Zinc supplementation reduces RANKL/OPG ratio and prevents bone architecture alterations in ovariectomized and type 1 diabetic rats.

Type 1 diabetes mellitus (T1DM) and estrogen deficiency are associated with several alterations in bone turnover. Zinc (Zn) is required for growth, development, and overall health. Zinc has been used in complementary therapy against bone loss in several diseases. We hypothesized that Zn supplementation represents a potential therapy against severe bone loss induced by the combined effect of estrogen deficiency and T1DM. We evaluated the protective effect of Zn against bone alterations in a chronic model of these disorders. Female Wistar rats were ramdomized into 3 groups (5 rats each): control, OVX/T1DM (ovariectomized rats with streptozotocin-induced T1DM), and OVX/T1DM+Zn (OVX/T1DM plus daily Zn supplementation). Serum biochemical, bone histomorphometric, and molecular analyses were performed. Histomorphometric parameters were similar between the control and OVX/T1DM+Zn groups, suggesting that Zn prevents bone architecture alterations. In contrast, the OVX/T1DM group showed significantly lower trabecular width and bone area as well as greater trabecular separation than the control. The OVX/T1DM and OVX/T1DM+Zn groups had significantly higher serum alkaline phosphatase activity than the control. The supplemented group had higher levels of serum-ionized calcium and phosphorus than the nonsupplemented group. The RANKL/OPG ratio was similar between the control and OVX/T1DM+Zn groups, whereas it was higher in the OVX/T1DM group. In conclusion, Zn supplementation prevents bone alteration in chronic OVX/T1DM rats, as demonstrated by the reduced RANKL/OPG ratio and preservation of bone architecture. The findings may represent a novel therapeutic approach to preventing OVX/T1DM-induced bone alterations.

Zinc supplementation reduces RANKL/OPG ratio and prevents bone architecture alterations in ovariectomized and type 1 diabetic rats

Type 1 diabetes mellitus (T1DM) and estrogen deficiency are associated with several alterations in bone turnover. Zinc (Zn) is required for growth, development, and overall health. Zinc has been used in complementary therapy against bone loss in several diseases. We hypothesized that Zn supplementation represents a potential therapy against severe bone loss induced by the combined effect of estrogen deficiency and T1DM. We evaluated the protective effect of Zn against bone alterations in a chronic model of these disorders. Female Wistar rats were ramdomized into 3 groups (5 rats each): control, OVX/T1DM (ovariectomized rats with streptozotocin-induced T1DM), and OVX/T1DM+Zn (OVX/T1DM plus daily Zn supplementation). Serum biochemical, bone histomorphometric, and molecular analyses were performed. Histomorphometric parameters were similar between the control and OVX/T1DM+Zn groups, suggesting that Zn prevents bone architecture alterations. In contrast, the OVX/T1DM group showed significantly lower trabecular width and bone area as well as greater trabecular separation than the control...

Efeito da pioglitazona sobre o remodelamento ósseo em diabetes tipo 2 / Pioglitazone effect on bone remodeling in type 2 diabetes

