Protection against T1DM-Induced Bone Loss by Zinc Supplementation: Biomechanical, Histomorphometric, and Molecular Analyses in STZ-Induced Diabetic Rats

Bortolin, Raul Hernandes; Abreu, Bento João; Ururahy, Marcela Abbott Galvão; Souza, Karla Simone Costa de; Bezerra, João Felipe; Loureiro, Melina Bezerra; Silva, Flávio Santos da; Marques, Dáfiny Emanuele da Silva; Batista, Angélica Amanda de Sousa; Oliveira, Gisele Viana de; Luchessi, André Ducati; Lima, Valéria Raquel Porto de; Miranda, Carlos Eduardo Saraiva; Fook, Marcus Vinícius Lia; Almeida, Maria das Graças; Rezende, Luciana Augusto de; Rezende, Adriana Augusto de

doi:10.1371/journal.pone.0125349

Cited by 44 publications

(37 citation statements)

References 71 publications

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“…Skeletal alkaline phosphatase, another late marker of osteoblast activity, has been found to be low in diabetic children and adults, confirming poor osteoblast function [32, 33], as well as in most animal models of STZ-induced diabetes [10, 8, 27]. Expression of other key genes important for osteoblast bone metabolism and remodeling such as proteolytic members of the metalloproteinase family MMP2 (matrix metallopeptidase 2) and MMP9 were found to be increased in an animal model of STZ-induced diabetes [11], whereas in a model pairing STZ-induced diabetes with distraction osteogenesis, MMP9 and MMP13 were decreased [5]. Interestingly, in vitro studies have suggested that some of the hyperglycemic effects on the expression of genes encoding extracellular matrix proteins such as osteonectin, osteopontin, and collagen I can be attributed to osmotic changes [37-39].…”

Section: Effects Of Type 1 Diabetes On Osteoblastsmentioning

confidence: 94%

“…The Wnt/beta catenin pathway, which is essential for osteoblast differentiation and regulation of bone formation in differentiated osteoblasts, has also been shown to be down regulated in the bone of STZ-induced diabetic animals [10], partly due to increased expression of sclerostin and dickkopf-related protein 1 (Dkk1), two inhibitors of Wnt signaling. Interestingly, several studies describing altered expression of osteoblast regulating genes, such as Runx2, Dlx5, Osx, ALP, OC, Col1 and osteoclast genes, including osteoprotegerin (OPG), MMP9 and receptor activator of nuclear factor kappa-B ligand (RANKL) in diabetic bones, found that zinc supplementation can prevent these dysregulations and protect bones from diabetes induced damage [11, 12]. …”

Section: Effects Of Type 1 Diabetes On Osteoblastsmentioning

confidence: 99%

“…Genes coding for the RANKL/RANK/OPG system and the corresponding markers were found to be altered in humans with T1D and insulinopenic animal models. Some studies found increased OPG gene expression in young patients with T1D [2] and in chronic hyperglycemic conditions in vivo [11] and in vitro [37], which suggests a decreased osteoclast differentiation and a possible adaptive protection against excessive bone resorption in diabetes. Others found downregulation of OPG expression in STZ-induced diabetes in mice [46].…”

Section: Effects Of T1d On Osteoclastsmentioning

confidence: 99%

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Effects of Type 1 Diabetes on Osteoblasts, Osteocytes, and Osteoclasts

Kalaitzoglou

Popescu

Bunn

et al. 2016

Curr Osteoporos Rep

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Purpose of review To describe the effects of Type 1 diabetes on bone cells. Recent findings Type 1 diabetes (T1D) is associated with low bone mineral density, increased risk of fractures and poor fracture healing. Its effects on the skeleton were primarily attributed to impaired bone formation, but recent data suggests that bone remodeling and resorption are also compromised. The hyperglycemic and inflammatory environment associated with T1D impacts osteoblasts, osteocytes and osteoclasts. The mechanisms involved are complex; insulinopenia, pro-inflammatory cytokine production and alterations in gene expression are a few of the contributing factors leading to poor osteoblast activity and survival and, therefore, poor bone formation. In addition, the observed sclerostin level increase accompanied by decreased osteocyte number and enhanced osteoclast activity in T1D results in uncoupling of bone remodeling. Summary T1D negatively impacts osteoblasts and osteocytes whereas its effects on osteoclasts are not well characterized, although the limited studies available indicate increased osteoclast activity, favoring bone resorption.

