Liposomal Encapsulation for Systemic Delivery of Propranolol via Transdermal Iontophoresis Improves Bone Microarchitecture in Ovariectomized Rats

Teong, Benjamin; Kuo, Shyh Ming; Tsai, Wei-Chin; Ho, Mei-Ling; Ch, Chen; Huang, Han Hsiang

doi:10.3390/ijms18040822

Cited by 26 publications

(15 citation statements)

References 46 publications

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“…Therefore, the data obtained from the micro-CT and biochemical detection were believed to be more meaningful and comprehensive for the diagnosis of osteoporosis. In the present study, acteoside dose-dependently (20, 40, and 80 mg/kg/day) improved the BMD in OVX mice, and most of the variables in the micro-CT experiment were significantly ameliorated, including the reduction of BMC, TMC, BVF, Tb.N, and Tb.Th in OVX mice, which was consistent with the published data [27], whereas the increment of Tb.Sp was totally reversed; moreover, in parallel with the micro-CT findings, the biomechanical parameters, including the maximal load and stiffness, were also significantly enhanced by acteoside treatment. Therefore, our data implied the therapeutic effect of acteoside on bone microarchitecture of OVX mice.…”

Section: Discussionsupporting

confidence: 93%

Protective Effect of Acteoside on Ovariectomy-Induced Bone Loss in Mice

Yang

Zhang

Liu

et al. 2019

IJMS

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Acteoside, an active phenylethanoid glycoside compound isolated from herbs of Cistanche, was chosen for the investigation of anti-osteoporotic effect on postmenopausal osteoporosis by using an ovariectomized (OVX) mice model. The results from in vivo experiments showed that after daily oral administration of acteoside (20, 40, and 80 mg/kg body weight/day) for 12 weeks, bone mineral density and bone biomechanical properties of OVX mice were greatly enhanced, with significant improvement in bone microarchitecture. Furthermore, biochemical parameters of bone resorption markers as well as bone formation index, including tartrate-resistant acid phosphatase, cathepsin K, deoxypyridinoline, alkaline phosphatase, and bone gla-protein, were ameliorated by acteoside treatment, whereas the body, uterus, and vagina wet weights were seemingly not impacted by acteoside administration. Acteoside significantly affected osteoclastogenesis by attenuating nuclear factor kappa B (NF-κB) and stimulating phosphoinositide 3-kinase (PI3K)/protein kinase B (AKT) signal pathways through down-regulated levels of tumor-necrosis factor receptor-associated factor 6 (TRAF6), receptor activator of nuclear factor kappa B ligand (RANKL), RANK, NFKBIA, IκB kinase β, nuclear factor of activated T-cells c2 (NFAT2), and up-regulated expressions of PI3K, AKT, and c-Fos. Accordingly, the current research validated our hypothesis that acteoside possesses potent anti-osteoporotic properties and may be a promising agent for the prevention of osteoporosis in the future.

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Section: Discussionsupporting

confidence: 93%

Protective Effect of Acteoside on Ovariectomy-Induced Bone Loss in Mice

Yang

Zhang

Liu

et al. 2019

IJMS

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“…Furthermore, it was shown that SNS signaling in osteoblasts via βARs acts catabolically on bone by suppressing bone formation and enhancing bone resorption ( Takeda et al, 2002 ; Takeda and Karsenty, 2008 ). Therefore, administration of βAR-blockers leads to enhanced bone formation in both mice ( Takeda and Karsenty, 2008 ; Yirmiya et al, 2006 ; Teong et al, 2017 ) and humans ( Pasco et al, 2004 ; Toulis et al, 2014 ). However, because osteoblast numbers and activity did not differ in our study, βAR signaling in osteoblasts may be unaltered following CSC, as indicated by the unchanged TH expression level at the metaphyseal bone region.…”

