Antibiotic-resistant bacteria are a key problem currently facing the world. Therefore, there is a great need to develop specific methods to selectively identify drug-resistant bacteria. It has been found that one of their main defense mechanisms for developing antibiotic resistance is the production of resistant enzymes such as β-lactamases (Blas). For drug-resistant bacteria, we need not only to investigate novel antibiotics that target Blas, but also to develop new enzyme assays to identify superbugs.
Specific Enzyme Detection Superbugs
Some pathogenic bacteria have developed significant resistance to antibiotics due to the progressive development of drug-resistant enzymes. Blas are hydrolytic enzymes that destroy antibiotics further rendering the drugs ineffective. Nearly 3000 Blas have been identified. Depending on the type of substrate, these enzymes can be classified as penicillinases, cephalosporinases, ultra-broad-spectrum β-lactamases and carbapenemases. As these types of enzymes continue to emerge, methods for selective and specific detection of enzymes have been developed and have become important diagnostic tools for the detection and monitoring of drug-resistant bacteria.
Fig. 1 Hydrolysis reaction of β-lactamases with antibiotics. (Ding Y, et al., 2021)
Detection Services of Superbugs by Resistant Enzymes
Our assays for Blas include the following.
Phenotypic assays
We can provide susceptibility testing of bacterial samples to Blas-like antibiotics. This includes agar diffusion tests, minimum inhibitory concentration assays, etc. This can help to some extent in detecting the type and severity of bacterial resistance.
Genetic assays
We mainly provide PCR to detect quantitative expression of bacterial resistance genes, and detection of drug-resistant enzyme genes with high accuracy and sensitivity by mass spectrometry and other methods.
Small molecule probe assays
We offer small molecule probes as research tools for specific enzyme analysis. Based mainly on the hydrolytic properties of Blas and antibiotics, we design and screen Blas-specific probes, and detect them by the characteristic changes of the probes after hydrolysis. Especially for the less studied carbapenemases, which are mostly superbugs resistance-inducing causes, we design probes that specifically recognize carbapenemases based on carbapenem parent nuclei.