AI Article Synopsis
- Polypharmacology refers to a drug's ability to target multiple molecular pathways, a key feature of many small therapeutic molecules.
- This study used a combination of analytical tools to analyze the differences between two similar drugs, azacytidine (AZA) and decitabine (DAC), focusing on their distinct effects on cancer cells.
- Results showed that AZA was more effective at killing cancer cells by blocking protein synthesis and triggering cell death, while DAC caused cell cycle arrest, highlighting their varied actions and the usefulness of the chemical genomics approach for understanding drug mechanisms.
Article Abstract
Polypharmacology (the ability of a drug to affect more than one molecular target) is considered a basic property of many therapeutic small molecules. Herein, we used a chemical genomics approach to systematically analyze polypharmacology by integrating several analytical tools, including the LINCS (Library of Integrated Cellular Signatures), STITCH (Search Tool for Interactions of Chemicals), and WebGestalt (WEB-based GEne SeT AnaLysis Toolkit). We applied this approach to identify functional disparities between two cytidine nucleoside analogs: azacytidine (AZA) and decitabine (DAC). AZA and DAC are structurally and mechanistically similar DNA-hypomethylating agents. However, their metabolism and destinations in cells are distinct. Due to their differential incorporation into RNA or DNA, functional disparities between AZA and DAC are expected. Indeed, different cytotoxicities of AZA and DAC toward human colorectal cancer cell lines were observed, in which cells were more sensitive to AZA. Based on a polypharmacological analysis, we found that AZA transiently blocked protein synthesis and induced an acute apoptotic response that was antagonized by concurrently induced cytoprotective autophagy. In contrast, DAC caused cell cycle arrest at the G2/M phase associated with p53 induction. Therefore, our study discriminated functional disparities between AZA and DAC, and also demonstrated the value of this chemical genomics approach that can be applied to discover novel drug action mechanisms.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5053656 | PMC |
| http://dx.doi.org/10.18632/oncotarget.8455 | DOI Listing |
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