Metabolomics to Identify Unclassified Uremic Toxins: A Comprehensive Literature Review

Raymond Vanholder; Griet Glorieux; Angel Argiles; Stéphane Burtey; Gerald Cohen; Flore Duranton; Laetitia Koppe; Ziad A. Massy; Alberto Ortiz; Rosalinde Masereeuw; Dimitrios Stamatialis; Joachim Jankowski; European Uremic Toxins Work Group (EUTox)

doi:10.1016/j.xkme.2024.100955

Metabolomics to Identify Unclassified Uremic Toxins: A Comprehensive Literature Review

Raymond Vanholder^*, Griet Glorieux, Angel Argiles, Stéphane Burtey, Gerald Cohen, Flore Duranton, Laetitia Koppe, Ziad A. Massy, Alberto Ortiz, Rosalinde Masereeuw, Dimitrios Stamatialis, Joachim Jankowski, European Uremic Toxins Work Group (EUTox)

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

A comprehensive review of known uremic retention molecules goes back to more than 10 years ago and did not consider metabolomic analyses. The present analysis searches for as of yet unclassified solutes retained in chronic kidney disease (CKD) by analyzing metabolites associated with relevant outcomes of CKD. This untargeted metabolomics-based approach is compared with a conventional targeted literature search. For the selected molecules, the literature was screened for arguments regarding toxic (harmful), beneficial, or neutral effects in experimental or clinical studies. Findings were independently crosschecked. In total, 103 molecules were selected. No literature on any effect was found for 55 substances, 3 molecules had no significant effect, and 13 others showed beneficial effects. For the remaining 32 compounds, we found at least one report of a toxic effect. Whereas 62.5% of the compounds with at least one study on a toxic effect was retrieved via the bottom-up approach, 69.2% of the substances originating from metabolomics-based approaches showed a beneficial effect. Our results suggest that untargeted metabolomics offer a more balanced view of uremic retention than the targeted approaches, with higher chances of revealing the beneficial potential of some of the metabolites.

Original language	English
Article number	100955
Number of pages	13
Journal	Kidney Medicine
Volume	7
Issue number	3
DOIs	https://doi.org/10.1016/j.xkme.2024.100955
Publication status	Published - 1 Mar 2025

Keywords

Chronic kidney disease
metabolomics
toxicity
uremic toxin

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Vanholder, R., Glorieux, G., Argiles, A., Burtey, S., Cohen, G., Duranton, F., Koppe, L., Massy, Z. A., Ortiz, A., Masereeuw, R., Stamatialis, D., Jankowski, J., & European Uremic Toxins Work Group (EUTox) (2025). Metabolomics to Identify Unclassified Uremic Toxins: A Comprehensive Literature Review. Kidney Medicine, 7(3), Article 100955. https://doi.org/10.1016/j.xkme.2024.100955

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abstract = "A comprehensive review of known uremic retention molecules goes back to more than 10 years ago and did not consider metabolomic analyses. The present analysis searches for as of yet unclassified solutes retained in chronic kidney disease (CKD) by analyzing metabolites associated with relevant outcomes of CKD. This untargeted metabolomics-based approach is compared with a conventional targeted literature search. For the selected molecules, the literature was screened for arguments regarding toxic (harmful), beneficial, or neutral effects in experimental or clinical studies. Findings were independently crosschecked. In total, 103 molecules were selected. No literature on any effect was found for 55 substances, 3 molecules had no significant effect, and 13 others showed beneficial effects. For the remaining 32 compounds, we found at least one report of a toxic effect. Whereas 62.5% of the compounds with at least one study on a toxic effect was retrieved via the bottom-up approach, 69.2% of the substances originating from metabolomics-based approaches showed a beneficial effect. Our results suggest that untargeted metabolomics offer a more balanced view of uremic retention than the targeted approaches, with higher chances of revealing the beneficial potential of some of the metabolites.",

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author = "Raymond Vanholder and Griet Glorieux and Angel Argiles and St{\'e}phane Burtey and Gerald Cohen and Flore Duranton and Laetitia Koppe and Massy, {Ziad A.} and Alberto Ortiz and Rosalinde Masereeuw and Dimitrios Stamatialis and Joachim Jankowski and {European Uremic Toxins Work Group (EUTox)}",

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doi = "10.1016/j.xkme.2024.100955",

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T2 - A Comprehensive Literature Review

AU - Vanholder, Raymond

AU - Glorieux, Griet

AU - Argiles, Angel

AU - Burtey, Stéphane

AU - Cohen, Gerald

AU - Duranton, Flore

AU - Koppe, Laetitia

AU - Massy, Ziad A.

AU - Ortiz, Alberto

AU - Masereeuw, Rosalinde

AU - Stamatialis, Dimitrios

AU - Jankowski, Joachim

AU - European Uremic Toxins Work Group (EUTox)

PY - 2025/3/1

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N2 - A comprehensive review of known uremic retention molecules goes back to more than 10 years ago and did not consider metabolomic analyses. The present analysis searches for as of yet unclassified solutes retained in chronic kidney disease (CKD) by analyzing metabolites associated with relevant outcomes of CKD. This untargeted metabolomics-based approach is compared with a conventional targeted literature search. For the selected molecules, the literature was screened for arguments regarding toxic (harmful), beneficial, or neutral effects in experimental or clinical studies. Findings were independently crosschecked. In total, 103 molecules were selected. No literature on any effect was found for 55 substances, 3 molecules had no significant effect, and 13 others showed beneficial effects. For the remaining 32 compounds, we found at least one report of a toxic effect. Whereas 62.5% of the compounds with at least one study on a toxic effect was retrieved via the bottom-up approach, 69.2% of the substances originating from metabolomics-based approaches showed a beneficial effect. Our results suggest that untargeted metabolomics offer a more balanced view of uremic retention than the targeted approaches, with higher chances of revealing the beneficial potential of some of the metabolites.

AB - A comprehensive review of known uremic retention molecules goes back to more than 10 years ago and did not consider metabolomic analyses. The present analysis searches for as of yet unclassified solutes retained in chronic kidney disease (CKD) by analyzing metabolites associated with relevant outcomes of CKD. This untargeted metabolomics-based approach is compared with a conventional targeted literature search. For the selected molecules, the literature was screened for arguments regarding toxic (harmful), beneficial, or neutral effects in experimental or clinical studies. Findings were independently crosschecked. In total, 103 molecules were selected. No literature on any effect was found for 55 substances, 3 molecules had no significant effect, and 13 others showed beneficial effects. For the remaining 32 compounds, we found at least one report of a toxic effect. Whereas 62.5% of the compounds with at least one study on a toxic effect was retrieved via the bottom-up approach, 69.2% of the substances originating from metabolomics-based approaches showed a beneficial effect. Our results suggest that untargeted metabolomics offer a more balanced view of uremic retention than the targeted approaches, with higher chances of revealing the beneficial potential of some of the metabolites.

KW - Chronic kidney disease

KW - metabolomics

KW - toxicity

KW - uremic toxin

U2 - 10.1016/j.xkme.2024.100955

DO - 10.1016/j.xkme.2024.100955

M3 - (Systematic) Review article

SN - 2590-0595

VL - 7

JO - Kidney Medicine

JF - Kidney Medicine

IS - 3

M1 - 100955

ER -

Metabolomics to Identify Unclassified Uremic Toxins: A Comprehensive Literature Review

Abstract

Keywords

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