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Lead poisoning and brain cell function.

Exposure to excessive amounts of inorganic lead during the toddler years may produce lasting adverse effects upon brain function. Maximal ingestion of lead occurs at an age when major changes are occurring in the density of brain synaptic connections. The developmental reorganization of synapses is,...

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Detalles Bibliográficos
Autor principal: Goldstein, G W
Formato: Texto
Lenguaje:English
Publicado: 1990
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567775/
https://www.ncbi.nlm.nih.gov/pubmed/2088761
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author Goldstein, G W
author_facet Goldstein, G W
author_sort Goldstein, G W
collection PubMed
description Exposure to excessive amounts of inorganic lead during the toddler years may produce lasting adverse effects upon brain function. Maximal ingestion of lead occurs at an age when major changes are occurring in the density of brain synaptic connections. The developmental reorganization of synapses is, in part, mediated by protein kinases, and these enzymes are particularly sensitive to stimulation by lead. By inappropriately activating specific protein kinases, lead poisoning may disrupt the development of neural networks without producing overt pathological alterations. The blood-brain barrier is another potential vulnerable site for the neurotoxic action of lead. Protein kinases appear to regulate the development of brain capillaries and the expression of the blood-brain barrier properties. Stimulation of protein kinase by lead may disrupt barrier development and alter the precise regulation of the neuronal environment that is required for normal brain function. Together, these findings suggest that the sensitivity of protein kinases to lead may in part underlie the brain dysfunction observed in children poisoned by this toxicant.
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spelling pubmed-15677752006-09-18 Lead poisoning and brain cell function. Goldstein, G W Environ Health Perspect Research Article Exposure to excessive amounts of inorganic lead during the toddler years may produce lasting adverse effects upon brain function. Maximal ingestion of lead occurs at an age when major changes are occurring in the density of brain synaptic connections. The developmental reorganization of synapses is, in part, mediated by protein kinases, and these enzymes are particularly sensitive to stimulation by lead. By inappropriately activating specific protein kinases, lead poisoning may disrupt the development of neural networks without producing overt pathological alterations. The blood-brain barrier is another potential vulnerable site for the neurotoxic action of lead. Protein kinases appear to regulate the development of brain capillaries and the expression of the blood-brain barrier properties. Stimulation of protein kinase by lead may disrupt barrier development and alter the precise regulation of the neuronal environment that is required for normal brain function. Together, these findings suggest that the sensitivity of protein kinases to lead may in part underlie the brain dysfunction observed in children poisoned by this toxicant. 1990-11 /pmc/articles/PMC1567775/ /pubmed/2088761 Text en
spellingShingle Research Article
Goldstein, G W
Lead poisoning and brain cell function.
title Lead poisoning and brain cell function.
title_full Lead poisoning and brain cell function.
title_fullStr Lead poisoning and brain cell function.
title_full_unstemmed Lead poisoning and brain cell function.
title_short Lead poisoning and brain cell function.
title_sort lead poisoning and brain cell function.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567775/
https://www.ncbi.nlm.nih.gov/pubmed/2088761
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