Developmental neurotoxicity guideline study: issues with methodology, evaluation and regulation.

Recently social concerns have been increasing about the effects of environmental factors on children's health, especially on their nervous systems. The U.S.

Mammal toxicology of synthetic pyrethroids.

Pyrethroids show moderate acute oral toxicity in rodents, and their typical toxicological signs are tremors (T syndrome) for Type I (generally non-cyano pyrethroids) and choreoathetosis with salivation (CS syndrome) for Type II (generally α-cyano pyrethroids). However, some pyrethroids show mixed clinical signs. Mainly Type II pyrethroids cause paresthesia, which is characterized by transient burning/tingling/itching sensation of the exposed skin.

Perinatal exposure to PTU decreases expression of Arc, Homer 1, Egr 1 and Kcna 1 in the rat cerebral cortex and hippocampus.

Environmental chemicals have a potential impact on neuronal development and children's health. The current developmental neurotoxicity (DNT) guideline studies to assess their underlying risk are costly and time-consuming; therefore the more efficient protocol for DNT test is needed. Hypothyroidism in rats induced by perinatal exposure to propylthiouracil (PTU), a thyroid hormone synthesis inhibitor, offers an advantageous model of developmental neurotoxicity (DNT).

Effects of postnatal ethanol exposure at different developmental phases on neurotrophic factors and phosphorylated proteins on signal transductions in rat brain.

Exposure to ethanol during development induces severe brain damage resulting in a number of CNS dysfunctions including microencephaly and mental retardation in humans and in laboratory animals. The most vulnerable period to ethanol neurotoxicity coincides with the peak of brain growth spurt. Recently, neurotrophic factors and/or their signal transduction pathways have been reported as a potential relevant target for the developmental neurotoxicity of ethanol.

Effects of postnatal ethanol exposure on neurotrophic factors and signal transduction pathways in rat brain.

Exposure to ethanol during development induces severe brain damage, resulting in a number of CNS dysfunctions including microencephaly and mental retardation. Potential targets of ethanol-induced neurotoxicity include neurotrophic factors and their signal transduction pathways. In the present study, rat pups were given ethanol at the dose of 5 g kg(-1) via gavage from postnatal day (PND) 5 to 8, and mRNA expression of nerve growth-factor (NGF), brain-derived neurotrophic factor (BDNF), and neurotrophic factor-3 (NT-3) in the cerebral cortex was examined, with attention to signal transduction, on PND 8.

Ethanol induces cholesterol efflux and up-regulates ATP-binding cassette cholesterol transporters in fetal astrocytes.

Cholesterol plays an important role during brain development, since it is involved in glial cell proliferation, neuronal survival and differentiation, and synaptogenesis. Astrocytes produce large amounts of brain cholesterol and produce and release lipoproteins containing apoE that can extract cholesterol from CNS cells for elimination. We hypothesized that some of the deleterious effects of ethanol in the developing brain may be due to the disruption of cholesterol homeostasis in astrocytes.

Effects of hypothyroidism induced by perinatal exposure to PTU on rat behavior and synaptic gene expression.

Hypothyroidism in the rat induced by perinatal exposure to propylthiouracil (PTU) is a useful animal model to study molecular changes underlying neurobehavioral defects associated with this condition. Understanding the developmental alterations in gene expression related to the neurobehavioral dysfunction should help to identify molecular markers for developmental neurotoxicity at an early stage of development. In the present study, we evaluate the effects of PTU on the expression of a set of genes implicated in neural network formation or synaptic function at a minimal dose of PTU causing behavioral alteration.

In vivo ethanol decreases phosphorylated MAPK and p70S6 kinase in the developing rat brain.

Exposure to ethanol during pregnancy is detrimental to fetal development, and individuals affected by the fetal alcohol syndrome present a number of CN system dysfunctions including microencephaly and mental retardation. Recently, it has been suggested that ethanol-induced inhibition of glial cell proliferation may be relevant in the causation of microencephaly. In this study, we measured the developmental changes of MAPK (ERKl/2) and p70S6 kinase, which are considered to play a prominent role in cell proliferation, and their phosphorylated proteins in rat brain, and examined the effects of in vivo ethanol administration.

[Neurobehavioral toxicity of acrylamide and IDPN (3,3'-iminodipropionitrile) in rats by 28-day oral administration--problems encountered in collaborative study and a commentary on conducting neurobehavioral testing].

In order to clarify technical problems in evaluating neurotoxicity of chemicals and to solve them, a collaborative study with a common protocol was conducted at 11 domestic safety research laboratories. In the collaborative study, acrylamide and IDPN (3,3'-iminodipropionitrile), which are known neurotoxicants, were used, and the chemicals were orally administered to rats for 28 days. In addition to the clinical observation done routinely, detailed clinical observation, sensory and motor function tests including grip strength and motor activity were performed to evaluate neurobehavioral toxicity with reference to Functional Observational Battery (FOB).

Lack of changes in brain muscarinic receptor and motor activity of mice after neonatal inhalation exposure to d-allethrin.

Synthetic pyrethroids are among the most common pesticides and insecticides currently in worldwide use. Eriksson and co-workers postulated that oral exposure of mice to pyrethroids during a neonatal brain growth spurt induces permanent disturbance in the cerebral muscarinic cholinergic receptor (MAChR) and behaviour. However, the scientific basis for these phenomena is now under discussion.