TY - JOUR
T1 - World Trade Center dust induces nasal and neurological tissue injury while propagating reduced olfaction capabilities and increased anxiety behaviors
AU - Hernandez, Michelle
AU - Vaughan, Joshua
AU - Gordon, Terry
AU - Lippmann, Morton
AU - Gandy, Sam
AU - Chen, Lung Chi
N1 - Publisher Copyright:
© 2022 Informa UK Limited, trading as Taylor & Francis Group.
PY - 2022
Y1 - 2022
N2 - Objective: Previous in vitro and in vivo World Trade Center particulate matter (WTCPM) exposure studies have provided evidence of exposure-driven oxidative/nitrative stress and inflammation on respiratory tract and aortic tissues. What remains to be fully understood are secondary organ impacts due to WTCPM exposure. This study was designed to test if WTC particle-induced nasal and neurologic tissue injury may result in unforeseen functional and behavioral outcomes. Material and Methods: WTCPM was intranasally administered in mice, evaluating genotypic, histopathologic, and olfaction latency endpoints. Results: WTCPM exposure was found to incite neurologic injury and olfaction latency in intranasally (IN) exposed mice. Single high-dose and repeat low-dose nasal cavity insults from WTCPM dust resulted in significant olfaction delays and enduring olfaction deficits. Anxiety-dependent behaviors also occurred in mice experiencing olfaction loss including significant body weight loss, increased incidence and time spent in hind stretch postures, as well as increased stationary time and decreased exploratory time. Additionally, WTCPM exposure resulted in increased whole brain wet/dry ratios and wet whole brain to body mass ratios that were correlated with exposure and increased exposure dose (p<0.05). Discussion: The potential molecular drivers of WTCPM-driven tissue injury and olfaction latency may be linked to oxidative/nitrative stress and inflammatory cascades in both upper respiratory nasal and brain tissues. Conclusion: Cumulatively, these data provide evidence of WTCPM exposure in relation to tissue damage related to oxidative stress-driven inflammation identified in the nasal cavity, propagated to olfactory bulb tissues and, potentially, over extended periods, to other CNS tissues.
AB - Objective: Previous in vitro and in vivo World Trade Center particulate matter (WTCPM) exposure studies have provided evidence of exposure-driven oxidative/nitrative stress and inflammation on respiratory tract and aortic tissues. What remains to be fully understood are secondary organ impacts due to WTCPM exposure. This study was designed to test if WTC particle-induced nasal and neurologic tissue injury may result in unforeseen functional and behavioral outcomes. Material and Methods: WTCPM was intranasally administered in mice, evaluating genotypic, histopathologic, and olfaction latency endpoints. Results: WTCPM exposure was found to incite neurologic injury and olfaction latency in intranasally (IN) exposed mice. Single high-dose and repeat low-dose nasal cavity insults from WTCPM dust resulted in significant olfaction delays and enduring olfaction deficits. Anxiety-dependent behaviors also occurred in mice experiencing olfaction loss including significant body weight loss, increased incidence and time spent in hind stretch postures, as well as increased stationary time and decreased exploratory time. Additionally, WTCPM exposure resulted in increased whole brain wet/dry ratios and wet whole brain to body mass ratios that were correlated with exposure and increased exposure dose (p<0.05). Discussion: The potential molecular drivers of WTCPM-driven tissue injury and olfaction latency may be linked to oxidative/nitrative stress and inflammatory cascades in both upper respiratory nasal and brain tissues. Conclusion: Cumulatively, these data provide evidence of WTCPM exposure in relation to tissue damage related to oxidative stress-driven inflammation identified in the nasal cavity, propagated to olfactory bulb tissues and, potentially, over extended periods, to other CNS tissues.
KW - World Trade Center dust
KW - central nervous system
KW - intranasal instillation
KW - particulate matter exposure
UR - http://www.scopus.com/inward/record.url?scp=85130126270&partnerID=8YFLogxK
U2 - 10.1080/08958378.2022.2072027
DO - 10.1080/08958378.2022.2072027
M3 - Article
C2 - 35533138
AN - SCOPUS:85130126270
SN - 0895-8378
VL - 34
SP - 175
EP - 188
JO - Inhalation Toxicology
JF - Inhalation Toxicology
IS - 7-8
ER -