Heat-inactivated Lacticaseibacillus paracasei N1115 alleviates the damage due to brain function caused by long-term antibiotic cocktail exposure in mice.

Author: ChengRuyue, HeFang, LiJinxing, LiangHuijing, PuFangfang, ShenXi, WangYimie, WuSimou, YangYang, ZhangYujie

Overview

Antibiotics exposure disrupted the intestinal microbiota and cognitive function in neonatal mice. Heat-inactivated Lacticaseibacillus paracasei N1115 (N1115) showed potential to alleviate these negative effects by modulating the microbiota-gut-brain axis.

Paper Details　

Original Abstract of the Article :

Critical development period of intestinal microbiota occurs concurrently with brain development, and their interaction is influenced by the microbiota-gut-brain axis. This study examined how antibiotics exposure affected gut microbiota and brain development and analyzed the possible benefits of heat...See full text at original site

Dr.Camel's Paper Summary Blog

Antibiotics, Gut Microbiota, and Brain Function

This research delves into the fascinating and complex interplay between antibiotics, gut microbiota, and brain development, exploring the impact of long-term antibiotic exposure on the developing brain. This is crucial as it highlights the potential for antibiotic use to disrupt the delicate balance of the gut microbiome and its communication with the brain. The study examined the effects of antibiotics on a group of neonatal mice and found that long-term exposure to antibiotics led to disruptions in the gut microbiota and impaired brain function, specifically affecting anxiety and depression-related behaviors. However, the study also demonstrated that introducing heat-inactivated Lacticaseibacillus paracasei N1115 could partially alleviate these negative effects.

Gut-Brain Axis and Antibiotic Exposure

This research underscores the importance of the gut-brain axis, highlighting how disturbances in the gut microbiome can significantly impact brain function. The study showed that long-term antibiotic exposure led to a decrease in the diversity of the gut microbiota and an increase in specific bacteria like Citrobacter, which are linked to inflammation and negative cognitive outcomes. This research not only provides a deeper understanding of the gut-brain axis but also suggests potential interventions for mitigating the adverse effects of antibiotics.

Dr. Camel's Conclusion

This research is a reminder of the interconnectedness of our bodies, highlighting the crucial role of the gut microbiome in brain health. Just as the shifting sands of the desert create a constantly evolving landscape, our gut microbiota is a dynamic ecosystem, constantly interacting with our brains. This research emphasizes the importance of thoughtful antibiotic use and suggests exploring potential strategies to maintain a healthy gut microbiome throughout life. It's essential to remember that even seemingly small disruptions can have significant consequences, making it crucial to take a holistic approach to our health and well-being.