cofactor-independent phosphoglycerate mutase
When you think of the causes of infectious diseases, what first comes to mind are probably viruses and bacteria. But parasites are another important source of devastating infection, especially in the developing world. Now, NIH researchers and their collaborators have discovered a new kind of treatment that holds promise for fighting parasitic roundworms. A bonus of this result is that this same treatment might work also for certain deadly kinds of bacteria.
The researchers identified the potential new therapeutic after testing more than a trillion small protein fragments, called cyclic peptides, to find one that could disable a vital enzyme in the disease-causing organisms, but leave similar enzymes in humans unscathed. Not only does this discovery raise hope for better treatments for many parasitic and bacterial diseases, it highlights the value of screening peptides in the search for ways to treat conditions that do not respond well—or have stopped responding—to more traditional chemical drug compounds.
Tags: anthrax, antibiotic resistance, Bacillus anthracis, bacteria, cell biology, chemistry, cofactor-independent phosphoglycerate mutase, cyclic peptides, drug design, drug development, drug discovery, drug targets, drugs, glycolysis, ipglycermides, iPGM, parasite, peptide, roundworm, small molecules, Staphylococcus aureus