The report appears in American Chemical Society’s (ACS) journal Bioconjugate Chemistry. Cholera affects more than 200,000 people annually, mainly in developing countries, and causes about 5,000 deaths. Many involve infants, children, and the elderly.

 

J. Manuel Perez and colleagues note that cholera is an intestinal infection from food or water contaminated with the bacterium Vibrio cholerae. It produces a toxin that can cause severe diarrhea, which can lead to rapid dehydration and death. Prompt treatment thus is essential, and yet existing tests to diagnose cholera are time-consuming, expensive, and require the use of complex equipment.

The scientists describe a key advance toward a better, faster test. The new method uses specially prepared nanoparticles of iron oxide, each barely 1/50,000th the width of a single human hair, coated with a type of sugar called dextran. To achieve this, they looked for specific characteristics of the cholera toxin receptor (GM1) found on cells’ surface in the victim’s gut, and then they introduced these features to their nanoparticles. When the magnetic nanoparticles are added to water, blood, or other fluids to be tested, the cholera toxin binds to the nanoparticles in a way that can be easily detected by instruments. The test hardware can be turned into portable gear that health care workers could use in the field, the scientists say. The approach also shows promise for treating cholera intoxication.

The authors acknowledge funding from the National Institute of General Medical Sciences at the National Institutes of Health.

The full text article, “Identification of Molecular-Mimicry-Based Ligands for Cholera Diagnostics using Magnetic Relaxation,” can be found in the current issue of Bioconjugate Chemistry.