Acrolein depletes the neuropeptides CGRP and substance P in sensory nerves in rat respiratory tract.

Springall, David R.; Edginton, J.A.G.; Price, Philip N.; Swanston, D.W.; Noel, Carole; Bloom, Stephen R.; Polak, Julia M.

doi:10.1289/ehp.85-1568331

Cited by 5 publications

(1 citation statement)

References 26 publications

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“…No studies were located regarding neurological effects in humans after inhalation exposure to acrolein. Springall, et al (1990) indicate that acrolein may induce release of peptides that could play a role in the physiological response to irritants. Concentrations of acrolein between 22 and 249 ppm for 10 min induced a dose-related decrease in substance P (a short-chain polypeptide that functions as a neurotransmitter or neuromodulator) and calcitonin gene-related peptide in nerve terminals innervating the trachea of rats (Springall, et al, 1990).…”

Section: Neurological Effectsmentioning

confidence: 99%

Acrolein health effects

et al. 2008

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Acrolein is a chemical used as an intermediate reactive aldehyde in chemical industry. It is used for synthesis of many organic substances, methionine production, and methyl chloride refrigerant. The general population is exposed to acrolein via smoking, second-hand smoke, exposure to wood and plastic smoke. Firefighters and population living or working in areas with heavy automotive traffic may expose to higher level of acrolein via inhalation of smoke or automotive exhaust. Degradation of acrolein in all environmental media occurs rapidly, therefore, environmental accumulation is not expected. Acrolein degrade in 6A days when applied to surface water, and it has not been found as a contaminant in municipal drinking water. Acrolein vapor may cause eye, nasal and respiratory tract irritations in low level exposure. A decrease in breathing rate was reported by volunteers acutely exposed to 0.3A ppm of acrolein. At similar level, mild nasal epithelial dysplasia, necrosis, and focal basal cell metaplasia have been observed in rats. The acrolein effects on gastrointestinal mucosa in the animals include epithelial hyperplasia, ulceration, and hemorrhage. The severity of the effects is dose dependent. Acrolein induces the respiratory, ocular, and gastrointestinal irritations by inducing the release of peptides in nerve terminals innervating these systems. Levels of acrolein between 22 and 249 ppm for 10 min induced a dose-related decrease in substance P (a short-chain polypeptide that functions as a neurotransmitter or neuromodulator).

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Section: Neurological Effectsmentioning

confidence: 99%

Acrolein health effects

et al. 2008

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Sensory nerve-mediated inhibitory responses in airways of F344 rats

Szarek

Spurlock

1997

Toxicology

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Four-Week Exposure to Disel Exhaust Includes Nasal Muscosal Hyperresponsiveness to Histamine in Guinea Pigs

1998

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It has been reported that diesel exhaust (DE) particulates augment increases in nasal congestion and nasal secretion induced by histamine (His). We also showed that short-term (3-h) exposure to DE induces nasal mucosal hyperresponsiveness to His. Therefore, in the present study we investigated that whether 4-week exposure of guinea pigs to diesel exhaust would likewise induce nasal mucosal hyperresponsiveness to His. Sneezing number, nasal secretion from the nostril, and intranasal airway resistance induced by His were measured as indices of sneezing response, rhinorrhea, and nasal congestion, respectively. Guinea pigs of each group were exposed to filtered air, with or without a low or high concentration of DE for 3, 7, or 28 days. Exposure to a low or high concentration of DE itself did not induce sneezing, nasal secretion, or nasal congestion. However, exposure to a high concentration of DE augmented that the number of sneezes induced by His, whereas exposure to a low concentration of DE had no significant effect. Exposure to DE for 7 and days tended to augment an increase in nasal secretion induced by exposure to His aerosol in a DE concentration-dependent fashion. The augmentation, however, was not statistically significant. Exposure to high or low DE for 3 or 7 days had no significant effect on the increase in intranasal pressure (INP) induced by a 10-min exposure to His aerosol, but exposure to high DE for 28 days augmented the increase in INP induced by His, significantly. Exposure to low DE for 28 days did not augment the increase in INP immediately after inhalation of His aerosol. These results reveal that 4-week exposure to high DE induces nasal mucosal hyperresponsiveness in guinea pigs.

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Acrolein depletes the neuropeptides CGRP and substance P in sensory nerves in rat respiratory tract.

Cited by 5 publications

References 26 publications

Acrolein health effects

Acrolein health effects

Sensory nerve-mediated inhibitory responses in airways of F344 rats

Four-Week Exposure to Disel Exhaust Includes Nasal Muscosal Hyperresponsiveness to Histamine in Guinea Pigs

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