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Ruden D. Epigenetics of early‑life lead exposure and effects on brain of early life lead exposure on the expression of interleukin (IL) 1β,
development. Epigenomics 2012;4:665‑74. IL‑6, and glial fibrillary acidic protein in the hippocampus of mouse
5. Mason LH, Harp JP, Han DY. Pb neurotoxicity: neuropsychological pups. Hum Exp Toxicol 2015;34:357‑63.
effects of lead toxicity. Biomed Res Int 2014;2014:840547. 27. Cheng YJ, Liu MY, Wu TP, Yang BC. Regulation of tumor necrosis
6. Behl M, Zhang Y, Monnot AD, Jiang W, Zheng W. Increased factor‑alpha in glioma cells by lead and lipopolysaccharide: involvement
beta‑amyloid levels in the choroid plexus following lead exposure of common signaling pathway. Toxicol Lett 2004;152:127‑37.
and the involvement of low‑density lipoprotein receptor protein‑1. 28. Nava‑Ruiz C, Méndez‑Armenta M, Ríos C. Lead neurotoxicity: effects
Toxicol Appl Pharmacol 2009;240:245‑54. on brain nitric oxide synthase. J Mol Histol 2012;43:553‑63.
7. Toscano CD, Hashemzadeh‑Gargari H, McGlothan JL, Guilarte TR. 29. Lipton SA, Gu Z, Nakamura T. Inflammatory mediators leading to
Developmental Pb exposure alters NMDAR subtypes and reduces protein misfolding and uncompetitive/fast off‑rate drug therapy for
2 +
CREB phosphorylation in the rat brain. Brain Res Dev Brain Res neurodegenerative disorders. Int Rev Neurobiol 2007;82:1‑27.
2002;139:217‑26. 30. Choi SH, Lee DY, Kim SU, Jin BK. Thrombin‑induced oxidative
8. Raunio S, Tähti H. Glutamate and calcium uptake in astrocytes stress contributes to the death of hippocampal neurons in vivo: role
after acute lead exposure. Chemosphere 2001;44:355‑9. of microglial NADPH oxidase. J Neurosci 2005;25:4082‑90.
9. Struzyñska L, Bubko I, Walski M, Rafalowska U. Astroglial reaction 31. Soltaninejad K, Kebriaeezadeh A, Minaiee B, Ostad SN, Hosseini R,
during the early phase of acute lead toxicity in the adult rat brain. Azizi E, Abdollahi M. Biochemical and ultrastructural evidences for
Toxicology 2001;165:121‑31. toxicity of lead through free radicals in rat brain. Hum Exp Toxicol
10. Struzynska L, Dabrowska‑Bouta B, Koza K, Sulkowski G. 2003;22:417‑23.
Inflammation‑like glial response in lead‑exposed immature rat brain. 32. Vogel SN, Fitzgerald KA, Fenton MJ. TLRs: differential adapter
Toxicol Sci 2007;95:156‑62. utilization by toll‑like receptors mediates TLR‑specific patterns of
11. Liu MC, Liu XQ, Wang W, Shen XF, Che HL, Guo YY, Zhao MG, gene expression. Mol Interv 2003;3:466‑77.
Chen JY, Luo WJ. Involvement of microglia activation in the 33. Sá‑Pereira I, Brites D, Brito MA. Neurovascular unit: a focus on
lead induced long‑term potentiation impairment. PLoS One pericytes. Mol Neurobiol 2012;45:327‑47.
2012;7:e43924. 34. Witthoft A, Em Karniadakis G. A bidirectional model for
12. Struzynska L. A glutamatergic component of lead toxicity in adult communication in the neurovascular unit. J Theor Biol
brain: the role of astrocytic glutamate transporters. Neurochem Int 2012;311:80‑93.
2009;55:151‑6. 35. Rouach N, Avignone E, Même W, Koulakoff A, Venance L,
13. Toscano CD, McGlothan JL, Guilarte TR. Lead exposure alters Blomstrand F, Giaume C. Gap junctions and connexin expression
cyclic‑AMP response element binding protein phosphorylation and in the normal and pathological central nervous system. Biol Cell
binding activity in the developing rat brain. Brain Res Dev Brain 2002;94:457‑75.
Res 2003;145:219‑28. 36. Stipursky J, Romão L, Tortelli V, Neto VM, Gomes FC. Neuron‑glia
14. Bressler J, Kim KA, Chakraborti T, Goldstein G. Molecular signaling: implications for astrocyte differentiation and synapse
mechanisms of lead neurotoxicity. Neurochem Res 1999;24:595‑600. formation. Life Sci 2011;89:524‑31.
