Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna
Pharmaceuticals and other emerging contaminants are continuously released into the aquatic environment, considered as 'pseudo-persistent' pollutants. Many compounds degrade fast in the environment, but sometimes their transformation products (TPs) are equally or even more toxic than the parental compounds, raising concern about the potential risks to the environment. In this way, the crustacean Daphnia magna (D. magna) is one of the most widely used organisms in aquatic toxicology studies, since it is an interesting non-vertebrate model to study via neurotransmitters the toxicological consequences of contaminants. In this study, the stability in water of 17 neuroactive compounds using ultra-high-performance liquid chromatography (UHPLC) coupled to a MS/MS detector was evaluated. In order to assess the stability of the compounds, samples of 1 ng μL-1 were analyzed at different times (0, 24 and 48 h). No degradation was observed for most of the studied compounds, except for apomorphine and 6-hydroxydopamine that were degraded completely in the first 24 h. The behavioral assay was based in the automatized delivery of visible light stimuli. Most of the tested compounds altered motile responses to light significantly. The pharmaceuticals memantine, imidacloprid, fluoxetine, deprenyl, diazepam, apomorphine and 6-hydroxydopamine decreased motile responses to light. Conversely, pilocarpine, scopolamine, nicotine and p-chlorophenylalanine increased motile responses. Despite the observed degradation of apomorphine and 6-hydroxydopamine, their degradation products (APO-TP1 and 6OH-TP1) were stable and so their effects on behavior. This study shows that a degradation or transformation of the main pollutant is not always linked to a decrease in its toxicity.
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2021-12-01
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| Subjects: | Behavior, Daphnia magna, LC-MS/MS, Neuroactive drugs, Stability, |
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dig-idaea-es-10261-2646922024-10-26T20:48:17Z Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna Bellot, Marina Barata Martí, Carlos Gómez-Canela, Cristian Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability Pharmaceuticals and other emerging contaminants are continuously released into the aquatic environment, considered as 'pseudo-persistent' pollutants. Many compounds degrade fast in the environment, but sometimes their transformation products (TPs) are equally or even more toxic than the parental compounds, raising concern about the potential risks to the environment. In this way, the crustacean Daphnia magna (D. magna) is one of the most widely used organisms in aquatic toxicology studies, since it is an interesting non-vertebrate model to study via neurotransmitters the toxicological consequences of contaminants. In this study, the stability in water of 17 neuroactive compounds using ultra-high-performance liquid chromatography (UHPLC) coupled to a MS/MS detector was evaluated. In order to assess the stability of the compounds, samples of 1 ng μL-1 were analyzed at different times (0, 24 and 48 h). No degradation was observed for most of the studied compounds, except for apomorphine and 6-hydroxydopamine that were degraded completely in the first 24 h. The behavioral assay was based in the automatized delivery of visible light stimuli. Most of the tested compounds altered motile responses to light significantly. The pharmaceuticals memantine, imidacloprid, fluoxetine, deprenyl, diazepam, apomorphine and 6-hydroxydopamine decreased motile responses to light. Conversely, pilocarpine, scopolamine, nicotine and p-chlorophenylalanine increased motile responses. Despite the observed degradation of apomorphine and 6-hydroxydopamine, their degradation products (APO-TP1 and 6OH-TP1) were stable and so their effects on behavior. This study shows that a degradation or transformation of the main pollutant is not always linked to a decrease in its toxicity. The authors thank Ms. Anna Muñoz and Dr. Gemma Gotor, of the Analytical and Applied Chemistry Department in IQS, for their great support in the laboratory. Peer reviewed 2022-03-21T10:10:45Z 2022-03-21T10:10:45Z 2021-12-01 artículo http://purl.org/coar/resource_type/c_6501 Science of the Total Environment 798: 149252 (2021) 00489697 http://hdl.handle.net/10261/264692 10.1016/j.scitotenv.2021.149252 34340064 2-s2.0-85111604951 https://api.elsevier.com/content/abstract/scopus_id/85111604951 en The Science of the total environment Postprint https://doi.org/10.1016/j.scitotenv.2021.149252 Sí open Elsevier |
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Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability |
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Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability Bellot, Marina Barata Martí, Carlos Gómez-Canela, Cristian Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| description |
Pharmaceuticals and other emerging contaminants are continuously released into the aquatic environment, considered as 'pseudo-persistent' pollutants. Many compounds degrade fast in the environment, but sometimes their transformation products (TPs) are equally or even more toxic than the parental compounds, raising concern about the potential risks to the environment. In this way, the crustacean Daphnia magna (D. magna) is one of the most widely used organisms in aquatic toxicology studies, since it is an interesting non-vertebrate model to study via neurotransmitters the toxicological consequences of contaminants. In this study, the stability in water of 17 neuroactive compounds using ultra-high-performance liquid chromatography (UHPLC) coupled to a MS/MS detector was evaluated. In order to assess the stability of the compounds, samples of 1 ng μL-1 were analyzed at different times (0, 24 and 48 h). No degradation was observed for most of the studied compounds, except for apomorphine and 6-hydroxydopamine that were degraded completely in the first 24 h. The behavioral assay was based in the automatized delivery of visible light stimuli. Most of the tested compounds altered motile responses to light significantly. The pharmaceuticals memantine, imidacloprid, fluoxetine, deprenyl, diazepam, apomorphine and 6-hydroxydopamine decreased motile responses to light. Conversely, pilocarpine, scopolamine, nicotine and p-chlorophenylalanine increased motile responses. Despite the observed degradation of apomorphine and 6-hydroxydopamine, their degradation products (APO-TP1 and 6OH-TP1) were stable and so their effects on behavior. This study shows that a degradation or transformation of the main pollutant is not always linked to a decrease in its toxicity. |
| author2 |
Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] |
| author_facet |
Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] Bellot, Marina Barata Martí, Carlos Gómez-Canela, Cristian |
| format |
artículo |
| topic_facet |
Behavior Daphnia magna LC-MS/MS Neuroactive drugs Stability |
| author |
Bellot, Marina Barata Martí, Carlos Gómez-Canela, Cristian |
| author_sort |
Bellot, Marina |
| title |
Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| title_short |
Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| title_full |
Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| title_fullStr |
Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| title_full_unstemmed |
Aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in Daphnia magna |
| title_sort |
aqueous stability and degradation of psychiatric and neuroactive compounds and its biological activity in daphnia magna |
| publisher |
Elsevier |
| publishDate |
2021-12-01 |
| url |
http://hdl.handle.net/10261/264692 https://api.elsevier.com/content/abstract/scopus_id/85111604951 |
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