Background and aims: Maternal obesity increases the risk of the paediatric form of metabolic dysfunction-associated steatotic liver disease (MASLD), affecting up to 30% of youth, but the developmental origins remain poorly understood.
Methods: Using a Japanese macaque model, we investigated the impact of maternal Western-style diet (mWSD) or chow diet followed by postweaning WSD (pwWSD) or chow diet focusing on bile acid (BA) homeostasis and hepatic fibrosis in livers from third-trimester fetuses and 3-year-old juvenile offspring.
Results: Juveniles exposed to mWSD had increased hepatic collagen I/III content and stellate cell activation in portal regions. mWSD increased transcriptional signatures of FXR activation, while pwWSD impaired FXR pathway genes and increased liver BA content. Both mWSD and pwWSD increased serum BA concentrations. Notably, mWSD-exposed juvenile offspring had increased periportal CK19 expression and cholangiocyte gene expression supporting proliferation compared with maternal chow-exposed offspring. Fetuses exposed to mWSD had increased CK19 expression and hepatic BAs which correlated positively with periportal collagen deposition and negatively with markers of fetal oxygenation. In juvenile offspring, increased serum BAs correlated positively with hepatic oxidative stress and portal fibrosis without elevated liver enzymes.
Conclusions: mWSD is associated with hallmarks of paediatric MASLD including portal bile ductular reaction, portal fibrosis and dysregulated BA homeostasis. These conditions begin in utero and persist in juvenile offspring regardless of their postweaning diet. These findings implicate changes in BA metabolism that may drive developmental programming of MASLD in juvenile offspring beginning in utero.
Keywords: Farnesoid X receptor; Paediatric MASLD; cholestasis; developmental programming; liver; stellate cells.
© 2025 The Author(s). Liver International published by John Wiley & Sons Ltd.