Have you ever wondered what “gut health” really means? What keeps your gut microbiome functioning properly, maintaining homeostasis, and preventing inflammation? Originating from oxygen, reactive oxygen species (ROS) that are highly reactive function as central indicators of cellular flaws and issues in the body, such as inflammation. Nai-Yun Hsu of Mount Sinai has stated that “Reactive oxygen species released by stem cells are critical in maintaining a heathy gut via maintaining proper balance of intestine barrier cell types.”
A team of researchers from the Ichan School of Medicine at Mount Sinai have gone in depth about the importance of these oxygen species for stem cell function, avoiding inflammation, and repairing wounds in a recent study. Using mice as models, the researchers were also able to conclude that microfold cells, called “m cells” regulate an organism’s gut immune response, and emerged from a loss of ROS in mice and humans.
The experiment was conducted in vino and in vitro conditions with the mice cells, and ex vivo conditions with human intestinal biopsies post-colonoscopy. Both the human intestinal biopsies and mouse cells were utilized to determine the amount of ROS in the body to support a finding. In addition to determining the amount of the oxygen species, the biopsies and mice were used to analyze the “gene expression profile” of barrier cells in intestines of mice and humans that are diagnosed with a “subtype of IBD known as ulcerative colitis.”
A decrease in these oxygen species can lead to TNF’s emergence in the body, which is a substance that attempts to maintain homeostasis in the body and avoid inflammatory diseases, like IBD and ulcerative colitis. They have concluded that losing species like NOX1, a protein that creates these species, is directly linked with inflammatory diseases like Inflammatory Bowel Disease (IBD). Judy H. Cho, MD, has stated that the study is a breakthrough “in defining the key role of oxygen species in maintaining a healthy epithelial barrier for IBD.” These reactive oxygen species are relevant to AP Bio considering the information we have learned about general biological systems and cells, which function to maintain homeostasis in the body. The mitochondria, which is an organelle of the cell covered in AP Bio, receives signals from gut bacteria that reveals inflammation. While the mitochondria is typically known as the site of cell respiration and performing reactions, new evidence has shown a relationship between the gut microbiota and mitochondria to trigger immune responses and activate barrier cell function. These processes relate to changes to the mitochondria that occur from gut-related issues in IBD patients, meaning that there is a connection to ROS.
As a conclusion to proving the direct link between the highly reactive oxygen species and treating inflammation, these researchers encourage and plan to conduct further study on this topic, but for using “oxygen species-stem cell modulation therapy” to potentially treat IBD patients.