Maternal Diet High in Linoleic Acid Alters Renal Branching Morphogenesis and mTOR/AKT Signalling Genes in Rat Fetal Kidneys.
Connie McClellandOlivia J HollandNirajan ShresthaClaire L JukesAnna E BrandonJames S M CuffeAnthony V PerkinsAndrew J McAinchDeanne H HryciwPublished in: International journal of molecular sciences (2024)
Linoleic acid (LA), an n-6 polyunsaturated fatty acid (PUFA), is obtained from the maternal diet during pregnancy, and is essential for normal fetal growth and development. A maternal high-LA (HLA) diet alters maternal and offspring fatty acids, maternal leptin and male/female ratio at embryonic (E) day 20 (E20). We investigated the effects of an HLA diet on embryonic offspring renal branching morphogenesis, leptin signalling, megalin signalling and angiogenesis gene expression. Female Wistar Kyoto rats were fed low-LA (LLA; 1.44% energy from LA) or high-LA (HLA; 6.21% energy from LA) diets during pregnancy and gestation/lactation. Offspring were sacrificed and mRNA from kidneys was analysed by real-time PCR. Maternal HLA decreased the targets involved in branching morphogenesis Ret and Gdnf in offspring, independent of sex. Furthermore, downstream targets of megalin, namely mTOR , Akt3 and Prkab2 , were reduced in offspring from mothers consuming an HLA diet, independent of sex. There was a trend of an increase in the branching morphogenesis target Gfra1 in females ( p = 0.0517). These findings suggest that an HLA diet during pregnancy may lead to altered renal function in offspring. Future research should investigate the effects an HLA diet has on offspring kidney function in adolescence and adulthood.
Keyphrases
- weight loss
- fatty acid
- high fat diet
- physical activity
- birth weight
- gene expression
- pregnancy outcomes
- cell proliferation
- signaling pathway
- depressive symptoms
- adipose tissue
- gestational age
- dna methylation
- preterm infants
- type diabetes
- pregnant women
- endothelial cells
- real time pcr
- insulin resistance
- skeletal muscle
- human milk
- transcription factor
- metabolic syndrome
- vascular endothelial growth factor
- current status
- mass spectrometry
- single molecule
- high speed