Next-gen therapy. AMP up the fight against hardy pathogens
- January 9, 2023
- Posted by: OptimizeIAS Team
- Category: DPN Topics
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Next-gen therapy. AMP up the fight against hardy pathogens
Subject : Science and Technology
Context:
- Scientists are using a little-known line of defence — antimicrobial peptides — to beat antimicrobial drug resistance.
The problem of drug-resistant microbes:
- Our bodies have their own defence mechanism against invading microbes (pathogens such as bacteria and viruses).
- This defence mechanism is in the form of antibodies, which are proteins (long chains of amino acids)- the antibodies destroy the pathogens, or, at least, most of the time.
- This defence mechanism is strengthened by man-made drugs- antibiotics– which kill bacteria (not viruses).
- Over time, these microbes develop resistance to drugs.
- This antimicrobial drug resistance (ADR) is now so serious that it has come to be recognised as a major killer.
Solution: Antimicrobial peptides or AMPs:
- Scientists are now turning to a less-recognised line of defence known as ‘antimicrobial peptides’, or AMPs.
- Peptides are small chains of amino acids.
- AMPs are produced by human bodies, as also other living beings.
- Today, about 5,000 AMPs are known, catalogued.
- AMPs are proving to be smarter than invading pathogens.
- These peptides are effective, broad-spectrum antimicrobials that establish themselves as new therapeutic agents, and hold the potential to kill gram-negative and gram-positive bacteria, fungi, enclosed viruses, and even mutated or malignant cells.
- Unlike antibiotics, AMPs are effective against viruses too.
How do AMPs work?
- The pathogens enter healthy cells and use the chemicals to multiply, destroying the cells in the process.
- AMPs attach themselves to cell membranes of bacteria or virus and prevent them from entering healthy cells.
- This happens because the cell walls of pathogens are negatively charged, whereas AMPs are positively charged — the attraction between unlike charges enables AMPs to cling to the membranes.
The issue with AMPs:
- The problem is, how to produce AMPs.
- It is possible to chemically synthesise AMPs. Another option is to take the DNA in organisms and coax it to produce the peptides.
- But both are time-consuming, costly and with no guaranteed output.
Designers’ AMPs:
- Scientists have evolved a novel method called the ‘cell-free protein synthesis’ (CFPS), which involves in-vitro transcription (making RNA from DNA) and translation (making peptides from RNA). In other words, the peptides are made outside living cells.
- This method can help overcome potential cellular toxicity effects and open up the way for rapid, small-scale production of several hundreds of peptides from linear DNA in parallel.
Scope of AMPs:
- There is no AMP drug in the market yet.
- In 2019, the Indian Institute of Science, Bengaluru, and MS Ramaiah Medical College came up with a peptide, named Omega76, against the ESKAPE family of bacteria, but there has not been much progress since.