Publications by authors named "M Searcey"
Triterpenes are structurally complex natural products with promising therapeutic properties. Recalcitrance to chemical synthesis has hindered their use in drug development. Recent advances now make it possible to access and harness triterpene structural diversity using engineering biology approaches, enabling the discovery and optimisation of a new generation of drug leads.
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- Accurate measurement of drug-target interactions is essential for developing new therapies, but traditional methods may be less reliable when receptors are artificially overexpressed in lab settings.
- The study focuses on the CXCR4 receptor, which is linked to cancer progression, and evaluates the new fluorescently tagged antagonist IS4-FAM as a tool for studying its affinity in natural cancer cell environments.
- IS4-FAM effectively labels CXCR4 in various cancer cell lines and shows competitive behavior with a known CXCR4 antagonist, showcasing its potential as a valuable resource for drug discovery in non-modified cells.
Inhibiting the PD-1/PD-L1 protein-protein interaction is a key immunotherapy for cancer. Antibodies dominate the clinical space but are costly, with limited applicability and immune side effects. We developed a photo-controlled azobenzene peptide that selectively inhibits the PD-1/PD-L1 interaction when in the isomer only.
View Article and Find Full Text PDFThe synthesis of the ethyl ester analogue of the ultrapotent antitumour antibiotic seco-duocarmycin SA has been achieved in eleven linear steps from commercially available starting materials. The DSA alkylation subunit can be made in ten linear steps from the same precursor. The route involves C-H activation at the equivalent of the C7 position on indole leading to a borylated intermediate 9 that is stable enough for peptide coupling reactions but can be easily converted to the free hydroxyl analogue.
View Article and Find Full Text PDFSuramin was the first effective drug for the treatment of human African sleeping sickness. Structural analogues of the trypanocide have previously been shown to be potent inhibitors of several enzymes. Therefore, four suramin analogues lacking the methyl group on the intermediate rings and with different regiochemistry of the naphthalenetrisulphonic acid groups and the phenyl rings were tested to establish whether they exhibited improved antiproliferative activity against bloodstream forms of Trypanosomes brucei compared to the parent compound.
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