Alterações morfológicas no tecido ósseo têm sido descritas nos usuários de hipoglicemiantes orais da classe das tiazolidinedionas (TZDs). Hipotetiza-se que alguns genes relacionados com a osteogênese e osteoclastogênese podem ser influenciados pelo tratamento farmacológico, entretanto, o exato mecanismo ainda não está bem esclarecido. O objetivo do estudo foi avaliar o efeito da pioglitazona no remodelamento ósseo através de genes envolvidos na osteoclastogênese em indivíduos recentemente diagnosticados com DM2 e modelos animais, com a finalidade de identificar marcadores genéticos sensíveis de alterações ósseas. Foram convidados para participar do estudo 199 indivíduos (100 diabéticos e 99 normoglicêmicos), no ambulatório de dislipidemias do Instituto Dante Pazzanese de Cardiologia. Os indivíduos diabéticos foram tratados com pioglitazona (15, 30, 45, 45 mg/ dia/ via oral) por 16 semanas. Foram colhidas amostras de sangue, antes e após o tratamento para avaliações laboratoriais, extração de DNA genômico e de RNA total. Os polimorfismos e a expressão do mRNA nas células sanguíneas foram determinados pela PCR em tempo real através do sistema TaqMan®. Para o estudo em modelo animal após a indução da dieta hiperlipídica por 32 semanas, foram utilizados 12 camundongos machos da linhagem C57BL/J6, os quais foram divididos em três grupos: controle (n=4); diabéticos induzidos pela dieta hiperlipídica (DH, n=4) e diabéticos induzidos pela dieta hiperlipídica e tratados com pioglitazona 35mg/Kg/dia por 16 semanas (DHP, n=4). Para os grupos experimentais foram colhidos: amostras de sangue, para exames laboratoriais; fêmures, para a extração do RNA total; e tíbias, para determinação dos parâmetros histomorfométricos. Os pacientes DM2 apresentaram diminuição nas concentrações séricas de osteocalcina e na expressão de OPG e aumento na expressão de VDR em comparação ao grupo NG (p<0,05). A expressão de RANKL e IL6 foi maior entre as mulheres, enquanto que a expressão de PPARG foi maior entre os homens com DM2 em comparação ao grupo NG (p=0,032). Pacientes DM2 antes do tratamento apresentaram glicemia e expressão do mRNA de IL6 negativamente associados ao cálcio ionizado, enquanto que as transcrições de TNFA e VDR foram associadas positivamente e negativamente com bALP respectivamente (p<0,05). O tratamento com pioglitazona reduziu a glicemia de jejum, glicemia pós-prandial, insulina, HOMA-IR, triglicerídeos, VLDL-C, tALP e bALP e aumentou a HDL, tACP, TNF-α e a transcrição de OPG (p<0,05). A glicemia basal associou-se positivamente com o cálcio ionizado. A expressão basal de OPG foi associado negativamente com tALP, enquanto que a expressão basal de TNFA foi associada positivamente com tALP e negativamente com tACP. A expressão basal IL6 foi associada positivamente com tALP, enquanto que a expressão basal de VDR foi associada negativamente com osteocalcina e positivamente com bALP em resposta ao tratamento (p<0,05). O polimorfismo RANK rs1805034 foi associado com redução na transcrição do gene RANK nos indivíduos DM2 e com o remodelamento ósseo após o tratamento com pioglitazona (p<0,05). O polimorfismo RANKL rs9525641 foi associado com aumento da transcrição gênica de RANKL nos indivíduos NG e DM2 e melhora da resposta farmacológica nos indivíduos DM2 tratados com pioglitazona (p<0,05). O polimorfismo rs3102735 do gene OPG foi associado com aumento da formação óssea nos indivíduos DM2 antes e após o tratamento (p<0,05). O genótipo CG do polimorfismo OPG rs2073618 foi associado com alteração da transcrição de OPG no grupo DM2 pré e pós-tratamento (p<0,05). O polimorfismo PPARG rs1801282 foi associado com menor risco para o desenvolvimento de diabetes (p<0,05). O polimorfismo PPARG rs2972162 foi associado com melhora da resistência insulínica nos indivíduos DM2 tratados com pioglitazona (p=0,017). O polimorfismo ESRI rs9340799 foi associado com redução da formação óssea nos indivíduos DM2 (p=0,038). Nos camundongos, após a indução da dieta hiperlipídica por 32 semanas, observou-se aumento do peso, da glicemia, do colesterol total, da expressão do mRNA de RANK, RANKL, IL6 e TNFA em fêmures e aumento de Tb.Sp e diminuição de BV/TV em comparação ao grupo controle (p<0,05). O tratamento com pioglitazona diminuiu a expressão de TNFA (p=0,028). As medidas histomorfométricas não alteraram-se após o tratamento (p>0,05). Os resultados sugerem que o estado hiperglicêmico e o tratamento influenciam os marcadores bioquímicos e moleculares. Os polimorfismos dos genes RANK, RANKL, OPG e ESRI parecem estar envolvidos no remodelamento ósseo independentemente da hiperglicemia e do tratamento e os polimorfismos do gene PPARG parecem estar envolvidos com menor risco para desenvolver diabetes e com a melhora da resistência insulínica em resposta ao tratamento com pioglitazona

