AI Article Synopsis

  • The study explores how alcohol consumption leads to fat accumulation in the liver (hepatic steatosis) by increasing the number and size of lipid droplets (LDs) in liver cells.
  • Betaine, a compound known to donate methyl groups, was found to mitigate these effects when included in the diet of rats consuming ethanol.
  • Lipidomic analysis showed that ethanol-fed rats had altered lipid compositions in their LD fractions compared to controls, and betaine supplementation reduced these changes, suggesting it helps stabilize smaller LDs and counteracts alcohol-related liver damage.

Article Abstract

The earliest manifestation of alcohol-associated liver disease is hepatic steatosis, which is characterized by fat accumulation in specialized organelles called lipid droplets (LDs). Our previous studies reported that alcohol consumption elevates the numbers and sizes of LDs in hepatocytes, which is attenuated by simultaneous treatment with the methyl group donor, betaine. Here, we examined changes in the hepatic lipidome with respect to LD size and dynamics in male Wistar rats fed for 6 weeks with control or ethanol-containing liquid diets that were supplemented with or without 10 mg betaine/mL. At the time of sacrifice, three hepatic LD fractions, LD1 (large droplets), LD2 (medium-sized droplets), and LD3 (small droplets) were isolated from each rat. Untargeted lipidomic analyses revealed that each LD fraction of ethanol-fed rats had higher phospholipids, cholesteryl esters, diacylglycerols, ceramides, and hexosylceramides compared with the corresponding fractions of pair-fed controls. Interestingly, the ratio of phosphatidylcholine to phosphatidylethanolamine (the two most abundant phospholipids on the LD surface) was lower in LD1 fraction compared with LD3 fraction, irrespective of treatment; however, this ratio was significantly lower in ethanol LD fractions compared with their respective control fractions. Betaine supplementation significantly attenuated the ethanol-induced lipidomic changes. These were mainly associated with the regulation of LD surface phospholipids, ceramides, and glycerolipid metabolism in different-sized LD fractions. In conclusion, our results show that ethanol-induced changes in the hepatic LD lipidome likely stabilizes larger-sized LDs during steatosis development. Furthermore, betaine supplementation could effectively reduce the size and dynamics of LDs to attenuate alcohol-associated hepatic steatosis.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10045066PMC
http://dx.doi.org/10.3390/biology12030462DOI Listing

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