Effects of Combined Exposure to Lead and High-Fat Diet on Bone Quality in Juvenile Male Mice

Lead (Pb) exposure and obesity are co-occurring risk factors for decreased bone mass in the young, particularly in low socioeconomic communities. The goal of this study was to determine whether the comorbidities of Pb exposure and high-fat diet-induced obesity amplify skeletal deficits independently...

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Veröffentlicht in:	Environmental health perspectives 2015-10, Vol.123 (10), p.935-935
Hauptverfasser:	Beier, Eric E, Inzana, Jason A, Sheu, Tzong-Jen, Shu, Lei, Puzas, J Edward, Mooney, Robert A
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biomedical materials Body fat Bone density Bone Development - drug effects Bone marrow Bones Care and treatment Cell differentiation Density Diet Diet, High-Fat - adverse effects Diets Drinking water Environmental Pollutants - toxicity Exposure Fatty acids Genotype & phenotype Health Health aspects Inertia Ketogenic diet Lead (metal) Lead - toxicity Male Mesenchymal Stromal Cells - drug effects Mice Mice, Inbred C57BL Nutrition Obesity Obesity - chemically induced Osteoporosis Pediatrics Proteins Rats as laboratory animals Risk analysis Risk factors Studies Toxicants Transcription factors Wnt Signaling Pathway - drug effects
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creator	Beier, Eric E Inzana, Jason A Sheu, Tzong-Jen Shu, Lei Puzas, J Edward Mooney, Robert A
description	Lead (Pb) exposure and obesity are co-occurring risk factors for decreased bone mass in the young, particularly in low socioeconomic communities. The goal of this study was to determine whether the comorbidities of Pb exposure and high-fat diet-induced obesity amplify skeletal deficits independently associated with each of these risk factors, and to explore associated mechanisms of the observed deficiencies. Five-week-old male C57BL/6J mice were placed on low-fat (10% kcal, LFD) or high-fat (60% kcal, HFD) diets for 12 weeks. Mice were exposed to lifetime Pb (50 ppm) through drinking water. HFD was associated with increased body mass and glucose intolerance. Both HFD and Pb increased fasting glucose and serum leptin levels. Pb and HFD each reduced trabecular bone quality and together had a further detrimental effect on these bone parameters. Mechanical bone properties of strength were depressed in Pb-exposed bones, but HFD had no significant effect. Both Pb and HFD altered progenitor cell differentiation, promoting osteoclastogenesis and increasing adipogenesis while suppressing osteoblastogenesis. In support of this lineage shift being mediated through altered Wnt signaling, Pb and non-esterified fatty acids in MC3T3 cells increased in vitro PPAR-γ activity and inhibited β-catenin activity. Combining Pb and non-esterified fatty acids enhanced these effects. Pb and HFD produced selective deficits in bone accrual that were associated with alterations in progenitor cell activity that may involve reduced Wnt signaling. This study emphasizes the need to assess toxicants together with other risk factors relevant to human health and disease.
doi_str_mv	10.1289/ehp.1408581
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The goal of this study was to determine whether the comorbidities of Pb exposure and high-fat diet-induced obesity amplify skeletal deficits independently associated with each of these risk factors, and to explore associated mechanisms of the observed deficiencies. Five-week-old male C57BL/6J mice were placed on low-fat (10% kcal, LFD) or high-fat (60% kcal, HFD) diets for 12 weeks. Mice were exposed to lifetime Pb (50 ppm) through drinking water. HFD was associated with increased body mass and glucose intolerance. Both HFD and Pb increased fasting glucose and serum leptin levels. Pb and HFD each reduced trabecular bone quality and together had a further detrimental effect on these bone parameters. Mechanical bone properties of strength were depressed in Pb-exposed bones, but HFD had no significant effect. Both Pb and HFD altered progenitor cell differentiation, promoting osteoclastogenesis and increasing adipogenesis while suppressing osteoblastogenesis. In support of this lineage shift being mediated through altered Wnt signaling, Pb and non-esterified fatty acids in MC3T3 cells increased in vitro PPAR-γ activity and inhibited β-catenin activity. Combining Pb and non-esterified fatty acids enhanced these effects. Pb and HFD produced selective deficits in bone accrual that were associated with alterations in progenitor cell activity that may involve reduced Wnt signaling. 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The goal of this study was to determine whether the comorbidities of Pb exposure and high-fat diet-induced obesity amplify skeletal deficits independently associated with each of these risk factors, and to explore associated mechanisms of the observed deficiencies. Five-week-old male C57BL/6J mice were placed on low-fat (10% kcal, LFD) or high-fat (60% kcal, HFD) diets for 12 weeks. Mice were exposed to lifetime Pb (50 ppm) through drinking water. HFD was associated with increased body mass and glucose intolerance. Both HFD and Pb increased fasting glucose and serum leptin levels. Pb and HFD each reduced trabecular bone quality and together had a further detrimental effect on these bone parameters. Mechanical bone properties of strength were depressed in Pb-exposed bones, but HFD had no significant effect. Both Pb and HFD altered progenitor cell differentiation, promoting osteoclastogenesis and increasing adipogenesis while suppressing osteoblastogenesis. In support of this lineage shift being mediated through altered Wnt signaling, Pb and non-esterified fatty acids in MC3T3 cells increased in vitro PPAR-γ activity and inhibited β-catenin activity. Combining Pb and non-esterified fatty acids enhanced these effects. Pb and HFD produced selective deficits in bone accrual that were associated with alterations in progenitor cell activity that may involve reduced Wnt signaling. 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and High-Fat Diet on Bone Quality in Juvenile Male Mice</atitle><jtitle>Environmental health perspectives</jtitle><addtitle>Environ Health Perspect</addtitle><date>2015-10-01</date><risdate>2015</risdate><volume>123</volume><issue>10</issue><spage>935</spage><epage>935</epage><pages>935-935</pages><issn>0091-6765</issn><eissn>1552-9924</eissn><abstract>Lead (Pb) exposure and obesity are co-occurring risk factors for decreased bone mass in the young, particularly in low socioeconomic communities. 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subjects	Animals Biomedical materials Body fat Bone density Bone Development - drug effects Bone marrow Bones Care and treatment Cell differentiation Density Diet Diet, High-Fat - adverse effects Diets Drinking water Environmental Pollutants - toxicity Exposure Fatty acids Genotype & phenotype Health Health aspects Inertia Ketogenic diet Lead (metal) Lead - toxicity Male Mesenchymal Stromal Cells - drug effects Mice Mice, Inbred C57BL Nutrition Obesity Obesity - chemically induced Osteoporosis Pediatrics Proteins Rats as laboratory animals Risk analysis Risk factors Studies Toxicants Transcription factors Wnt Signaling Pathway - drug effects
title	Effects of Combined Exposure to Lead and High-Fat Diet on Bone Quality in Juvenile Male Mice
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