A dangerous bacterium commonly found in cattle can jump to humans and researchers have warned that there soon may be no way of treating the infections. A team from Penn State University discovered that Salmonella Dublin has become increasingly resistant to antibiotics and has been spreading to people through contaminated beef, milk, or cheese, or through direct contact with infected cows.
Researchers studied 2,150 Salmonella Dublin strains from cattle, humans, and the environment and found they were all genetically similar, making it easier for the bacteria to spread across species. This bacteria typically causes severe illness or death among cows, but it can also result in serious blood infections among people, especially those in close contact farm animals. In severe cases, Salmonella Dublin can kill people as well.
Making matters worse, the new study revealed that cattle strains have the highest levels of antibiotic resistance, particularly to drugs meant for treating infections, such as tetracycline and cephalosporins. The increasing antibiotic resistance means that infections may become harder to treat, potentially leading to longer illnesses or more severe symptoms for people and animals.
If treatments become less effective, human infections could become more dangerous, especially for vulnerable groups like the elderly, children, or those with weak immune systems. Study authors added that the US, being a major beef and dairy producing country, is at an even greater risk of this superbug turning into a widespread health emergency.
The researchers used data from two public sources: the National Center for Biotechnology Information Pathogen Isolate Browser and the National Antimicrobial Resistance Monitoring System. These provided whole-genome sequences of Salmonella Dublin, which allowed the team to examine each strain's genes in detail. They compared 581 samples from cattle, 664 from humans, and 905 from the environment (food and farm areas) to look for patterns in how the bacteria's genes helped it cause severe disease and resist antibiotics.
The bacteria from cows, people, and the environment were incredibly similar, with 72 percent of the 2,150 strains differing by only a few DNA changes. Although cow strains had the most genes which were resistant to medication, those found contaminating food and surfaces more DNA mutations linked to quinolone resistance, a drug used to treat humans.
However, the study published in Applied and Environmental Microbiology warned that each strain examined had similar genes that make them dangerous, like those helping them stick to cells or invade the body. These genes were present in almost every strain in cows, people, or food, meaning the bacteria is consistently harmful no matter where it's found.
Study leader Erika Ganda, an associate professor of food animal microbiomes, said: 'That's important because it shows that Salmonella Dublin is highly connected across humans, animals and the environment -- so efforts to control it need to consider all three.'
The Centers for Disease Control and Prevention (CDC) has estimated that Salmonella bacteria, including Dublin, cause about 1.2 million illnesses every year in the US.
Salmonella Dublin infections have been particularly severe due to their tendency to cause bloodstream infections. Between 2005 and 2013, a staggering 78 percent of Salmonella Dublin infections required hospitalization, and 4.2 percent resulted in death. The Food and Drug Administration (FDA) treats Salmonella outbreaks, including those involving Dublin, as high-risk health emergencies, often issuing urgent recalls to prevent its spread. One incident in 2019 saw 34,222 pounds of contaminated ground beef from Central Valley Meat Company in California recalled to prevent a large-scale outbreak. However, 13 people were infected with Salmonella Dublin in the state and one died.