Early and sustained exposure to high-sucrose diet triggers hippocampal ER stress in young rats

Early-life environmental insults have been shown to promote long-term development of chronic non-communicable diseases, including metabolic disturbances and mental illnesses. As such, premature consumption of high-sugar foods has been associated to early onset of detrimental outcomes, whereas underl...

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Veröffentlicht in:	Metabolic brain disease 2016-08, Vol.31 (4), p.917-927
Hauptverfasser:	Pinto, Bruno Araújo Serra, Melo, Thamys Marinho, Flister, Karla Frida Torres, França, Lucas Martins, Kajihara, Daniela, Tanaka, Leonardo Yuji, Laurindo, Francisco Rafael Martins, Paes, Antonio Marcus de Andrade
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Schlagworte:	Adipose Tissue - drug effects Adipose Tissue - metabolism Animals Anxiety - metabolism Behavior, Animal - drug effects Biochemistry Biomedical and Life Sciences Biomedicine Dietary Sucrose - administration & dosage Endoplasmic Reticulum Stress - drug effects Glucose - metabolism Hippocampus - drug effects Hippocampus - metabolism Insulin Resistance - physiology Male Metabolic Diseases Metabolic Syndrome - metabolism Neurology Neurosciences Oncology Original Article Rats Rats, Wistar Triglycerides - metabolism
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container_title	Metabolic brain disease
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creator	Pinto, Bruno Araújo Serra Melo, Thamys Marinho Flister, Karla Frida Torres França, Lucas Martins Kajihara, Daniela Tanaka, Leonardo Yuji Laurindo, Francisco Rafael Martins Paes, Antonio Marcus de Andrade
description	Early-life environmental insults have been shown to promote long-term development of chronic non-communicable diseases, including metabolic disturbances and mental illnesses. As such, premature consumption of high-sugar foods has been associated to early onset of detrimental outcomes, whereas underlying mechanisms are still poorly understood. In the present study, we sought to investigate whether early and sustained exposure to high-sucrose diet promotes metabolic disturbances that ultimately might anticipate neurological injuries. At postnatal day 21, weaned male rats started to be fed a standard chow (10 % sucrose, CTR) or a high-sucrose diet (25 % sucrose, HSD) for 9 weeks prior to euthanasia at postnatal day 90. HSD did not alter weight gain and feed efficiency between groups, but increased visceral, non-visceral and brown adipose tissue accumulation. HSD rats demonstrated elevated blood glucose levels in both fasting and fed states, which were associated to impaired glucose tolerance. Peripheral insulin sensitivity did not change, whereas hepatic insulin resistance was supported by increased serum triglyceride levels, as well as higher TyG index values. Assessment of hippocampal gene expression showed endoplasmic reticulum (ER) stress pathways were activated in HSD rats, as compared to CTR. HSD rats had overexpression of unfolded protein response sensors, PERK and ATF6; ER chaperone, PDIA2 and apoptosis-related genes, CHOP and Caspase 3; but decreased expression of chaperone GRP78. Finally, HSD rats demonstrated impaired neuromuscular function and anxious behavior, but preserved cognitive parameters. In conclusion, our data indicate that early exposure to HSD promote metabolic disturbances, which disrupt hippocampus homeostasis and might precociously affect its neurobehavioral functions.
doi_str_mv	10.1007/s11011-016-9830-1
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Peripheral insulin sensitivity did not change, whereas hepatic insulin resistance was supported by increased serum triglyceride levels, as well as higher TyG index values. Assessment of hippocampal gene expression showed endoplasmic reticulum (ER) stress pathways were activated in HSD rats, as compared to CTR. HSD rats had overexpression of unfolded protein response sensors, PERK and ATF6; ER chaperone, PDIA2 and apoptosis-related genes, CHOP and Caspase 3; but decreased expression of chaperone GRP78. Finally, HSD rats demonstrated impaired neuromuscular function and anxious behavior, but preserved cognitive parameters. 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As such, premature consumption of high-sugar foods has been associated to early onset of detrimental outcomes, whereas underlying mechanisms are still poorly understood. In the present study, we sought to investigate whether early and sustained exposure to high-sucrose diet promotes metabolic disturbances that ultimately might anticipate neurological injuries. At postnatal day 21, weaned male rats started to be fed a standard chow (10 % sucrose, CTR) or a high-sucrose diet (25 % sucrose, HSD) for 9 weeks prior to euthanasia at postnatal day 90. HSD did not alter weight gain and feed efficiency between groups, but increased visceral, non-visceral and brown adipose tissue accumulation. HSD rats demonstrated elevated blood glucose levels in both fasting and fed states, which were associated to impaired glucose tolerance. Peripheral insulin sensitivity did not change, whereas hepatic insulin resistance was supported by increased serum triglyceride levels, as well as higher TyG index values. Assessment of hippocampal gene expression showed endoplasmic reticulum (ER) stress pathways were activated in HSD rats, as compared to CTR. HSD rats had overexpression of unfolded protein response sensors, PERK and ATF6; ER chaperone, PDIA2 and apoptosis-related genes, CHOP and Caspase 3; but decreased expression of chaperone GRP78. Finally, HSD rats demonstrated impaired neuromuscular function and anxious behavior, but preserved cognitive parameters. 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As such, premature consumption of high-sugar foods has been associated to early onset of detrimental outcomes, whereas underlying mechanisms are still poorly understood. In the present study, we sought to investigate whether early and sustained exposure to high-sucrose diet promotes metabolic disturbances that ultimately might anticipate neurological injuries. At postnatal day 21, weaned male rats started to be fed a standard chow (10 % sucrose, CTR) or a high-sucrose diet (25 % sucrose, HSD) for 9 weeks prior to euthanasia at postnatal day 90. HSD did not alter weight gain and feed efficiency between groups, but increased visceral, non-visceral and brown adipose tissue accumulation. HSD rats demonstrated elevated blood glucose levels in both fasting and fed states, which were associated to impaired glucose tolerance. Peripheral insulin sensitivity did not change, whereas hepatic insulin resistance was supported by increased serum triglyceride levels, as well as higher TyG index values. Assessment of hippocampal gene expression showed endoplasmic reticulum (ER) stress pathways were activated in HSD rats, as compared to CTR. HSD rats had overexpression of unfolded protein response sensors, PERK and ATF6; ER chaperone, PDIA2 and apoptosis-related genes, CHOP and Caspase 3; but decreased expression of chaperone GRP78. Finally, HSD rats demonstrated impaired neuromuscular function and anxious behavior, but preserved cognitive parameters. In conclusion, our data indicate that early exposure to HSD promote metabolic disturbances, which disrupt hippocampus homeostasis and might precociously affect its neurobehavioral functions.</abstract><cop>New York</cop><pub>Springer US</pub><pmid>27154727</pmid><doi>10.1007/s11011-016-9830-1</doi><tpages>11</tpages></addata></record>
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subjects	Adipose Tissue - drug effects Adipose Tissue - metabolism Animals Anxiety - metabolism Behavior, Animal - drug effects Biochemistry Biomedical and Life Sciences Biomedicine Dietary Sucrose - administration & dosage Endoplasmic Reticulum Stress - drug effects Glucose - metabolism Hippocampus - drug effects Hippocampus - metabolism Insulin Resistance - physiology Male Metabolic Diseases Metabolic Syndrome - metabolism Neurology Neurosciences Oncology Original Article Rats Rats, Wistar Triglycerides - metabolism
title	Early and sustained exposure to high-sucrose diet triggers hippocampal ER stress in young rats
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