Morphological changes in bone tissue have been reported in users of oral hypoglycemic class of thiazolidinediones (TZDs). It is hypothesized that some genes related to osteogenesis and osteoclastogenesis may be influenced by pharmacological treatment, however, was not aware exact mechanism. The study aims was to evaluate pioglitazone effect on bone remodeling through genes involved in osteoclastogenesis in individuals newly diagnosed with DM2 and animal models, in order to identify sensibles genetics markers of bone alterations. Were invited to participate in study 199 patients (100 diabetics and 99 normoglycemic), in dyslipidemia ambulatory of Institute Dante Pazzanese of Cardiology. Diabetic subjects were treated with pioglitazone (15, 30, 45 or 45 mg /day/oral) for 16 weeks. Blood samples were collected before and after treatment for laboratory evaluations, extraction of genomic DNA and total RNA. Polymorphisms and mRNA expression in blood cells was determined by real time PCR using TaqMan® system. For study in animal model after 32 weeks of fat diet induction, was used 12 male mice C57BL/J6, which were divided into three groups: control (n=4); induced diabetic fat diet (DH, n=4) and induced diabetic fat diet and treated with pioglitazone 35mg/Kg/day for 16 weeks (DHP, n=4). For experimental groups were collected: blood samples for laboratory tests; femurs, for extraction of total RNA; and tibias, to determine histomorphometric parameters. DM2 patients showed decrease in serum osteocalcin and OPG expression and increased VDR expression compared to NG group (p<0.05). RANKL and IL6 expression were higher among women, whereas PPARG expression was higher among men with DM2 compared to NG group (p=0,032). DM2 patients before treatment showed blood glucose and IL6 mRNA expression negatively associated with ionized calcium, whereas TNFA and VDR transcription are positively and negatively associated with bALP respectively (p<0.05). Pioglitazone treatment reduced fasting glucose, postprandial glucose, insulin, HOMA-IR, triglycerides, VLDL-C, tALP and bALP and increased HDL, tACP, TNF-α and OPG transcription (p<0.05). Basal blood glucose was positively associated with ionized calcium. Basal OPG expression was negatively associated with tALP, whereas basal TNFA expression was positively associated with tALP and negatively with tACP. Basal IL6 expression was positively associated with tALP, whereas basal VDR expression was negatively associated with osteocalcin and positively with bALP in response to treatment (p<0.05). RANK rs1805034 polymorphism was associated with RANK gene transcription reduction in subjects with DM2 and bone remodeling after treatment with pioglitazone (p<0.05). RANKL rs9525641 polymorphism was associated with increased RANKL gene transcription in NG and DM2 subjects and pharmacological response improvement in DM2 subjects treated with pioglitazone (p<0.05). OPG rs3102735polymorphism was associated with increased bone formation in DM2 subjects before and after treatment (p<0.05). CG genotype of OPG rs2073618 polymorphism was associated with OPG transcription change in DM2 group before and after treatment (p<0.05). PPARG rs1801282 polymorphism was associated with lower risk for diabetes development (p<0.05). PPARG rs2972162 polymorphism was associated with insulin resistance improvement in DM2 subjects treated with pioglitazone (p=0,017). ESRI rs9340799 polymorphism was associated with reduced bone formation in DM2 subjects (p=0,038). In mice, after 32 weeks of fat diet induction, was observed increase weight, blood glucose, total cholesterol and RANK, RANKL, IL6 and TNFA mRNA expression in femurs and Tb.Sp increase and BV/TV decrease compared to control group (p<0.05). Treatment with pioglitazone decrease TNFA (p=0,028). Histomorphometrics measurements not change after treatment (p>0.05). Results suggest that hyperglycemic state and treatment influence biochemical and molecular markers. RANK, RANKL, OPG and ESRI polymorphisms seens to be involved in bone remodeling regardless of hyperglycemia and treatment and PPARG gene polymorphisms seens to be associated with lower risk for diabetes development and with insulin resistance improvement in response to treatment with pioglitazone

[Analysis of the mRNA expression of the S100ß protein in adipocytes of patients with diabetes mellitus, type 2]. / Análise da expressão do mRNA da proteína S100ß em adipócitos de pacientes com diabetes melito tipo 2.

