Prediction of molecular initiating events for adverse outcome pathways using high-throughput identification of chemical targets
Fecha
2023
Tipo
artículo original
Autores
Lizano Fallas, Verónica
Carrasco del Amor, Ana
Cristobal, Susana
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Resumen
The impact of exposure to multiple chemicals raises concerns for human and environmental
health. The adverse outcome pathway method offers a framework to support mechanism-based
assessment in environmental health starting by describing which mechanisms are triggered upon
interaction with different stressors. The identification of the molecular initiating event and the
molecular interaction between a chemical and a protein target is still a challenge for the development
of adverse outcome pathways. The cellular response to chemical exposure studied with omics
could not directly identify the protein targets. However, recent mass spectrometry-based methods
are offering a proteome-wide identification of protein targets interacting with s but unrevealing a
molecular initiating event from a set of targets is still dependent on available knowledge. Here, we
directly coupled the target identification findings from the proteome integral solubility alteration
assay with an analytical hierarchy process for the prediction of a prioritized molecular initiating event.
We demonstrate the applicability of this combination of methodologies with a test compound (TCDD),
and it could be further studied and integrated into AOPs. From the eight protein targets identified
by the proteome integral solubility alteration assay after analyzing 2824 human hepatic proteins,
the analytical hierarchy process can select the most suitable protein for an AOP. Our combined
method solves the missing links between high-throughput target identification and prediction of the
molecular initiating event. We anticipate its utility to decipher new molecular initiating events and
support more sustainable methodologies to gain time and resources in chemical assessment.
Descripción
Palabras clave
CHEMICAL ANALYSIS, FORECASTING, MOLECULAR BIOLOGY