Environmental and Maternal Imprints on Infant Gut Metabolic Programming

  1. Kine Eide Kvitne
  2. Celeste Allaband
  3. Jennifer C. Onuora
  4. Daniela Perry
  5. Simone Zuffa
  6. Lucas Patel
  7. Vincent Charron-Lamoureux
  8. Ipsita Mohanty
  9. Kristija Sejane
  10. Abubaker Patan
  11. Abdullah Al Mahmud
  12. Tahmeed Ahmed
  13. Diego G. Bassani
  14. Antonio González
  15. Davidson H. Hamer
  16. Rashidul Haque
  17. Benjamin Ho
  18. Md Iqbal Hossain
  19. Mohammad Shahidul Islam
  20. Daniel McDonald
  21. Lisa G. Pell
  22. Huma Qamar
  23. Daniel E. Roth
  24. Samir Saha
  25. Prakesh S. Shah
  26. Md Muniruzzaman Siddiqui
  27. Shafiqul Alam Sarker
  28. Shamima Sultana
  29. Sydney Thomas
  30. Lindsey A. Burnett
  31. Shirley M. Tsunoda
  32. Lars Bode
  33. Pieter C. Dorrestein
  34. Rob Knight
1 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

Early life is a critical period for immune and metabolic programming, but developmental patterns remain underexplored in populations from low- and middle-income countries. Here, we profiled the microbiome and metabolome of 55 Bangladeshi mother-infant dyads over the first six months of life. Importantly, we observed an increase in microbially-derived bile amidates and N-acyl lipids with age in conjunction with reads matching the bile salt hydrolase/transferase (bsh) gene. While microbial source tracking confirmed maternal fecal seeding, a substantial environmental contribution was also highlighted. Differences in infant fecal metabolic profiles were associated with delivery mode, maternal milk composition, household assets, and household-level water treatment. C-section delivery and untreated drinking water were linked to transient metabolic differences, including increases in bile amidates, N-acyl lipids, and other host-microbe co-metabolic products, including acylcarnitines. Multi-omics analysis revealed specific microbial-metabolite relationships, highlighting how early environmental and maternal living circumstances shape metabolic gut programming through the microbiome.

Related articles

Related articles are currently not available for this article.