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Untargeted Metabolomics Reveals Elevated L-Carnitine Metabolism in Pig and Rat Colon Tissue Following Red Versus White Meat Intake.

Molecular nutrition & food research
April 1, 2021
Caroline Rombouts et al. (8 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal StudyMolecular Study
Extracted Claims (8)
InterventionDirectionEndpointPopulationDosageImpactClaim #
consumption of red and processed meat
increase
various Western diseases such as colorectal cancer and type 2 diabetes
-
-
associates with the development
#1
high dose of beef diet
increase
carnitine metabolism
rats
-
increased
#2
high dose of beef diet
increase
acylcarnitines
rats and pigs
-
higher levels
#3
high dose of beef diet
increase
3-dehydroxycarnitine
rats and pigs
-
higher levels
#4
high dose of beef diet
increase
trimethylamine-N-oxide
rats
-
higher levels
#5
incubation with colonic beef digests
increase
3-dehydroxycarnitine
HT29 cells
-
higher
#6
incubation with colonic beef digests
decrease
acylcarnitine levels
HT29 cells
-
reduced
#7
red meat-based diet
increase
(acyl)carnitine metabolism
colon tissue of animals
-
elevated
#8
Abstract

SCOPE: The consumption of red and processed meat, and not white meat, associates with the development of various Western diseases such as colorectal cancer and type 2 diabetes. This work aims at unraveling novel meat-associated mechanisms that are involved in disease development. METHODS AND RESULTS: A non-hypothesis driven strategy of untargeted metabolomics is applied to assess colon tissue from rats (fed a high dose of beef vs. white meat) and from pigs (fed red/processed meat vs. white meat), receiving a realistic human background diet. An increased carnitine metabolism is observed, which is reflected by higher levels of acylcarnitines and 3-dehydroxycarnitine (rats and pigs) and trimethylamine-N-oxide (rats). While 3-dehydroxycarnitine is higher in HT29 cells, incubated with colonic beef digests, acylcarnitine levels are reduced. This suggests an altered response from colon cancer cell line towards meat-induced oxidative stress. Moreover, metabolic differences between rat and pigs are observed in N-glycolylneuraminic acid incorporation, prostaglandin, and fatty acid synthesis. CONCLUSION: This study demonstrates elevated (acyl)carnitine metabolism in colon tissue of animals that follow a red meat-based diet, providing mechanistic insights that may aid in explaining the nutritional-physiological correlation between red/processed meat and Western diseases.

Medical Subject Headings (MeSH)
AnimalsCarnitineChickensColonDiet, WesternHT29 CellsHumansLipid MetabolismMaleMetabolomicsRats, Sprague-DawleyRed MeatSwineRats
Study Links
PubMed ID33550692
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Untargeted Metabolomics Reveals Elevated L-Carnitine Metabol... | Panacea Index