and bone resorption. Furthermore, FO inhibited RANKL-mediated IκBα and p65 phosphorylation in BMMs. Taken together, these results demonstrate that FO effectively suppresses osteoclastogenesis in vivo and in vitro, and that FO can be considered as a potential therapeutic option for the treatment of osteoporosis and osteoclast-mediated skeletal diseases.
Highlights
Osteoporosis is a metabolic skeletal disorder with significant public health ramifications given its increasing prevalence, especially in elderly people [1]
N.), and bone mineral density (BMD) in the proximal tibia were analyzed by μCT
Oysters are one of the most prominent farm-raised marine shellfishes and contain appreciable amounts of proteins, minerals, and vitamins that are beneficial to human health
Summary
Osteoporosis is a metabolic skeletal disorder with significant public health ramifications given its increasing prevalence, especially in elderly people [1]. Various antiresorptive drugs including bisphosphonates, denosumab, and calcitonin are available for the treatment of osteoporosis via their ability to protect against osteoclastic resorption and preserve bone mass [8]. These pharmacological treatments have positive effects on skeletal health, concerns regarding side effects such as osteonecrosis of the jaw in bisphosphonate and denosumab and an increased risk of liver cancer in calcitonin have emerged, which have led to increased interest in the discovery of alternative agents capable of suppressing osteoclastogenesis [9,10,11]
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