Natural Defenses of Bacteria Hijacked to Trap and Reveal Pathogens

by Himabindu Venkatakrishnan on  May 12, 2014 at 9:41 AM Research News   - G J E 4
An easier way of detecting pathogenic bacteria outside of a clinical setting could be a possibility with the breakthrough, published in the journal Nature Materials. This finding could be particularly important for the developing world, where access to more sophisticated laboratory techniques is often limited.
 Natural Defenses of Bacteria Hijacked to Trap and Reveal Pathogens
Natural Defenses of Bacteria Hijacked to Trap and Reveal Pathogens

The research was led by Professor Cameron Alexander, Head of the Division of Drug Delivery and Tissue Engineering and EPSRC Leadership Fellow in the University's School of Pharmacy, building on work by PhD student Peter Magennis. Professor Alexander said: "Essentially, we have hijacked some of the metabolic machinery which bacteria use to control their environment, and used it instead to grow polymers which bind strongly to the specific bacteria that produce them.

"The neat thing about this is that the functionality of the polymers grown on the surface of the bacteria is programmed by the cells so that they can recognize their own 'kind'. We used fluorescent labels to light up the polymers and were able to capture this labeling using a mobile phone camera, so in principle it could be possible to use these materials as point-of-care diagnostics for pathogenic bacteria."

The study has shown that the bacteria helped to synthesize polymers on their own surfaces which not only were different from those made by conventional methods, but which retained a form of 'structural memory' of that surface. This means in future it should be possible to make specific detection agents or additives for topical anti-infectives that target a number of harmful bacteria all by a common route.

"The initial focus of the research was to explore ways to use synthetic polymers to selectively target and bind the bacteria that cause dental cavities and periodontal diseases in order to facilitate their removal from the oral cavity," said Dr David Churchley, Principal Scientist, Oral Health Category Research and Development, GSK Consumer Healthcare. "As we continued our work, we saw that our research had broader implications and potential for a wider range of uses."

Rapidly identifying harmful bacteria at the heart of a serious medical or dental condition can be a difficult and costly task. The group's findings may even lead to new ways of treating bacterial infections. "These types of polymers may be designed to contain antibacterial functionalities so that they specifically bind to and kill bacterial pathogens," said Dr Klaus Winzer, a microbiologist at The University of Nottingham involved in the study. The selective binding of specific bacterial species and/or strains in current practice requires expensive 'cold-chain' reagents such as antibodies which often preclude using these processes outside of a hospital setting or in developing nations.

The new approach, termed 'bacterial-instructed synthesis', has the potential for use in the developing world, in the field or in less specialized laboratory settings.

Dr David Bradshaw, Principal Scientist, Oral Health Category Research and Development, GSK Consumer Healthcare, said: "The ingredients used to form the polymers are all easy to obtain, inexpensive and widely available. With the simplicity and accessibility of the chemistry, a number of diagnostic and other applications may be possible."

Source: Eurekalert

Post your Comments

Comments should be on the topic and should not be abusive. The editorial team reserves the right to review and moderate the comments posted on the site.
User Avatar
* Your comment can be maximum of 2500 characters
Notify me when reply is posted I agree to the terms and conditions

You May Also Like

View All