Section: Discussionmentioning

confidence: 99%

Chronic psychosocial stress disturbs long-bone growth in adolescent mice

Foertsch¹,

Haffner‐Luntzer²,

Kroner³

et al. 2017

Disease Models &Amp; Mechanisms

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Although a strong association between psychiatric and somatic disorders is generally accepted, little is known regarding the interrelationship between mental and skeletal health. Although depressive disorders have been shown to be strongly associated with osteoporosis and increased fracture risk, evidence from post-traumatic stress disorder (PTSD) patients is less consistent. Therefore, the present study investigated the influence of chronic psychosocial stress on bone using a well-established murine model for PTSD. C57BL/6N mice (7 weeks old) were subjected to chronic subordinate colony housing (CSC) for 19 days, whereas control mice were singly housed. Anxiety-related behavior was assessed in the open-field/novel-object test, after which the mice were euthanized to assess endocrine and bone parameters. CSC mice exhibited increased anxiety-related behavior in the open-field/novel-object test, increased adrenal and decreased thymus weights, and unaffected plasma morning corticosterone. Microcomputed tomography and histomorphometrical analyses revealed significantly reduced tibia and femur lengths, increased growth-plate thickness and reduced mineral deposition at the growth plate, suggesting disturbed endochondral ossification during long-bone growth. This was associated with reduced Runx2 expression in hypertrophic chondrocytes in the growth plate. Trabecular thicknesses and bone mineral density were significantly increased in CSC compared to singly housed mice. Tyrosine hydroxylase expression was increased in bone marrow cells located at the growth plates of CSC mice, implying that local adrenergic signaling might be involved in the effects of CSC on the skeletal phenotype. In conclusion, chronic psychosocial stress negatively impacts endochondral ossification in the growth plate, affecting both longitudinal and appositional bone growth in adolescent mice.

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“…For scanning, the scan settings were an aluminum filter of 0.5 mm, 9 µm scanning resolution, X-ray voltage of 50 kV, X-ray current of 200 mA, and exposure time of 600 ms. The analysis began from the proximal tibia and through the whole fracture site until the distal tibia [19,[21][22][23][24][25][26].…”

Section: Radiographic and µCt Analysesmentioning

confidence: 99%

Green Tea Catechin (-)-Epigallocatechin-3-Gallate (EGCG) Facilitates Fracture Healing

et al. 2020

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Green tea drinking can ameliorate postmenopausal osteoporosis by increasing the bone mineral density. (-)-Epigallocatechin-3-gallate (EGCG), the abundant and active compound of tea catechin, was proven to be able to reduce bone loss and ameliorate microarchitecture in female ovariectomized rats. EGCG can also enhance the osteogenic differentiation of murine bone marrow mesenchymal stem cells and inhibit the osteoclastogenesis in RAW264.7 cells by modulation of the receptor activator of nuclear factor-kB (RANK)/RANK ligand (RANKL)/osteoprotegrin (OPG) (RANK/RANKL/OPG) pathway. Our previous study also found that EGCG can promote bone defect healing in the distal femur partially via bone morphogenetic protein-2 (BMP-2). Considering the osteoinduction property of BMP-2, we hypothesized that EGCG could accelerate the bone healing process with an increased expression of BMP-2. In this manuscript, we studied whether the local use of EGCG can facilitate tibial fracture healing. Fifty-six 4-month-old rats were randomly assigned to two groups after being weight-matched: a control group with vehicle treatment (Ctrl) and a study group with 10 µmol/L, 40 µL, EGCG treatment (EGCG). Two days after the operation, the rats were treated daily with EGCG or vehicle by percutaneous local injection for 2 weeks. The application of EGCG enhanced callus formation by increasing the bone volume and subsequently improved the mechanical properties of the tibial bone, including the maximal load, break load, stiffness, and Young’s modulus. The results of the histology and BMP-2 immunohistochemistry staining showed that EGCG treatment accelerated the bone matrix formation and produced a stronger expression of BMP-2. Taken together, this study for the first time demonstrated that local treatment of EGCG can accelerate the fracture healing process at least partly via BMP-2.

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Liposomal Encapsulation for Systemic Delivery of Propranolol via Transdermal Iontophoresis Improves Bone Microarchitecture in Ovariectomized Rats

Cited by 26 publications

References 46 publications

Protective Effect of Acteoside on Ovariectomy-Induced Bone Loss in Mice

Protective Effect of Acteoside on Ovariectomy-Induced Bone Loss in Mice

Chronic psychosocial stress disturbs long-bone growth in adolescent mice

Green Tea Catechin (-)-Epigallocatechin-3-Gallate (EGCG) Facilitates Fracture Healing

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