OBJECTIVE: This study aims to explore the possible relationship between the expression level of S100ß protein mRNA with diabetes mellitus type 2 in adipocytes from patients with this disease in comparison with normoglycemic individuals. MATERIALS AND METHODS: Samples of adipose tissue of eight patients from the coronary section of the Institute Dante Pazzanese of Cardiology (IDPC), four in Group Diabetes and four of Normoglycemic group, were evaluated by RT-PCR real time. RESULTS: An increase around 15 times values, between the threshold cycle (ΔCt), of mRNA expression of S100ß protein in adipocytes of the diabetes group was observed in comparison to the control group (p = 0.015). CONCLUSION: Our results indicate, for the first time, that there is coexistence of increased expression of the S100ß and the type 2 diabetes mellitus gene.

Análise da expressão do mRNA da proteína S100β em adipócitos de pacientes com diabetes melito tipo 2 / Analysis of the mRNA expression of the S100β protein in adipocytes of patients with diabetes mellitus, type 2

OBJETIVO: O presente trabalho objetiva compreender a possível relação do nível de expressão gênica do mRNA da proteína S100β em adipócitos com o diabetes melito do tipo 2, pela comparação de dados de portadores dessa doença com os de indivíduos normoglicêmicos. MATERIAIS E MÉTODOS: Foram selecionadas amostras de tecido adiposo de oito pacientes da Seção de Coronárias do Instituto Dante Pazzanese de Cardiologia (IDPC), sendo quatro do grupo diabetes e quatro do grupo de normoglicêmicos. Essas amostras foram submetidas à técnica de RT-PCR em tempo real. RESULTADOS: Por meio do Test-t de Student para os valores de diferença entre os ciclos threshold (ΔCt), observou-se que houve aumento de aproximadamente 15 vezes (p = 0,015) da expressão do mRNA da proteína S100β nos adipócitos dos indivíduos do grupo diabetes quando comparado aos do grupo controle. CONCLUSÃO: Nossos resultados evidenciam, de forma inédita, coexistência entre o aumento da expressão do gene S100β e a patologia do diabetes melito do tipo 2.

OBJECTIVE: This study aims to explore the possible relationship between the expression level of S100β protein mRNA with diabetes mellitus type 2 in adipocytes from patients with this disease in comparison with normoglycemic individuals. MATERIALS AND METHODS: Samples of adipose tissue of eight patients from the coronary section of the Institute Dante Pazzanese of Cardiology (IDPC), four in Group Diabetes and four of Normoglycemic group, were evaluated by RT-PCR real time. RESULTS: An increase around 15 times values, between the threshold cycle (ΔCt), of mRNA expression of S100β protein in adipocytes of the diabetes group was observed in comparison to the control group (p = 0.015). CONCLUSION: Our results indicate, for the first time, that there is coexistence of increased expression of the S100β and the type 2 diabetes mellitus gene.

Tumor necrosis factor-α and interleukin-6 expression in leukocytes and their association with polymorphisms and bone markers in diabetic individuals treated with pioglitazone.

