ABSTRACT
Aim: Promoter methylation of LINE-1 may be affected by prematurity, but there is little evidence in the literature.Materials & methods: Blood from premature and full-term neonates on days 0, 5, 30 and 90 was analyzed for DNA methylation percentage in a promoter region of the LINE-1, after bisulfite conversion and pyrosequencing.Results: Premature infants, as a whole, showed significantly lower methylation percentage at birth, but this difference diminished over time. However, the subgroup of extremely premature (<28 weeks gestational age) had higher methylation percentages, similar to full-term newborns.Conclusion: This research underscores the critical role of prematurity on the methylation pattern of LINE-1. These findings underline the complexity of epigenetic regulation in prematurity and emphasize the need for further studies.
Premature birth can have significant effects on a baby's development and long-term health. This study investigates how being born prematurely affects a process called DNA methylation, which can influence how genes are turned on or off. Specifically, we examined the LINE-1 promoter, a frequently occurring region of DNA known for its role in regulating gene activity.We collected blood samples from both premature and full-term newborns at birth and at several points in the early months of life. Our findings showed that premature babies have lower levels of LINE-1 promoter methylation at birth compared with full-term babies. These differences in methylation could possibly affect the babies' development and health as they grow.Our research highlights the need for continued study in this area to explore how these epigenetic changes impact long-term health and to develop strategies to mitigate these effects.