Transcriptomics

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Comparative Toxicological Evaluation of the Insensitive Munition (IM) 1-methyl-3-nitroguanidine versus its UV-Degradation Products in Fathead Minnow


ABSTRACT: Abstract: The Army is replacing traditional munitions with insensitive munitions (IM) resistant to accidental detonation. Although the parent IM compound nitroguanidine (NQ) is generally not acutely toxic at concentrations >1000 mg/L in aquatic exposures, products formed by intensive UV-degradation resulted in of multiple-order of magnitude increase in toxicity. A methylated congener of NQ, 1-methyl-3-nitroguanidine (MeNQ), is also being assessed for potential use in IM explosive formulations and consequently was here investigated for UV-degradation hazard and bioaccumulation potential. While up to 716 mg/L parent MeNQ caused no significant mortality or effects on growth in in larval P. promelas in 7-d exposures, the same concentration of MeNQ subjected to UV-treatment resulted in 85% mortality. The UV-treatment degraded only 3.3% of the MeNQ (5,800 mg/L stock, UV-treated for 6h at UV 12x > sunlight), indicating that MeNQ degradation products have potentially high potency. The parent MeNQ exposure decreased transcriptional expression of genes within the significantly enriched insulin metabolic pathway suggesting antagonism of bioenergetics pathways which compliments observed, although non-significant, decreases in body weights. Transcriptional expression in the UV-degraded MeNQ exposures resulted in significant enrichment of pathways and functions related to cell cycle, but also erythrocyte function related to O2/CO2 exchange. These functions likely represent the mechanistic source(s) of increased toxicity observed in the UV-degraded MeNQ exposures, which are distinct from previously observed mechanisms underlying increased UV-degraded NQ toxicity in fish.

ORGANISM(S): Pimephales promelas

PROVIDER: GSE136782 | GEO | 2020/02/19

REPOSITORIES: GEO

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