AI Article Synopsis
- Researchers are exploring the role of extracellular matrix (ECM) enzymes, like lysyl oxidase (LOX), in potentially controlling cancer invasion by altering the structural integrity of the ECM.
- A new molecular probe has been developed that interacts uniquely with these enzymes, allowing it to manipulate their function and create a network similar to natural ECM components, enhancing the understanding of their role in cancer.
- This innovative biosensing technique offers three types of signal readouts to monitor ECM enzyme activity, providing valuable insights into colorectal cancer progression and potential future applications in assessing tumor invasiveness.
Article Abstract
Extracellular matrix (ECM) enzymes such as lysyl oxidase (LOX) provide a new possibility to contain the invasive progress of cancer. Unlike conventional enzymes, the activity of ECM enzymes is not simply the conversion of the substrate to the product; the amount of enzymes such as matrix metalloproteinases in the ECM changes the structural integrity and morphology of the ECM. These are all important aspects that must be monitored in a spatiotemporally coupled fashion to fully understand their procancerous effect. To achieve this goal, a new molecular probe is developed, which, unlike antibodies or aptamers, can interact with the target enzyme in a more interactive way: the probe can withdraw the metal ion cofactor of the enzyme and modulate its catalytic ability. This can lead to self-propagated cross-linking of the probes to form a network not dissimilar to the collagen and elastin network of the ECM, formed through LOX activity. Thus, the biosensing process itself is a biomimetic of what may occur in vivo in the ECM, and three distinct types of signal readouts can be simultaneously recorded on the sensing surface to provide a fuller picture of ECM enzyme activity, not achievable with traditional designs. Using this method, a parallel between the detected signal and the progress of colorectal cancer can be observed. These results may point to prospective application of this method in evaluating ECM-related tumor invasiveness in the future.
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| http://dx.doi.org/10.1021/acssensors.0c02651 | DOI Listing |
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