15. Flora SJ, Gautam P, Kushwaha P. Lead and ethanol co‑exposure 37. Siddharthan V, Kim YV, Liu S, Kim KS. Human astrocytes/
lead to blood oxidative stress and subsequent neuronal apoptosis astrocyte‑conditioned medium and shear stress enhance the barrier
in rats. Alcohol Alcohol 2012;47:92‑101. properties of human brain microvascular endothelial cells. Brain Res
16. Lepper TW, Oliveira E, Koch GD, Berlese DB, Feksa LR. Lead 2007;1147:39‑50.
inhibits in vitro creatine kinase and pyruvate kinase activity in brain 38. Bélanger M, Allaman I, Magistretti PJ. Brain energy metabolism:
cortex of rats. Toxicol In Vitro 2010;24:1045‑51. focus on astrocyte‑neuron metabolic cooperation. Cell Metab
17. Mousa AM, Al‑Fadhli AS, Rao MS, Kilarkaje N. Gestational lead 2011;14:724‑38.
exposure induces developmental abnormalities and up‑regulates 39. Brown AM. Brain glycogen re‑awakened. J Neurochem
apoptosis of fetal cerebellar cells in rats. Drug Chem Toxicol 2004;89:537‑52.
2015;38:73‑83. 40. Brown AM, Ransom BR. Astrocyte glycogen and brain energy
18. Liu W, Tang Y, Feng J. Cross talk between activation of microglia metabolism. Glia 2007;55:1263‑71.
and astrocytes in pathological conditions in the central nervous 41. Walls AB, Heimbürger CM, Bouman SD, Schousboe A,
system. Life Sci 2011;89:141‑6. Waagepetersen HS. Robust glycogen shunt activity in astrocytes:
19. Kasten‑Jolly J, Heo Y, Lawrence DA. Central nervous system effects of glutamatergic and adrenergic agents. Neuroscience
cytokine gene expression: modulation by lead. J Biochem Mol 2009;158:284‑92.
Toxicol 2011;25:41‑54. 42. Suzuki A, Stern SA, Bozdagi O, Huntley GW, Walker RH,
20. Kasten‑Jolly J, Pabello N, Bolivar VJ, Lawrence DA. Developmental Magistretti PJ, Alberini CM. Astrocyte‑neuron lactate transport is
lead effects on behavior and brain gene expression in male and required for long‑term memory formation. Cell 2011;144:810‑23.
female BALB/cAnNTac mice. Neurotoxicology 2012;33:1005‑20. 43. Maiti AK, Saha NC, Paul G. Effect of lead on oxidative stress,
21. Kumawat KL, Kaushik DK, Goswami P, Basu A. Acute exposure Na+K+ATPase activity and mitochondrial electron transport chain
to lead acetate activates microglia and induces subsequent activity of the brain of Clarias batrachus L. Bull Environ Contam
bystander neuronal death via caspase‑3 activation. Neurotoxicology Toxicol 2010;84:672‑6.
2014;41:143‑53. 44. Cassina P, Cassina A, Pehar M, Castellanos R, Gandelman M,
22. Verstraeten SV, Aimo L, Oteiza PI. Aluminium and lead: molecular de León A, Robinson KM, Mason RP, Beckman JS, Barbeito L,
mechanisms of brain toxicity. Arch Toxicol 2008;82:789‑802. Radi R. Mitochondrial dysfunction in SOD1G93A‑bearing
23. Kraft AD, Harry GJ. Features of microglia and neuroinflammation astrocytes promotes motor neuron degeneration: prevention by
relevant to environmental exposure and neurotoxicity. Int J Environ mitochondrial‑targeted antioxidants. J Neurosci 2008;28:4115‑22.
Res Public Health 2011;8:2980‑3018. 45. Abbott NJ, Rönnbäck L, Hansson E. Astrocyte‑endothelial
24. Zurich MG, Eskes C, Honegger P, Bérode M, Monnet‑Tschudi F. interactions at the blood‑brain barrier. Nat Rev Neurosci
Maturation‑dependent neurotoxicity of lead acetate in vitro: 2006;7:41‑53.
implication of glial reactions. J Neurosci Res 2002;70:108‑16. 46. Hartmann C, Zozulya A, Wegener J, Galla HJ. The impact
25. Li N, Liu F, Song L, Zhang P, Qiao M, Zhao Q, Li W. The effects of glia‑derived extracellular matrices on the barrier function
of early life Pb exposure on the expression of IL1‑β, TNF‑a and of cerebral endothelial cells: an in vitro study. Exp Cell Res
Aβ in cerebral cortex of mouse pups. J Trace Elem Med Biol 2007;313:1318‑25.
2014;28:100‑4. 47. Rosenberg GA. Matrix metalloproteinases in multiple sclerosis: is it
26. Li N, Liu X, Zhang P, Qiao M, Li H, Li X, Zhang H, Yu Z. The effects time for a treatment trial? Ann Neurol 2001;50:431‑3.

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