Exposure to a choline-deficient diet during pregnancy and lactation alters the liver transcriptome profile in offspring of dams with fatty liver
Type
Journal article
Language
English
Date issued
2025
Author
Zuk, Ewelina
Blatkiewicz, Malgorzata
Jopek, Karol
Rucinski, Marcin
Faculty
Wydział Nauk o Żywności i Żywieniu
Journal
Clinical Nutrition ESPEN
ISSN
2405-4577
Volume
66
Number
April 2025
Pages from-to
9-23
Abstract (EN)
Background & aims
The developmental origin of health and disease hypothesis shows that early adverse exposures can have lifelong health effects. Thus, the aim of this study was to analyze the impact of choline intake during pregnancy and/or lactation on gene expression profiles in the liver of 24-day-old male rat offspring from dams with non-alcoholic fatty liver disease (NAFLD).
Methods
Phenotypic characteristic, histological examination and global transcriptome pattern of liver tissue specimens obtained from offspring of dams suffering from fatty liver, provided with proper choline intake during pregnancy and lactation (NN), fed a choline-deficient diet during both periods (DD), deprived of choline only during pregnancy (DN), or only during lactation (ND), was performed. The global gene expression profile was analyzed by using microarray approach (Affymetrix® Rat Gene 2.1 ST Array Strip). The relative expression of selected genes was validated by real-time polymerase chain reaction (qPCR).
Results
The histological examination of rat liver sections indicated alternations typical for fatty liver in all analyzed groups with increased progression among groups deprived of choline. Choline deficiency in the maternal diet was associated with changes in body mass and composition but not with biochemical marker levels, except for the high density lipoprotein fraction of cholesterol (HDL). Enhanced expression of genes involved in oxidative stress, cell proliferation, activation of catabolic processes related to hepatocyte dysfunction and cell membrane composition were simultaneously observed in all choline-deficient groups.
Conclusions
An adequate amount of choline in the diet of a mother with fatty liver during pregnancy and/or lactation can regulate gene expression in the offspring's liver and contribute to a milder stage of the disease in the progeny. Moreover, proper choline supply during the postpartum period is as crucial as during the prenatal period.
The developmental origin of health and disease hypothesis shows that early adverse exposures can have lifelong health effects. Thus, the aim of this study was to analyze the impact of choline intake during pregnancy and/or lactation on gene expression profiles in the liver of 24-day-old male rat offspring from dams with non-alcoholic fatty liver disease (NAFLD).
Methods
Phenotypic characteristic, histological examination and global transcriptome pattern of liver tissue specimens obtained from offspring of dams suffering from fatty liver, provided with proper choline intake during pregnancy and lactation (NN), fed a choline-deficient diet during both periods (DD), deprived of choline only during pregnancy (DN), or only during lactation (ND), was performed. The global gene expression profile was analyzed by using microarray approach (Affymetrix® Rat Gene 2.1 ST Array Strip). The relative expression of selected genes was validated by real-time polymerase chain reaction (qPCR).
Results
The histological examination of rat liver sections indicated alternations typical for fatty liver in all analyzed groups with increased progression among groups deprived of choline. Choline deficiency in the maternal diet was associated with changes in body mass and composition but not with biochemical marker levels, except for the high density lipoprotein fraction of cholesterol (HDL). Enhanced expression of genes involved in oxidative stress, cell proliferation, activation of catabolic processes related to hepatocyte dysfunction and cell membrane composition were simultaneously observed in all choline-deficient groups.
Conclusions
An adequate amount of choline in the diet of a mother with fatty liver during pregnancy and/or lactation can regulate gene expression in the offspring's liver and contribute to a milder stage of the disease in the progeny. Moreover, proper choline supply during the postpartum period is as crucial as during the prenatal period.
License
Closed Access
Closed Access