Bilirubin Reductase Enzyme Makes Urine Yellow
Author: University of Maryland
Published: 2024/01/03 - Updated: 2024/04/29
Publication Type: Informative - Peer-Reviewed: Yes
Topic: Medical Research News (Publications Database)
Page Content: Synopsis Definition Introduction Main Item
Synopsis: Urobilin has long been linked to urine's yellow hue, but the enzyme responsible has eluded scientists for over a century.
• The findings could be applied to future studies of gut health, including conditions like jaundice and inflammatory bowel disease.
• In addition to jaundice and inflammatory bowel disease, the gut microbiome has been linked to various diseases and conditions, from allergies to arthritis to psoriasis. This latest discovery brings researchers closer to achieving a holistic understanding of the gut microbiome's role in human health.
Introduction
"Bilr Is a Gut Microbial Enzyme That Reduces Bilirubin to Urobilinogen" - Nature Microbiology.
Researchers at the University of Maryland and National Institutes of Health have identified the microbial enzyme responsible for giving urine its yellow hue, according to a new study published in the journal Nature Microbiology on January 3, 2024.
Main Item
The discovery of this enzyme, called bilirubin reductase, paves the way for further research into the gut microbiome's role in ailments like jaundice and inflammatory bowel disease.
"This enzyme discovery finally unravels the mystery behind urine's yellow color," said the study's lead author Brantley Hall, an assistant professor in the University of Maryland's Department of Cell Biology and Molecular Genetics. "It's remarkable that an everyday biological phenomenon went unexplained for so long, and our team is excited to be able to explain it."
When red blood cells degrade after their six-month lifespan, a bright orange pigment called bilirubin is produced as a byproduct. Bilirubin is typically secreted into the gut, where it is destined for excretion but can also be partially reabsorbed. Excess reabsorption can lead to a buildup of bilirubin in the blood and can cause jaundice-a condition that leads to the yellowing of the skin and eyes. Once in the gut, the resident flora can convert bilirubin into other molecules.
"Gut microbes encode the enzyme bilirubin reductase that converts bilirubin into a colorless byproduct called urobilinogen," explained Hall, who has a joint appointment in the University of Maryland Institute for Advanced Computer Studies. "Urobilinogen then spontaneously degrades into a molecule called urobilin, which is responsible for the yellow color we are all familiar with."
Urobilin has long been linked to urine's yellow hue, but the research team's discovery of the enzyme responsible answers a question that has eluded scientists for over a century.
Aside from solving a scientific mystery, these findings could have important health implications.
The research team found that bilirubin reductase is present in almost all healthy adults but is often missing from newborns and individuals with inflammatory bowel disease. They hypothesize that the absence of bilirubin reductase may contribute to infant jaundice and the formation of pigmented gallstones.
"Now that we've identified this enzyme, we can start investigating how the bacteria in our gut impact circulating bilirubin levels and related health conditions like jaundice," said study co-author and NIH Investigator Xiaofang Jiang. "This discovery lays the foundation for understanding the gut-liver axis."
In addition to jaundice and inflammatory bowel disease, the gut microbiome has been linked to various diseases and conditions, from allergies to arthritis to psoriasis. This latest discovery brings researchers closer to achieving a holistic understanding of the gut microbiome's role in human health.
"The multidisciplinary approach we were able to implement-thanks to the collaboration between our labs-was key to solving the physiological puzzle of why our urine appears yellow," Hall said. "It's the culmination of many years of work by our team and highlights yet another reason why our gut microbiome is so vital to human health."
Co-authors
In addition to Hall, UMD-affiliated co-authors included Stephenie Abeysinghe (B.S. '23, public health science); Domenick Braccia (Ph.D. '22, biological sciences); biological sciences major Maggie Grant; biochemistry Ph.D. student Conor Jenkins; biological sciences Ph.D. students Gabriela Arp (B.S. '19, public health science; B.A. '19, Spanish language), Madison Jermain, Sophia Levy (B.S. '19, chemical engineering; B.S. '19, biological sciences) and Chih Hao Wu (B.S. '21, biological sciences); Glory Minabou Ndjite (B.S. '22, public health science); and Ashley Weiss (B.S. '22, biological sciences).
Their paper, "Discovery of a gut microbial enzyme that reduces bilirubin to urobilinogen," was published in the journal Nature Microbiology on January 3, 2024.
This research was supported by the NIH's Intramural Research Program, the National Library of Medicine and startup funding from UMD. This article does not necessarily reflect the views of these organizations.
This article was adapted from text provided by Brantley Hall and Sophia Levy.
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This peer reviewed publication was selected for publishing by the editors of Disabled World due to its significant relevance to the disability community. Originally authored by University of Maryland, and published on 2024/01/03 (Edit Update: 2024/04/29), the content may have been edited for style, clarity, or brevity. For further details or clarifications, University of Maryland can be contacted at umd.edu. NOTE: Disabled World does not provide any warranties or endorsements related to this article.
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