Identification of histone malonylation in the human fetal brain and implications for diabetes‐induced neural tube defects

Background Neural tube defects (NTDs) are severe congenital malformations. Diabetes during pregnancy is a risk factor for NTDs, but its mechanism remains elusive. Emerging evidence suggests that protein malonylation is involved in diabetes. Here, we report the correlation between histone lysine malonylation in diabetes‐induced NTDs. Methods Nano‐HPLC/MS/MS was used to screen the histone malonylation profile in human embryonic brain tissue. Then, the histone malonylation level was compared between the brains of normal control mice and mice with diabetes‐induced NTDs. Finally, the histone malonylation level was compared under high glucose exposure in an E9 neuroepithelial cell line (NE4C). Results A total of 30 histone malonylation sites were identified in human embryonic brain tissue, including 18 novel sites. Furthermore, we found an increased histone malonylation level in brain tissues from mice with diabetes‐induced NTDs. Finally, both the histone malonylation modified sites and the modified levels were proved to be increased in the NE4C treated with high glucose. Conclusion Our results present a comprehensive map of histone malonylation in the human fetal brain. Furthermore, we provide experimental evidence supporting a relationship between histone malonylation and NTDs caused by high glucose‐induced diabetes. These findings offer new insights into the pathological role of histone modifications in human NTDs.
In this manuscript, we reported, for the first time, the presence of histone malonylation in human fetal brain and mouse neural stem cells. The results reveal that histone malonylation aberrant in diabetes‐induced NTDs. These results may bring a new insight in the pathological role of histone modifications in human NTDs.