Research Identifies How Mouth Cells Resist Candida Infection
Candida albicans is a common fungus found living in, and on, many parts of the human body. Usually this species causes no harm to humans unless it can breach the body's immune defences, where can lead to serious illness or death. It is known as an opportunistic pathogen that can colonise and infect individuals with a compromised immune system. New research, presented today at the Society for General Microbiology's Autumn Conference, gives us a greater understanding of how mucosal surfaces in the body respond to C. albicans to prevent damage being done during infection.
Researchers from King's College London focused on oral epithelial cells, a mucosal layer of cells that line the mouth, providing a barrier against microbes. The group challenged oral epithelial cells grown in vitro with C. albicans, looking at gene expression six and 24 hours after infection.
The results showed that a molecular signaling pathway know as the 'PI3 Kinase pathway' is activated as soon as five minutes after the epithelial cells encounter C. albicans, before the fungus has time to become invasive. This pathway seems to be involved in priming epithelial cells to protect against future damage. Inhibiting the PI3 Kinase pathway increased the amount of damage caused by C. albicans and reduced the normal tissue healing response.
This finding makes the PI3 Kinase pathway an attractive target for new therapeutics against C. albicans. D.r David Moyes, who presented the work at the conference, hopes that by boosting the activity of the pathway it may be possible to reduce the fungus's ability to cause tissue damage.
He explains, "We are developing a complete picture of how C. albicans interacts with the epithelial cells that make up our mucosal surfaces and learning how they are able to discriminate between harmless and harmful microbes. Many of the symptoms of C. albicans infection, are caused by the body's incorrect or overactive response to cell damage. Developing therapies that act on the patient, not the microbe, provides an entirely novel way of treating an infection and the likelihood of resistance is much reduced."
Candida infections are the third most commonly acquired hospital bloodborne infection, resulting in 50,000 deaths annually. Over 75 percent of fertile age women will suffer from at least one Candida infection and there are around 2 million cases of oral candidiasis each year among HIV/AIDS patients.
Â
Newsletter
Stay prepared and protected with Infection Control Today's newsletter, delivering essential updates, best practices, and expert insights for infection preventionists.
Reducing Hidden Risks: Why Sharps Injuries Still Go Unreported
July 18th 2025Despite being a well-known occupational hazard, sharps injuries continue to occur in health care facilities and are often underreported, underestimated, and inadequately addressed. A recent interview with sharps safety advocate Amanda Heitman, BSN, RN, CNOR, a perioperative educational consultant, reveals why change is overdue and what new tools and guidance can help.
New Study Explores Oral Vancomycin to Prevent C difficile Recurrence, But Questions Remain
July 17th 2025A new clinical trial explores the use of low-dose oral vancomycin to prevent Clostridioides difficile recurrence in high-risk patients taking antibiotics. While the data suggest a possible benefit, the findings stop short of statistical significance and raise red flags about vancomycin-resistant Enterococcus (VRE), underscoring the delicate balance between prevention and antimicrobial stewardship.
What Lies Beneath: Why Borescopes Are Essential for Verifying Surgical Instrument Cleanliness
July 16th 2025Despite their smooth, polished exteriors, surgical instruments often harbor dangerous contaminants deep inside their lumens. At the HSPA25 and APIC25 conferences, Cori L. Ofstead, MSPH, and her colleagues revealed why borescopes are an indispensable tool for sterile processing teams, offering the only reliable way to verify internal cleanliness and improve sterile processing effectiveness to prevent patient harm.
The Next Frontier in Infection Control: AI-Driven Operating Rooms
Published: July 15th 2025 | Updated: July 15th 2025Discover how AI-powered sensors, smart surveillance, and advanced analytics are revolutionizing infection prevention in the OR. Herman DeBoard, PhD, discusses how these technologies safeguard sterile fields, reduce SSIs, and help hospitals balance operational efficiency with patient safety.
Targeting Uncertainty: Why Pregnancy May Be the Best Time to Build Vaccine Confidence
July 15th 2025New national survey data reveal high uncertainty among pregnant individuals—especially first-time parents—about vaccinating their future children, underscoring the value of proactive engagement to strengthen infection prevention.
