AI Article Synopsis
- Protein tyrosine phosphatases (PTPs) are important targets for drugs aimed at treating conditions like cancer and diabetes, and the study focused on discovering new drug candidates by using marine fungi (DL1045) treated with a histone deacetylase inhibitor (SAHA).
- The research found that 46% of the secondary metabolites produced were regulated, with 20 newly biosynthesized metabolites identified specifically in the chemical epigenetic regulation (CER) broth, including a novel compound.
- Some of the metabolites, particularly sydowimide A (A11) and diorcinol (A3), exhibited potent inhibitory effects on specific PTPs, with diorcinol showing the strongest activity against SH
Article Abstract
Protein tyrosine phosphatases (PTPs) are ubiquitous in living organisms and are promising drug targets for cancer, diabetes/obesity, and autoimmune disorders. In this study, a histone deacetylase inhibitor called suberoylanilide hydroxamic acid (SAHA) was added to a culture of marine fungi ( DL1045) to identify potential drug candidates related to PTP inhibition. Then, the profile of the induced metabolites was characterized using an integrated metabolomics strategy. In total, 46% of the total SMs were regulated secondary metabolites (SMs), among which 20 newly biosynthesized metabolites (10% of the total SMs) were identified only in chemical epigenetic regulation (CER) broth. One was identified as a novel compound, and fourteen compounds were identified from first. SAHA derivatives were also biotransformed by DL1045, and five of these derivatives were identified. Based on the bioassay, some of the newly synthesized metabolites exhibited inhibitory effects on PTPs. The novel compound sydowimide A (A11) inhibited Src homology region 2 domain-containing phosphatase-1 (SHP1), T-cell protein tyrosine phosphatase (TCPTP) and leukocyte common antigen (CD45), with IC values of 1.5, 2.4 and 18.83 μM, respectively. Diorcinol (A3) displayed the strongest inhibitory effect on SHP1, with an IC value of 0.96 μM. The structure-activity relationship analysis and docking studies of A3 analogs indicated that the substitution of the carboxyl group reduced the activity of A3. Research has demonstrated that CER positively impacts changes in the secondary metabolic patterns of DL1045. The compounds produced through this approach will provide valuable insights for the creation and advancement of novel drug candidates related to PTP inhibition.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10856041 | PMC |
| http://dx.doi.org/10.3390/molecules29030670 | DOI Listing |
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