Disturbance of aerobic metabolism accompanies neurobehavioral changes induced by nickel in mice
•Transient neurobehavioral effects induced by nickel oral exposure.•Nickel deposition in cerebral cortex causes disturbance of aerobic metabolism.•Alteration in iron sulfur cluster scaffold protein may underlie effects of nickel. The oral ingestion of soluble nickel compounds leads to neurological s...
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| Published in | Neurotoxicology (Park Forest South) Vol. 38; pp. 9 - 16 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Amsterdam
Elsevier B.V
01.09.2013
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0161-813X 1872-9711 1872-9711 |
| DOI | 10.1016/j.neuro.2013.05.011 |
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| Abstract | •Transient neurobehavioral effects induced by nickel oral exposure.•Nickel deposition in cerebral cortex causes disturbance of aerobic metabolism.•Alteration in iron sulfur cluster scaffold protein may underlie effects of nickel.
The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can cause an energy crisis in the brain that results in a variety of neurotoxic effects. In the present study, we focused on the aerobic metabolic states to investigate whether disturbance of aerobic metabolism was involved in nickel-induced neurological effects in mice. Mice were orally administered nickel chloride, and neurobehavioral performance was evaluated using the Morris water maze and open field tests at different time points. Aerobic metabolic states in the cerebral cortex were analyzed at the same time points at which neurobehavioral changes were evident. We found that nickel exposure caused deficits in both spatial memory and exploring activity in mice and that nickel was deposited in their cerebral cortex. Deficient aerobic metabolism manifested as decreased O2 consumption and ATP concentrations, lactate and NADH accumulation, and oxidative stress. Meanwhile, the activity of prototypical iron–sulfur clusters (ISCs) containing enzymes that are known to control aerobic metabolism, including complex I and aconitase, and the expression of ISC assembly scaffold protein (ISCU) were inhibited following nickel deposition. Overall, these data suggest that aerobic metabolic disturbances, which accompanied the neurobehavioral changes, may participate in nickel-induced neurologic effects. The inactivation of ISC containing metabolic enzymes may result in the disturbance of aerobic metabolism. A better understanding of how nickel impacts the energy metabolic processes may provide insight into the prevention of nickel neurotoxicity. |
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| AbstractList | The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can cause an energy crisis in the brain that results in a variety of neurotoxic effects. In the present study, we focused on the aerobic metabolic states to investigate whether disturbance of aerobic metabolism was involved in nickel-induced neurological effects in mice. Mice were orally administered nickel chloride, and neurobehavioral performance was evaluated using the Morris water maze and open field tests at different time points. Aerobic metabolic states in the cerebral cortex were analyzed at the same time points at which neurobehavioral changes were evident. We found that nickel exposure caused deficits in both spatial memory and exploring activity in mice and that nickel was deposited in their cerebral cortex. Deficient aerobic metabolism manifested as decreased O2 consumption and ATP concentrations, lactate and NADH accumulation, and oxidative stress. Meanwhile, the activity of prototypical iron-sulfur clusters (ISCs) containing enzymes that are known to control aerobic metabolism, including complex I and aconitase, and the expression of ISC assembly scaffold protein (ISCU) were inhibited following nickel deposition. Overall, these data suggest that aerobic metabolic disturbances, which accompanied the neurobehavioral changes, may participate in nickel-induced neurologic effects. The inactivation of ISC containing metabolic enzymes may result in the disturbance of aerobic metabolism. A better understanding of how nickel impacts the energy metabolic processes may provide insight into the prevention of nickel neurotoxicity. •Transient neurobehavioral effects induced by nickel oral exposure.•Nickel deposition in cerebral cortex causes disturbance of aerobic metabolism.•Alteration in iron sulfur cluster scaffold protein may underlie effects of nickel. The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can cause an energy crisis in the brain that results in a variety of neurotoxic effects. In the present study, we focused on the aerobic metabolic states to investigate whether disturbance of aerobic metabolism was involved in nickel-induced neurological effects in mice. Mice were orally administered nickel chloride, and neurobehavioral performance was evaluated using the Morris water maze and open field tests at different time points. Aerobic metabolic states in the cerebral cortex were analyzed at the same time points at which neurobehavioral changes were evident. We found that nickel exposure caused deficits in both spatial memory and exploring activity in mice and that nickel was deposited in their cerebral cortex. Deficient aerobic metabolism manifested as decreased O2 consumption and ATP concentrations, lactate and NADH accumulation, and oxidative stress. Meanwhile, the activity of prototypical iron–sulfur clusters (ISCs) containing enzymes that are known to control aerobic metabolism, including complex I and aconitase, and the expression of ISC assembly scaffold protein (ISCU) were inhibited following nickel deposition. Overall, these data suggest that aerobic metabolic disturbances, which accompanied the neurobehavioral changes, may participate in nickel-induced neurologic effects. The inactivation of ISC containing metabolic enzymes may result in the disturbance of aerobic metabolism. A better understanding of how nickel impacts the energy metabolic processes may provide insight into the prevention of nickel neurotoxicity. The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can cause an energy crisis in the brain that results in a variety of neurotoxic effects. In the present study, we focused on the aerobic metabolic states to investigate whether disturbance of aerobic metabolism