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By pharmatrax
Category: Technoloy
No CommentsPolymer may pave the way for drugs to which bacteria are significantly less resistant, a breakthrough that could save hundreds of thousands of lives per year.
Researchers from Singapore-MIT Alliance for Research and Technology (SMART), MIT’s research enterprise in Singapore, and Nanyang Technological University (NTU) have designed an antimicrobial polymer that can kill bacteria resistant to commonly used antibiotics, including the superbug methicillin-resistant Staphylococcus aureus (MRSA). The breakthrough can pave the way for the development of medicine to which bacteria have a significantly slower rate of developing resistance and help prevent hundreds of thousands of deaths each year caused by drug-resistant bacteria.
The new polymer is explained in a paper published last month in Nature Communications. It was jointly published by a group of scientists at NTU and SMART’s Antimicrobial Resistance Interdisciplinary Research Group (AMR IRG) and led by Mary Chan-Park, SMART AMR principal investigator and professor at NTU’s School of Chemical and Biomedical Engineering; and Kevin Pethe, associate professor at the Lee Kong Chian School of Medicine at NTU.
Increasing resistance to antimicrobial medicine is a cause for serious concern, with at least 700,000 deaths each year caused by drug-resistant infections and diseases, according to a recent World Health Organisation report. In the United States alone, an antibiotic-resistant infection is acquired every 11 seconds, while a related death occurs every 15 minutes. While alpha-peptides have long been used to treat resistant bacteria such as MRSA, they tend to be rather unstable or toxic in the body. So, for the first time, NTU and SMART researchers tested the use of beta-peptides to fight such bacteria in living beings. Designed for stability, the innovative new polymer degrades slowly in the body, giving it more time to work. Importantly, it has little to no toxicity impact.
“Typically, antibiotics don’t work on various forms of bacteria like biofilm and persistent bacteria as they become resistant,” says Chan-Park. “We are therefore really excited that our new beta-peptide polymer has shown great promise in combating existing antibiotic-resistant strains of bacteria. Further, it has also proven its lethality against biofilm and persistent types of bacteria, which current antibiotics have limited action upon.”
Innovative medical research like the new co-beta-peptide is a crucial step toward preventing the staggering number of deaths from persistent and resistant bacteria. AMR also has plans to test this polymer for curing MRSA-affected livestock. This is a growing issue globally, with up to 50 percent of pig herds in parts of Europe affected by the virus. The new drug will be particularly beneficial to farmworkers, as the virus has been detected in 20-80 percent of workers in MRSA-positive herds.
While the next step for the research is to test the polymer on animals infected by MRSA in pig farms, the researchers are also preparing to have the drugs tested in clinical trials for use for the public.
“This is a promising new approach to combating antimicrobial resistance that hasn’t been done before,” says Pethe. “The toxicity and proof-of-concept studies have shown that this can be on the drug development pathway, as it shows good potency and low toxicity, and we look forward to having this developed as a topical drug for humans.”
Currently, AMR is looking for potential partners for further development of the antimicrobial polymers, particularly for human use.
The AMR IRG is a translational research and entrepreneurship program that tackles the growing threat of antimicrobial resistance. By leveraging talent and convergent technologies across Singapore and MIT, they aim to tackle AMR head-on by developing multiple innovative and disruptive approaches to identify, respond to, and treat drug-resistant microbial infections.
The Singapore-MIT Alliance for Research and Technology in MIT’s research enterprise in Singapore, established by MIT in partnership with the National Research Foundation of Singapore (NRF) in 2007. SMART is the first entity in the Campus for Research Excellence and Technological Enterprise, developed by NRF. SMART currently comprises an Innovation Center and six IRGs.