Science Inventory

Zebrafish Locomotor Responses Predict Irritant Potential of Smoke Particulate Matter from Five Biomass Fuels

Citation:

Martin, W., S. Padilla, Y. Kim, M. Hays, D. Hunter, M. Hazari, Ian Gilmour, AND A. Farraj. Zebrafish Locomotor Responses Predict Irritant Potential of Smoke Particulate Matter from Five Biomass Fuels. Annual Meeting of the Society of Toxicology, Baltimore, Maryland, March 12 - 16, 2017.

Impact/Purpose:

The research findings demonstrate the utility of a simple and rapid assay in zebrafish to assess irritant effects of air pollution-derived particulate matter. Because health effects of PM stem in part from the irritating properties of PM components and zebrafish responses to irritants take place through similar mechanisms, this zebrafish model may be useful in assessment of the relative toxicity of PM sources. This approach may expedite comparative toxicity assessments and thus hazard determinations of PM, facilitate identification of the most toxic PM sources and causal components, and identify putative modes of action.

Description:

Over the past few decades, the drying and warming trends of global climate change have increased wildland fire (WF) season length, as well as geographic area impacted. Consequently, exposures to WF fine particulate matter (PM2.5; aerodynamic diameter <2.5 µm) are likely to increase in frequency and duration, contributing to a growing public health burden. Given the influence of fuel type and combustion conditions on WFPM2.5 composition, there is pressing need to identify the biomass fuel sources and emission constituents that drive toxicity. Previously, we reported the utility of 6-day post-fertilization (dpf) zebrafish larvae in evaluating diesel exhaust PM-induced irritation, demonstrating responses analogous to those in mammals. In the present study, combustions, separated by smoldering or flaming conditions, of pine needles, red oak, pine, eucalyptus, and peat were achieved using an automated tube furnace paired with a cryo-trapping apparatus to collect condensates of emissions. The condensates were extracted and prepared for use in zebrafish assays. We hypothesized that 1) the extractable organic fractions of biomass smoke PM will elicit dose-dependent irritant responses in 6-dpf zebrafish larvae, and 2) the relative potencies will vary across biomass emissions, potentially driven by varying chemical composition of fuel sources. Six-dpf zebrafish (n= 28-32/group) were exposed acutely to PM extracts (5 concentrations; 0.3-30 µg/ml; half-log intervals) and activity was assessed in the dark using video tracking software. Extracts collected from five smoldering emissions elicited dose-dependent increases (p<0.001) in locomotor activity. Preliminary analysis of rank order potencies indicate that for smoldering conditions, the red oak and pine are most potent. Evaluation of the impacts of flaming burn conditions is in progress. In conclusion, the zebrafish assay is sensitive across a wide PM extract dose range and allows for rapid determination of relative potencies of multiple biomass PM sources. The differential potencies of the biomass emissions may be, in part, a response to variability in chemical composition among the biomass PM samples. [This abstract does not reflect USEPA policy].

Record Details:

Record Type: DOCUMENT (PRESENTATION/POSTER)
Product Published Date: 03/16/2017
Record Last Revised: 06/01/2017
OMB Category: Other
Record ID: 336460

Organization:

U.S. ENVIRONMENTAL PROTECTION AGENCY

OFFICE OF RESEARCH AND DEVELOPMENT

NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY

ENVIRONMENTAL PUBLIC HEALTH DIVISION

CARDIOPULMONARY AND IMMUNOTOXICOLOGY BRANCH