Researchers at Western University have developed a new way to deliver the DNA-editing tool CRISPR-Cas9 into microorganisms in the lab, providing a way to efficiently launch a targeted attack on specific bacteria.
Published today in Nature Communications, this study opens up the possibility of using CRISPR to alter the makeup of the human microbiome in a way that could be personalized and specific from person to person. It also presents a potential alternative to traditional antibiotics to kill bacteria like Staphyloccous aureus (Staph A) or Escherichia coli (E. coli).
“One of the major reasons that I am excited about this work is that it has a wide range of possible real-world applications,” said Bogumil Karas, PhD, Assistant Professor at Western’s Schulich School of Medicine & Dentistry. “It has the potential for development of next generation antimicrobial agents that would be effective even for bacteria that are resistant to all known antibiotics. This technology could also be used to help ‘good’ bacteria produce compounds to treat diseases caused by protein deficiencies.”
CRISPR stands for Clustered Regularly Interspaced Short Palindromic Repeats and can be programmed to target specific stretches of genetic code and to edit DNA at precise locations. Researchers use CRISPR to permanently modify genes in living cells and organisms.
In this way, CRISPR can be programmed to kill bacteria, but until now there wasn’t a way to efficiently and specifically target certain bacterial strains.
“Using CRISPR to kill things isn’t a new idea because that’s what CRISPR does naturally,” said David Edgell, PhD, Professor at Schulich Medicine & Dentistry. “The problem has always been how you get CRISPR to where you want it to go. Other delivery systems could only go to a few spots, where ours can go anywhere.”
The delivery system developed at Western uses bacteria’s natural ability to replicate – called bacterial conjugation – to deliver CRISPR to specific bacteria, in order to alter its DNA and kill it.
“Specific delivery of any therapeutic agent, including CRISPR, is usually one of the biggest bottlenecks in development of new treatments. By developing this new delivery system, we created new tools that could help us in the development of more effective therapies in the near future,” said Karas.
The team says their delivery system is not only broadly applicable, but it is also more efficient than previous systems.
“We were able to show near complete transfer of the delivery vehicle to another bacterial species under conditions where they are in intimate contact – in a biofilm. This is important because biofilms are the natural state of the majority of bacteria, and being able to transfer DNA under these conditions is typically difficult, but we found a way to make it easy and efficient,” said Gregory Gloor, PhD, Professor at Schulich Medicine & Dentistry.
Learn more: Researchers unlock potential to use CRISPR to alter the microbiome
The Latest on: Next generation antimicrobial agents
[google_news title=”” keyword=”next generation antimicrobial agents” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Next generation antimicrobial agents
- Immunomodulatory Effects of Antimicrobial Agents. Part Ion April 24, 2024 at 5:00 pm
Few papers have analyzed the possible additional immunomodulatory activity of antiviral agents. In particular, cellular uptake, a critical property for these intracellular acting drugs is not studied.
- New antibiotics aren’t being fully used, study findson April 23, 2024 at 2:02 pm
A new study shows that, despite having newer options for antibiotic-resistant infections, US clinicians are still frequently opting for less optimal older, generic antibiotics.
- 'Sluggish' Hospital Uptake of Newer Antibiotics for Gram-Negative Infectionson April 19, 2024 at 11:12 pm
Use of new antibiotics gradually increased across the study period from January 2016 to June 2021, but gains were uneven across agents. The most commonly used next-generation antibiotics during that ...
- Sluggish uptake of new antibiotics threatens future development and supply for highly resistant infectionson April 19, 2024 at 6:14 am
Furthermore, nearly 80% of the time these older agents are already known to be highly toxic or ... that ceftolozane–tazobactam and ceftazidime–avibactam, the two first "next-generation" ...
- Functional Gold Nanoclusters as Antimicrobial Agents for Antibiotic-resistant Bacteriaon March 30, 2024 at 5:01 pm
Aims: Our aim was to demonstrate that lysozyme-directed generation of gold nanoclusters (Au NCs) are potential antimicrobial agents for antibiotic-resistant bacteria and broad labeling agents for ...
- Next Generation - What We Know Briefson August 11, 2022 at 10:41 pm
As part of the British Council's Next Generation research programme, three What We Know briefs bring together insights from recent reports to examine the global attitudes that young people have on ...
- Next-generation sequencing: in summaryon October 22, 2021 at 8:51 pm
What is next-generation sequencing? Next-generation sequencing (often noted as NGS), describes the high-throughput technologies that can now determine the sequence of a given nucleic acid strand, such ...
- BioVersys: saving lives in resistant timeson October 18, 2021 at 5:24 am
The Swiss pharmaceutical company BioVersys is developing next-generation antimicrobial drugs with ... is already known to be a fast bactericidal agent, distributing well into lungs, and safe ...
- The next generationon September 20, 2019 at 5:00 pm
Hamai Appliance CEO Clyde Hamai (center) is flanked by the next generation of family members, who in the future will take over the 50-year-old family business in Kahului. Shown (from left ...
- Next-Generation Philanthropyon February 15, 2019 at 9:38 am
And, the older generations are often more comfortable with patriarchal models of governance, while next-generation philanthropists tend to prefer collegial or managerial models of governance, and they ...
via Bing News