BACKGROUND: Pioglitazone is a peroxisome proliferator-activated receptor gamma (PPARγ) activator used in the treatment of type 2 diabetes (DM2) patients and it has been suggested that can induce bone loss. Tumor necrosis factor-α (TNFα) and interleukin-6 (IL-6) mRNA expression in blood leukocytes and the relationship with polymorphisms and bone markers in DM2 treated with pioglitazone were investigated. METHODS: DM2 (n=53) and normoglycemic (NG, n=52) individuals were included. DM2 patients were treated with pioglitazone (45 mg/day/16 weeks). mRNA expression was evaluated by real-time polymerase chain reaction (PCR). TNFA -308G>A and IL6 -174G>C polymorphisms were detected by PCR-RFLP and high resolution melting polymerase chain reaction (HRM-PCR). RESULTS: Pioglitazone reduced bone specific alkaline phosphatase (bALP) and increased TNFα in DM2 group (p<0.001). DM2 or pioglitazone did not influence TNFα and IL-6 expression (p>0.05). TNFA -308A allele was associated with reduced basal TNFα mRNA levels in NG and DM2 and reduced alkaline phosphatase (tALP) after treatment (p<0.05). IL6 -174C allele was associated with decreased oral glucose tolerance test (OGTT)-2 h in DM2 individuals (p<0.05). CONCLUSIONS: TNFA -308G >A polymorphism appear to be involved in regulation of gene expression independently of hyperglycemia and its interaction with pioglitazone may modify tALP, a important bone marker. IL6 -174G>C variant is related with reduced risk of postprandial hyperglycemia but not with mRNA expression or bone markers.

Tumor necrosis factor-á and interleukin-6 expression in leukocytes and their association with polymorphisms and bone markers in diabetic individuals treated with pioglitazone

BACKGROUND: Pioglitazone is a peroxisome proliferator-activated receptor gamma (PPARã) activator used in the treatment of type 2 diabetes (DM2) patients and it has been suggested that can induce bone loss. Tumor necrosis factor-á (TNFá) and interleukin-6 (IL-6) mRNA expression in blood leukocytes and the relationship with polymorphisms and bone markers in DM2 treated with pioglitazone were investigated.METHODS: DM2 (n=53) and normoglycemic (NG, n=52) individuals were included. DM2 patients were treated with pioglitazone (45 mg/day/16 weeks). mRNA expression was evaluated by real-time polymerase chain reaction (PCR). TNFA -308G>A and IL6 -174G>C polymorphisms were detected by PCR-RFLP and high resolution melting polymerase chain reaction (HRM-PCR).RESULTS: Pioglitazone reduced bone specific alkaline phosphatase (bALP) and increased TNFá in DM2 group (p0.05). TNFA -308A allele was associated with reduced basal TNFá mRNA levels in NG and DM2 and reduced alkaline phosphatase (tALP) after treatment (pA polymorphism appear to be involved in regulation of gene expression independently of hyperglycemia and its interaction with pioglitazone may modify tALP, a important bone marker. IL6 -174G>C variant is related with reduced risk of postprandial hyperglycemia but not with mRNA expression or bone markers.

Serum Hsp70 as an early predictor of fatal outcome after severe traumatic brain injury in males.

Severe traumatic brain injury (TBI) is associated with a 35-70% mortality rate. Biochemical markers of cellular stress/injury have been proposed to indicate outcome after head injury. Therefore, our aim was to determine whether Hsp70 could be detected in the serum of patients after severe TBI and whether serum levels of Hsp70 correlate with primary outcome in severe TBI. Twenty consecutive male patients, victims of severe TBI (GCS 3-8), were enrolled in this prospective study. Clinical outcome variables of severe TBI comprised: survival, time for ICU discharge, and neurological assessment using the Glasgow Outcome Scale (GOS) at the ICU discharge. Venous blood samples were taken at admission in the ICU (study entry), 24 h later, and 7 days later. A control group consisting of eight healthy male volunteers was also included. Serum Hsp70 levels were measured by an enzyme-linked immunosorbent assay. Mean serum Hsp70 concentrations were significantly increased in the TBI (97.6, 48.1, and 39.2 ng/mL, at study entry, 24 h later, and 7 days later, respectively) compared with the control group (12.2 ng/mL). Severe TBI was associated with a 50% mortality rate. On study entry (mean time 10.8 h after injury), a higher proportion of patients with fatal outcome had elevated serum Hsp70 (mean 143.5 ng/mL) concentrations when compared with survivors (mean 51.6 ng/mL). There was a significant correlation between higher initial serum Hsp70 concentrations and fatal outcome. The sensitivity of serum Hsp70 predicting mortality according to the cutoff of 62 ng/mL is 70% within 20 h after injury. Increased serum Hsp70 levels may constitute an early predictor of unfavorable outcome in severe TBI in males.