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Peer-reviewed veterinary case report

Differences in metabolism between lean and obese cats not changed

By Rankovic, Alexandra et al.·Published in Journal of animal science·2025·Department of Biomedical Sciences, Canada·View original on PubMed

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Original publication title: Serum metabolomics reveals one-carbon metabolism differences between lean and obese cats not affected by L-carnitine or choline supplementation.

Species:
cat

Plain-English summary

A group of obese cats was studied to see if adding choline or L-carnitine to their diet could help with liver health and fat metabolism. These cats had higher levels of certain metabolites in their blood, indicating changes in how their bodies processed nutrients compared to lean cats. While both supplements showed some effects on specific metabolites, they did not significantly improve overall fat metabolism in the obese cats. This research suggests that obesity may disrupt normal metabolic processes, which could increase the risk of liver issues in overweight cats.

People also search for: cat liver disease treatment · choline for obese cats · L-carnitine benefits for cats

Abstract

The supplementation of choline and L-carnitine in obese cats has garnered attention as a potential method for preventing and treating feline hepatic lipidosis (FHL). Providing dietary choline above the current recommended allowance to overweight and obese cats may have positive effects on one-carbon metabolism and hepatic lipid mobilization. Research on the metabolomic effects of L-carnitine supplementation in cats, however, remains limited. This study aimed to investigate the individual effects of choline and L-carnitine supplementation on the fasted serum metabolomic profiles of obese (n&#x2005;=&#x2005;9; body condition score [BCS]: 8-9/9) and lean (n&#x2005;=&#x2005;9; BCS: 4-5/9) adult male neutered cats fed at maintenance energy requirements. Cats were fed a commercial extruded cat food top-dressed with choline (6 x National Research Council recommended allowance: 378&#xa0;mg/kg BW0.67), L-carnitine (200&#xa0;mg/kg BW), or control (no supplement) in a 3&#x2005;&#xd7;&#x2005;3 complete Latin square design for 6&#xa0;wk per treatment, with a 2-wk washout between each treatment period. The cats were fed once daily, and BW and BCS were assessed weekly. Fasted serum metabolites were analyzed at the end of each treatment period using direct infusion mass spectrometry (DI-MS) and liquid chromatography-mass spectrometry (LC-MS). The data were analyzed using SAS with proc GLIMMIX, considering group and period as random effects, and treatment, body condition, and their interaction as fixed effects. Statistical significance was set at P&#x2005;<&#x2005;0.05, and Tukey's post-hoc test was used for multiple comparisons when significance was observed. Obese cats had greater concentrations of s-adenosylhomocysteine, cysteine, cystine, reduced glutathione, and oxidized glutathione (GSSG), suggestive of alterations in one-carbon metabolism with obesity. The oxidation of fatty acids may have improved with both L-carnitine and choline supplementation. While choline and L-carnitine independently affected concentrations of betaine, GSSG, and decarboxylated S-adenosylmethionine, respectively, neither supplement broadly altered one-carbon metabolism. The present study suggests that dysfunction in one-carbon metabolism should be taken into consideration when examining the pathogenesis and increased FHL risk in obese cats.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40884060/