was involved in nickel-induced neurological effects in mice. Mice were orally administered nickel chloride, and neurobehavioral performance was evaluated using the Morris water maze and open field tests at different time points. Aerobic metabolic states in the cerebral cortex were analyzed at the same time points at which neurobehavioral changes were evident. We found that nickel exposure caused deficits in both spatial memory and exploring activity in mice and that nickel was deposited in their cerebral cortex. Deficient aerobic metabolism manifested as decreased O2 consumption and ATP concentrations, lactate and NADH accumulation, and oxidative stress. Meanwhile, the activity of prototypical iron-sulfur clusters (ISCs) containing enzymes that are known to control aerobic metabolism, including complex I and aconitase, and the expression of ISC assembly scaffold protein (ISCU) were inhibited following nickel deposition. Overall, these data suggest that aerobic metabolic disturbances, which accompanied the neurobehavioral changes, may participate in nickel-induced neurologic effects. The inactivation of ISC containing metabolic enzymes may result in the disturbance of aerobic metabolism. A better understanding of how nickel impacts the energy metabolic processes may provide insight into the prevention of nickel neurotoxicity.The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can cause an energy crisis in the brain that results in a variety of neurotoxic effects. In the present study, we focused on the aerobic metabolic states to investigate whether disturbance of aerobic metabolism was involved in nickel-induced neurological effects in mice. Mice were orally administered nickel chloride, and neurobehavioral performance was evaluated using the Morris water maze and open field tests at different time points. Aerobic metabolic states in the cerebral cortex were analyzed at the same time points at which neurobehavioral changes were evident. We found that nickel exposure caused deficits in both spatial memory and exploring activity in mice and that nickel was deposited in their cerebral cortex. Deficient aerobic metabolism manifested as decreased O2 consumption and ATP concentrations, lactate and NADH accumulation, and oxidative stress. Meanwhile, the activity of prototypical iron-sulfur clusters (ISCs) containing enzymes that are known to control aerobic metabolism, including complex I and aconitase, and the expression of ISC assembly scaffold protein (ISCU) were inhibited following nickel deposition. Overall, these data suggest that aerobic metabolic disturbances, which accompanied the neurobehavioral changes, may participate in nickel-induced neurologic effects. The inactivation of ISC containing metabolic enzymes may result in the disturbance of aerobic metabolism. A better understanding of how nickel impacts the energy metabolic processes may provide insight into the prevention of nickel neurotoxicity. |
| Author | Zhang, Xin Zhang, Xiao Zhou, Zhou He, Min-Di Lu, Yong-Hui Xu, Shang-Cheng Xiong, Jia-Chuan Zhang, Lei Yu, Zheng-Ping Wang, Yan |
| Author_xml | – sequence: 1 givenname: Min-Di surname: He fullname: He, Min-Di organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 2 givenname: Shang-Cheng surname: Xu fullname: Xu, Shang-Cheng organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 3 givenname: Xin surname: Zhang fullname: Zhang, Xin organization: Shangpingba District Center for Disease Control and Prevention, Chongqing 400038, People's Republic of China – sequence: 4 givenname: Yan surname: Wang fullname: Wang, Yan organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 5 givenname: Jia-Chuan surname: Xiong fullname: Xiong, Jia-Chuan organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 6 givenname: Xiao surname: Zhang fullname: Zhang, Xiao organization: Shangpingba District Center for Disease Control and Prevention, Chongqing 400038, People's Republic of China – sequence: 7 givenname: Yong-Hui surname: Lu fullname: Lu, Yong-Hui organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 8 givenname: Lei surname: Zhang fullname: Zhang, Lei organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 9 givenname: Zheng-Ping surname: Yu fullname: Yu, Zheng-Ping organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China – sequence: 10 givenname: Zhou surname: Zhou fullname: Zhou, Zhou email: ham1111mer@yahoo.cn organization: Department of Occupational Health, Third Military Medical University, Chongqing 400038, People's Republic of China |
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| Keywords | NAD/NADH MWM Neurobehavioral change Aerobic metabolism OXPHOS SOD HIF-1α MDA Iron–sulfur cluster ROS ISC Nickel ATP ISCU Rodentia Iron―sulfur cluster Nervous system Cluster Transition metal Iron Aerobe Change Metabolism Inorganic element Vertebrata Mammalia Mouse Animal Behavior Sulfur Morris water maze iron–sulfur cluster scaffold protein oxidative phosphorylation nicotinamide adenine dinucleotide superoxide dismutase adenosine triphosphate reactive oxygen species malondialdehyde hypoxia inducible factor-1 alpha |
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| Snippet | •Transient neurobehavioral effects induced by nickel oral exposure.•Nickel deposition in cerebral cortex causes disturbance of aerobic metabolism.•Alteration... The oral ingestion of soluble nickel compounds leads to neurological symptoms in humans. Deficiencies in aerobic metabolism induced by neurotoxic stimulus can... |
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| SubjectTerms | Aconitate Hydratase - metabolism Adenosine Triphosphate - metabolism Aerobic metabolism Aerobiosis - drug effects Animals Biological and medical sciences Brain - drug effects Brain - metabolism Cerebral Cortex - drug effects Cerebral Cortex - metabolism Chemical and industrial products toxicology. Toxic occupational diseases Down-Regulation Exploratory Behavior - drug effects Iron-Sulfur Proteins - metabolism Iron–sulfur cluster ISCU Lactic Acid - metabolism Male Maze Learning - drug effects Medical sciences Metals and various inorganic compounds Mice NAD - metabolism Neurobehavioral change Nickel Nickel - toxicity Oxidative Stress Oxygen Consumption - drug effects Toxicology |
| Title | Disturbance of aerobic metabolism accompanies neurobehavioral changes induced by nickel in mice |
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