Urinary tract infections (UTIs) are a common complaint, affecting women more than men, with a lifetime prevalence of 50% in women, but so far an effective vaccine has proved elusive. Now, researchers from Duke University have come up with an approach that could result in an workable vaccine.
UTIs are caused by a wide range of Gram-negative and positive bacteria, such as Escherichia coli, and antibiotic resistance coupled with common recurrence makes it a growing health burden. It is thought that the immune response to bladder infections sends more repair cells to deal with the bacterial infection than cells to kill the invading bacteria. Because of this, there are often surviving bacteria that reproduce to cause a subsequent infection.
“Although several vaccines against UTIs have been investigated in clinical trials, they have so far had limited success,” said senior author Professor Soman Abraham at Duke University.
“There are currently no effective UTI vaccines available for use in the U.S. in spite of the high prevalence of bladder infections,” Prof Abraham said. “Our study describes the potential for a highly effective bladder vaccine that can not only eradicate residual bladder bacteria, but also prevent future infections.”
According to lead author Jianxuan Wu, PhD, “the new vaccine strategy attempts to ‘teach’ the bladder to more effectively fight off the attacking bacteria. By administering the vaccine directly into the bladder where the residual bacteria harbour, the highly effective vaccine antigen, in combination with an adjuvant known to boost the recruitment of bacterial clearing cells, performed better than traditional intramuscular vaccination.”
The study found that mice immunised in this way effectively fought off infecting E. coli, eliminating all residual bladder bacteria. This suggests that the site of administration could be important for determining vaccine effectiveness.
“We are encouraged by these findings, and since the individual components of the vaccine have previously been shown to be safe for human use, undertaking clinical studies to validate these findings could be done relatively quickly,” Prof Abraham said.
Source: Medical Xpress
Journal information: Jianxuan Wu el al., “Local induction of bladder Th1 responses to combat urinary tract infections,” PNAS (2021). www.pnas.org/cgi/doi/10.1073/pnas.2026461118
