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Potential New Strategy To Combat Urinary Tract Infections

The NRF2 pathway stood out as a key contributor to this balance, by regulating both the potential damage to tissues and the elimination of bacteria. Treating an animal model of UTI with the FDA-approved, anti-inflammatory drug dimethyl fumarate (DMF), a known NRF2 activator, reduced tissue damage, and bacterial burden, opening the possibility that DMF could be used to manage this condition in the future. The study appears in the journal Cell Reports.

“Urinary tract infections are not only common but typically recurrent and tend to give rise to antibiotic-resistant bacteria, a serious medical concern,” said corresponding author Dr. Indira Mysorekar, E. L. Wagner Endowed Professor of Medicine- infectious diseases at Baylor, previously at Washington University School of Medicine.

“More than 85% of UTI are caused by uropathogenic E. coli (UPEC), bacteria that can attach to the surface of the epithelial cells lining the inside of the bladder, called urothelial cells,” said first author Dr. Chetanchandra S. Joshi, a postdoctoral associate in the Mysorekar lab. 

“Attached UPEC can then enter the urothelial cells, where they reproduce. In the current study, we looked at how urothelial cells fight back UPEC invasion and proliferation while preserving their integrity, which is essential for proper bladder function.”

A dynamic balance of responses

Working with urothelial cells grown in the lab, Mysorekar, Joshi and their colleagues discovered that a precise sequence of events followed UPEC invasion of urothelial cells. First, in the early hours after their infection, urothelial cells defended themselves by producing reactive oxygen species (ROS), highly active compounds that kill bacteria. However, if sustained, ROS also can damage urothelial cells, which would be detrimental for the bladder.

“We found that accumulation of ROS activated an anti-ROS response in urothelial cells, called the NRF2 pathway, that minimized the damage excess ROS could cause to the urothelial cells,” Joshi said.

The NRF2 protein is located in the cytoplasm of the cells bound to another protein called KEAP1. “When ROS reaches a certain level, NRF2 separates from KEAP1 and goes into the nucleus of the cell, where it activates a series of genes. Some of these genes produce proteins that block ROS, and some that limit inflammation,” Joshi said.

“Interestingly, one of the genes NRF2 activates is Rab27b, which promotes the elimination of UPEC from urothelial cells,” Joshi said. “Together, these coordinated events mediate the elimination of UPEC while preserving the integrity of the cells attacked by the bacteria.”

A potential new way to combat UPEC

Understanding the process that follows a UPEC infection revealed a potential new strategy to combat the condition. “We learned that active NRF2 was involved in both neutralizing ROS, which helped protect urothelial cells, and eliminating UPEC,” Joshi said. “These findings suggested that a drug that activated NRF2, such as DMF, might help clear UPEC infections.”

DMF is FDA-approved to treat inflammatory conditions such as multiple sclerosis by dampening the inflammatory response.

“Working with an animal model of UTI, we showed that treatment with DMF activated NRF2, dampened the immune response, limited the level of damage the bacteria caused to urothelial cells, and promoted activation of RAB27B, which removed bacteria from the bladder,” Mysorekar said. “Our findings support further exploration of this approach as a potential treatment for UTI.”

Women tend to have recurrent UTI, which can lead to chronic inflammation, extensive bladder mucosal damage and chronic infection. Continued antibiotic treatment also negatively affects the microbiome, the ‘good bacteria’ of the body, and promotes the development of antibiotic-resistant bacteria.

“The most exciting part about this work was identifying a non-antibiotic-based therapy that contained the infection and reduced inflammation,” said Mysorekar, who also is a professor of molecular virology and microbiology at Baylor. “Although much work is needed before it reaches the clinic, treatment with DMF has the potential of helping millions of women affected by this condition.”

Other contributors to this work include Amy Mora and Paul A. Felder, formerly at Washington University School of Medicine.

This work was supported in part by NIH grants R01AG052494, R01DK100644 and P20 DK119840.

This article was written by Dipali Pathak at Baylor College of Medicine

As with anything you read on the internet, this article should not be construed as medical advice; please talk to your doctor or primary care provider before making any changes to your wellness routine.

Content may be edited for style and length.

Materials provided by:

https://www.bcm.edu/news/potential-new-strategy-to-combat-urinary-tract-infections

https://www.bcm.edu/

http://dx.doi.org/10.1016/j.celrep.2021.109856

https://www.cell.com/cell-reports/fulltext/S2211-1247(21)01323-1

pathak@bcm.edu

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