Structure-based identification of salicylic acid derivatives as malarial threonyl tRNA-synthetase inhibitors.

Emerging resistance to existing antimalarial drugs drives the search for new antimalarials, and protein translation is a promising pathway to target. Threonyl t-RNA synthetase (ThrRS) is one of the enzymes involved in this pathway, and it has been validated as an anti-malarial drug target. Here, we present 9 structurally diverse low micromolar Plasmodium falciparum ThrRS inhibitors that were identified using high-throughput virtual screening (HTVS) and were verified in a FRET enzymatic assay. Salicylic acid-based compound (LE = 0.34) was selected as a most perspective hit and was subjected to hit-to-lead optimisation. A total of 146 hit analogues were synthesised or obtained from commercial vendors and were tested. Structure-activity relationship study was supported by the crystal structure of the complex of a salicylic acid analogue with a close homologue of the plasmodium target, E. coli ThrRS (EcThrRS). Despite the availability of structural information, the hit identified via virtual screening remained one of the most potent PfThrRS inhibitors within this series. However, the compounds presented herein provide novel scaffolds for ThrRS inhibitors, which could serve as starting points for further medicinal chemistry projects targeting ThrRSs or structurally similar enzymes.

Discovery of Malarial Threonyl tRNA Synthetase Inhibitors by Screening of a Focused Fragment Library.

While Plasmodium falciparum threonyl tRNA synthetase (PfThrRS) has clearly been validated as a prospective antimalarial drug target, the number of known inhbitors of this enzyme is still limited. In order to expand the chemotypes acting as inhibitors of PfThrRS, a set of fragments were designed which incorporated bioisosteres of the N-acylphosphate moiety of the aminoacyladenylate as an intermediate of an enzymatic reaction. N-Acyl sulfamate- and N-acyl benzenethiazolsulfonamide-based fragments 9a and 9k were identified as inhibitors of the PfThrRSby biochemical assay at 100 µM concentration. These fragments were then developed into potent PfThrRS inhibitors (10a,b and 11) by linking them with an amino pyrimidine as a bioisostere of adenine in the enzymatic reaction intermediate.

Synthesis and evaluation of an agrocin 84 toxic moiety (TM84) analogue as a malarial threonyl tRNA synthetase inhibitor.

An analogue of a toxic moiety (TM84) of natural product agrocin 84 containing threonine amide instead of 2,3-dihydroxy-4-methylpentanamide was prepared and evaluated as a putative Plasmodium falciparum threonyl t-RNA synthetase (PfThrRS) inhibitor. This TM84 analogue features submicromolar inhibitory potency (IC50 = 440 nM) comparable to that of borrelidin (IC50 = 43 nM) and therefore complements chemotypes known to inhibit malarial PfThrRS, which are currently limited to borrelidin and its analogues. The crystal structure of the inhibitor in complex with the E. coli homologue enzyme (EcThrRS) was obtained, revealing crucial ligand-protein interactions that will pave the way for the design of novel ThrRS inhibitors.

Detection of circulating miRNAs: comparative analysis of extracellular vesicle-incorporated miRNAs and cell-free miRNAs in whole plasma of prostate cancer patients.

BACKGROUND: Circulating cell-free miRNAs have emerged as promising minimally-invasive biomarkers for early detection, prognosis and monitoring of cancer. They can exist in the bloodstream incorporated into extracellular vesicles (EVs) and ribonucleoprotein complexes. However, it is still debated if EVs contain biologically meaningful amounts of miRNAs and may provide a better source of miRNA biomarkers than whole plasma. The aim of this study was to systematically compare the diagnostic potential of prostate cancer-associated miRNAs in whole plasma and in plasma EVs. METHODS: RNA was isolated from whole plasma and plasma EV samples from a well characterised cohort of 50 patient with prostate cancer (PC) and 22 patients with benign prostatic hyperplasia (BPH). Nine miRNAs known to have a diagnostic potential for PC in cell-free blood were quantified by RT-qPCR and the relative quantities were compared between patients with PC and BPH and between PC patients with Gleason score ≥ 8 and ≤6. RESULTS: Only a small fraction of the total cell-free miRNA was recovered from the plasma EVs, however the EV-incorporated and whole plasma cell-free miRNA profiles were clearly different. Four of the miRNAs analysed showed a diagnostic potential in our patient cohort. MiR-375 could differentiate between PC and BPH patients when analysed in the whole plasma, while miR-200c-3p and miR-21-5p performed better when analysed in plasma EVs. EV-incorporated but not whole plasma Let-7a-5p level could distinguish PC patients with Gleason score ≥ 8 vs ≤6. CONCLUSIONS: This study demonstrates that for some miRNA biomarkers EVs provide a more consistent source of RNA than whole plasma, while other miRNAs show better diagnostic performance when tested in the whole plasma.