The analysis of exosomes, which shows an increasing potential as prognostic biomarkers for non-invasive cancer diagnosis, can reveal their biological functions and disease associations. Nevertheless, the development of a convenient and quantitative method for determination of exosomes is still challenging. Researchers from Nanjing University have developed a novel approach for exosome quantification using pH test paper via HRP-mediated promotion of mussel-inspired surface engineering and reagent-free functionalization of urease molecules. Uerase can hydrolyse urea into ammonia and carbon dioxide, and simultaneously raise the pH value of the solution. By establishing the relationship between exosome recognition and the change of pH value of the sensing solution, one can directly employ the low-cost, widely used and commercially available pH test paper to quantitatively analyse exosomes. The pH-responsive bioassay enables sensitive detection of exosomes with a detection of limit down to 4.46 × 103 particles/µL and can be successfully applied for determination of exosomes in clinical specimens. The versatility and reliability of our sensing platform may open up opportunities towards paper-based diagnosis of cancer.
A pH-responsive bioassay for paper-based diagnosis of exosomes via mussel-inspired surface chemistry
Yang Y, Li C, Shi H, Chen T, Wang Z, Li G. (2018) A pH-responsive bioassay for paper-based diagnosis of exosomes via mussel-inspired surface chemistry. Talanta 192:325-330. [abstract]