Research provides insights into a health-boosting ingredient of human breastmilk
New first-of-its-kind research provides insights into an important health-boosting ingredient of human breastmilk.
A team led by , 成人大片鈥檚 National Scholar in Bioinformatics, partnered on the groundbreaking research in (CHILD). The major, multi-year collaboration connected breastmilk researchers at the University of California San Diego and the University of Manitoba with bioinformatics and computational genomics experts at Queen鈥檚 University.
Published in , their research sheds light on the complex relationships among a mother鈥檚 genetic makeup, the human milk oligosaccharides or HMOs (an abundant and diverse group of sugars) in her breastmilk and her baby鈥檚 respiratory health.
The study鈥檚 findings could inform new ways of predicting and preventing childhood disease and could facilitate new HMO-based therapies to prevent respiratory illness.
鈥淭hese insights may allow us to develop HMO-inspired supplements for babies and to bioengineer specific HMOs for use in research鈥攅ventually perhaps even for use in therapies to treat respiratory diseases, in both children and adults,鈥 says lead author Amirtha Ambalavanan, a postdoctoral research fellow in Biomedical & Molecular Sciences at 成人大片. 鈥淲e have so much to learn from human milk."
The researchers conducted genome-wide association studies (GWASs), which simultaneously looked at millions of DNA sequence variations and how they relate to varying concentrations of 19 different HMOs found in the milk of 980 mothers participating in CHILD. They then looked at whether exposure to these differences in HMOs were associated with risk of developing recurrent wheeze, an early symptom of asthma, among the breast-fed babies. Dr. Duan鈥檚 team identified strongly correlated genetic variations among the moms and the HMO composition of their milk.
鈥淢y team was blown away by the significance of the GWAS signals between the maternal genomes and their HMO profiles,鈥 says Dr. Duan, also an associate professor in the Department of Biomedical and Molecular Sciences and the School of Computing at Queen鈥檚. 鈥淢oreover, while we had expected some associated loci, our study identified a number of novel genetic associations previously not known to be involved in HMO production.鈥
To test the strength of these findings, they conducted the same analysis in 395 mothers from another cohort, the INSPIRE Study, and found many of the same associations.
When it came to tracing the impact of HMOs on the babies鈥 later respiratory health, the researchers found that milk with different HMO profiles appeared to affect childhood respiratory outcomes鈥攕ometimes even overriding the risk carried in the children鈥檚 genes. Milk with high levels of specific HMOs tends to protect babies against later developing wheeze. This impact is particularly evident among children with high genetic risk of developing asthma.
By increasing our knowledge about how HMOs are produced and how they influence health, the study points to possible new advances in healthcare and medical research.
鈥淥f course, we already know that breastfeeding provides many amazing health benefits,鈥 comments co-author and CHILD Deputy Director Dr. Meghan Azad, a leading breastmilk researcher and Canada Research Chair based at the University of Manitoba.
鈥淏ut we don鈥檛 fully understand how this works at the biological level. Here we explored the complex dynamics among mothers, their milk and their babies to see how a mom鈥檚 genes influence the composition of HMOs in her milk, and how these HMOs interact with her baby鈥檚 genetics to influence their risk of later developing asthma.鈥
The story was originally published by .