Connecting environmental exposure and neurodegeneration using cheminformatics and high resolution mass spectrometry: potential and challenges

Connecting environmental exposure and neurodegeneration using cheminformatics and high resolution mass spectrometry: potential and challenges

Connecting chemical exposures over a lifetime to complex chronic diseases with multifactorial causes such as neurodegenerative diseases is an immense challenge requiring a long-term, interdisciplinary approach. Rapid developments in analytical and data technologies, such as non-target high resolutio...

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Veröffentlicht in:Environmental science--processes & impacts 2019-09, Vol.21 (9), p.1426-1445
Hauptverfasser: Schymanski, Emma L, Baker, Nancy C, Williams, Antony J, Singh, Randolph R, Trezzi, Jean-Pierre, Wilmes, Paul, Kolber, Pierre L, Kruger, Rejko, Paczia, Nicole, Linster, Carole L, Balling, Rudi
Format: Artikel
Sprache:eng
Schlagworte:
Archiving
Biomarkers - analysis
Chemicals
Computational Chemistry
Data mining
Environmental Exposure - analysis
Environmental factors
Environmental impact
Environmental Pollutants - analysis
Exposure
High resolution
Humans
Informatics
Mass spectrometry
Mass Spectrometry - methods
Mass spectroscopy
Neurodegeneration
Neurodegenerative diseases
Neurodegenerative Diseases - epidemiology
Neurological diseases
Organic chemistry
Questions
Scientific imaging
Spectroscopy
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container_end_page 1445
container_issue 9
container_start_page 1426
container_title Environmental science--processes & impacts
container_volume 21
creator Schymanski, Emma L
Baker, Nancy C
Williams, Antony J
Singh, Randolph R
Trezzi, Jean-Pierre
Wilmes, Paul
Kolber, Pierre L
Kruger, Rejko
Paczia, Nicole
Linster, Carole L
Balling, Rudi
description Connecting chemical exposures over a lifetime to complex chronic diseases with multifactorial causes such as neurodegenerative diseases is an immense challenge requiring a long-term, interdisciplinary approach. Rapid developments in analytical and data technologies, such as non-target high resolution mass spectrometry (NT-HR-MS), have opened up new possibilities to accomplish this, inconceivable 20 years ago. While NT-HR-MS is being applied to increasingly complex research questions, there are still many unidentified chemicals and uncertainties in linking exposures to human health outcomes and environmental impacts. In this perspective, we explore the possibilities and challenges involved in using cheminformatics and NT-HR-MS to answer complex questions that cross many scientific disciplines, taking the identification of potential (small molecule) neurotoxicants in environmental or biological matrices as a case study. We explore capturing literature knowledge and patient exposure information in a form amenable to high-throughput data mining, and the related cheminformatic challenges. We then briefly cover which sample matrices are available, which method(s) could potentially be used to detect these chemicals in various matrices and what remains beyond the reach of NT-HR-MS. We touch on the potential for biological validation systems to contribute to mechanistic understanding of observations and explore which sampling and data archiving strategies may be required to form an accurate, sustained picture of small molecule signatures on extensive cohorts of patients with chronic neurodegenerative disorders. Finally, we reflect on how NT-HR-MS can support unravelling the contribution of the environment to complex diseases. A multi-disciplinary perspective on connecting chemistry, exposure and medical information to "neurotoxicity" for mass spectrometry-based environmental assessment, including multiple interactive resources for readers to use and explore.
doi_str_mv 10.1039/c9em00068b
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We then briefly cover which sample matrices are available, which method(s) could potentially be used to detect these chemicals in various matrices and what remains beyond the reach of NT-HR-MS. We touch on the potential for biological validation systems to contribute to mechanistic understanding of observations and explore which sampling and data archiving strategies may be required to form an accurate, sustained picture of small molecule signatures on extensive cohorts of patients with chronic neurodegenerative disorders. Finally, we reflect on how NT-HR-MS can support unravelling the contribution of the environment to complex diseases. 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subjects Archiving
Biomarkers - analysis
Chemicals
Computational Chemistry
Data mining
Environmental Exposure - analysis
Environmental factors
Environmental impact
Environmental Pollutants - analysis
Exposure
High resolution
Humans
Informatics
Mass spectrometry
Mass Spectrometry - methods
Mass spectroscopy
Neurodegeneration
Neurodegenerative diseases
Neurodegenerative Diseases - epidemiology
Neurological diseases
Organic chemistry
Questions
Scientific imaging
Spectroscopy
title Connecting environmental exposure and neurodegeneration using cheminformatics and high resolution mass spectrometry: potential and challenges
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