Guoying Zhu scite author profile

Bone homeostasis depends on the resorption of bone by osteoclasts and formation of bone by osteoblasts. Imbalance of this tightly coupled process can cause diseases such as osteoporosis. Thus, the mechanisms that regulate communication between osteoclasts and osteoblasts are critical to bone cell biology. It has been shown that osteoblasts and osteoclasts can communicate with each other through direct cell-cell contact, cytokines and extracellular matrix interaction. Osteoblasts can affect osteoclast formation, differentiation or apoptosis through several pathways, such as OPG/RANKL/RANK, LGR4/RANKL/RANK, Ephrin2/ephB4 and Fas/FasL pathways. Conversely, osteoclasts also influence formation of bone by osteoblasts via the d2 isoform of vacuolar (H+) ATPase (v-ATPase) V0 domain (Atp6v0d2), complement component 3a, semaphorin 4D or microRNAs. In addition, cytokine released from the resorbed bone matrix, such as TGF-β and IGF-1 also affects the activity of osteoblasts. Several reviews have been performed on the osteoblasts-osteoclasts communication. However, few reviews have shown the research advances in the recent years. In this review we summarized the current knowledge on osteoblast-osteoclast communication.

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Short-Term Rosuvastatin Therapy for Prevention of Contrast-Induced Acute Kidney Injury in Patients With Diabetes and Chronic Kidney Disease

Han

Zhu

et al. 2014

Journal of the American College of Cardiology

203

157

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Osteoporosis and renal dysfunction in a general population exposed to cadmium in China

Jin

Nordberg

et al. 2004

Environmental Research

169

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Influence of Environmental Cadmium Exposure on Forearm Bone Density

et al. 2003

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Cadmium may have both direct and indirect effects on bone turnover. It is nephrotoxic and can interfere with vitamin D metabolism. Such perturbation may result in osteoporosis and osteomalacia. In this study, a total of 790 persons (302 males and 488 females) participated; they were all over 35 years old and resided in an area near a cadmium smelter in southeast China. All participants completed a questionnaire, and bone mineral density was measured by SPA-4 single-photon absorptiometry at the radius and ulna. Cadmium content of urine was determined by graphite-furnace atomic absorption spectrophotometry as a measure of dose. The decline in bone mineral density with age in a heavily polluted area was greater than that in a control area for subjects over 60 years of age of both sexes (p < 0.05). In single regression, forearm bone densities were negatively correlated with urinary cadmium excretion in both males and females (p < 0.001), whereas stepwise regression showed that forearm bone density decreased linearly with age (p < 0.001) and urinary cadmium (p < 0.01) in both sexes, suggesting a dose-effect relationship between cadmium dose and bone mineral density. Based on the World Health Organization criteria, (bone mineral density < ؊2.5 SDs below the normal young adult), the prevalence of osteoporosis in women increased from 34.0% in the control area to 51.9% in the heavily polluted area (p < 0.01) among subjects over 50 years old, and the odds ratio value was 2.09 (95% CI: 1.08 -4.03) for the highly polluted area compared with the control area. A striking observation in the study was the marked increase of the prevalence of fracture in the cadmium-polluted area in both sexes. It was concluded that environmental exposure to cadmium is associated with an increased loss of bone mineral density in both males and females, leading to osteoporosis and increased risk of fractures, especially in the elderly and in females.

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Effects of cadmium on osteoblasts and osteoclasts in vitro

Chen

Zhu

et al. 2009

Environmental Toxicology and Pharmacology

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Guoying Zhu

Osteoblast–osteoclast interactions

Short-Term Rosuvastatin Therapy for Prevention of Contrast-Induced Acute Kidney Injury in Patients With Diabetes and Chronic Kidney Disease

Osteoporosis and renal dysfunction in a general population exposed to cadmium in China

Influence of Environmental Cadmium Exposure on Forearm Bone Density

Effects of cadmium on osteoblasts and osteoclasts in vitro

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