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Section: Effects Of Type 1 Diabetes On Osteoblastsmentioning

confidence: 94%

Section: Effects Of Type 1 Diabetes On Osteoblastsmentioning

confidence: 99%

Section: Effects Of T1d On Osteoclastsmentioning

confidence: 99%

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Effects of Type 1 Diabetes on Osteoblasts, Osteocytes, and Osteoclasts

Kalaitzoglou

Popescu

Bunn

et al. 2016

Curr Osteoporos Rep

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“…Therefore, in recent years, the pathogenesis of T1DM has been examined intensely in research. STZ is widely used in the construction of the diabetes model experiment because it can specifically destruct pancreatic beta cells, which cause T1DM (Bortolin et al 2015, Carlos et al 2015, Lin & Sun 2015. In this experiment, the FBG levels of the normal control group were maintained within the normal range (4-6 mmol/L) throughout the feeding period.…”

Section: Discussionmentioning

confidence: 99%

Zanthoxylum alkylamides ameliorate protein metabolism disorder in STZ-induced diabetic rats

Ren

Zhu

Xia

et al. 2017

Journal of Molecular Endocrinology

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This study aimed to evaluate the protein metabolism effect of Zanthoxylum alkylamides and to explore the potential mechanism in streptozotocin (STZ)-induced diabetic rats. Diabetic rats were orally treated with 2, 4 and 8 mg per kg bw of alkylamides daily for 28 days. Alkylamides decreased the relative weight of the liver and food intake, significantly increased the relative skeletal muscle weight and significantly decreased the blood urea nitrogen levels. Insulin, insulin-like growth factor 1, total protein (TP) and albumin (ALB), globular proteins and ALB proteins/globulin protein levels in serum significantly increased. TP, RNA content and RNA/DNA ratio significantly increased in the skeletal muscle of diabetic rats. Real-time quantitative polymerase chain reaction results indicated that alkylamides significantly increased the mRNA expression of insulin receptor (InR), IGF1 and insulin-like growth factor 1 receptor (IGF1R) in the liver and skeletal muscle. Moreover, the mRNA and protein expression levels of PI3K, PKB and mTOR significantly increased, whereas those of atrogin-1, muscle ring finger 1 and FOXO in the skeletal muscle significantly decreased. Alkylamides may advance protein synthesis by the PI3K/PKB/mTOR signalling pathway and attenuate the catabolism of protein through the ubiquitin-proteasome pathway. Therefore, it was possible that alkylamides ameliorate protein metabolism disorders in diabetic rats by activating the mTOR pathway.

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“…More than 50% of patients with T1DM have bone loss compared to healthy age-matched subjects (Muñoz-Torres et al, 1996;Kemink et al, 2000) markers of bone formation plasma insulin-like growth factor I (IGF-I), and a variety of bone-related changes are known to be influenced by hyperglycemia such as femoral neck geometry, microarchitecture and biomechanical markers of bone turnover (Starup-Linde, 2013;Bortolin et al, 2015;. However, the association between T1DM and bone mineral density (BMD) is controversial.…”

Section: Introductionmentioning

confidence: 99%

Relationship between glycemic control and OPG gene polymorphisms with lower bone mineral density in patients with type 1 Diabetes mellitus

Loureiro

Ururahy

Souza

et al. 2018

Braz. J. Pharm. Sci.

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The aim of the present study was to investigate the bone mineral density (BMD) of patients with type 1 Diabetes mellitus (T1DM). We also assessed the association between osteoprotegerin (OPG) genetic polymorphisms and BMD. Genotyping was performed for 1181G>C and 163A>G OPG polymorphisms by allelic discrimination in 119 patients with T1DM and 161 normoglycemic (NG) individuals, aged 6 to 20 years old. Glycemic control, serum parameters of bone metabolism and BMD were evaluated. T1DM patients showed low BMD, poor glycemic control and decreased total calcium values when compared to controls (p < 0.05). For all the polymorphisms studied, the genotype and allele frequencies in patients with T1DM were not significantly different from the controls. In patients with T1DM, carriers of OPG 1181CC showed higher concentrations of ionized calcium compared to patients with GG+GC genotypes. These results suggest that low BMD is associated with poor glycemic control in T1DM. Despite the lack of a detected association between OPG polymorphisms and BMD in these patients, the increased ionized calcium in those carrying OPG 1181CC suggests a possible increase in osteoclastogenesis, a conclusion that may be supported by the lower BMD observed in these subjects.

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Protection against T1DM-Induced Bone Loss by Zinc Supplementation: Biomechanical, Histomorphometric, and Molecular Analyses in STZ-Induced Diabetic Rats

Cited by 44 publications

References 71 publications

Effects of Type 1 Diabetes on Osteoblasts, Osteocytes, and Osteoclasts

Effects of Type 1 Diabetes on Osteoblasts, Osteocytes, and Osteoclasts

Zanthoxylum alkylamides ameliorate protein metabolism disorder in STZ-induced diabetic rats

Relationship between glycemic control and OPG gene polymorphisms with lower bone mineral density in patients with type 1 Diabetes mellitus

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