In Vitro and In Vivo Characterization of Potent Antileishmanial Methionine Aminopeptidase 1 Inhibitors.

Leishmania major is the causative agent of cutaneous leishmaniasis (CL). No human vaccine is available for CL, and current drug regimens present several drawbacks, such as emerging resistance, severe toxicity, medium effectiveness, and/or high cost. Thus, the need for better treatment options against CL is a priority. In the present study, we validate the enzyme methionine aminopeptidase 1 of L. major (MetAP1Lm), a metalloprotease that catalyzes the removal of N-terminal methionine from peptides and proteins, as a chemotherapeutic target against CL infection. The in vitro antileishmanial activities of eight novel MetAP1 inhibitors (OJT001 to OJT008) were investigated. Three compounds, OJT006, OJT007, and OJT008, demonstrated potent antiproliferative effects in macrophages infected with L. major amastigotes and promastigotes at submicromolar concentrations, with no cytotoxicity against host cells. Importantly, the leishmanicidal effect in transgenic L. major promastigotes overexpressing MetAP1Lm was diminished by almost 10-fold in comparison to the effect in wild-type promastigotes. Furthermore, the in vivo activities of OJT006, OJT007, and OJT008 were investigated in L. major-infected BALB/c mice. In comparison to the footpad parasite load in the control group, OJT008 decreased the footpad parasite load significantly, by 86%, and exhibited no toxicity in treated mice. We propose MetAP1 inhibitor OJT008 as a potential chemotherapeutic candidate against CL infection caused by L. major infection.

LC-MS/MS determination of d-mannose in human serum as a potential cancer biomarker.

Several metabolites in human serum have been identified as potential cancer biomarkers for early detection. This study focuses on the LC-MS/MS method development and validation of d-mannose in human serum. Surrogate blank serum, coupled with stable isotope d-mannose-13C6, as internal standard, was used for generating standard curves ranging from 1 to 50µg/mL. Separation was achieved by an Agilent 1200 series HPLC equipped with a SUPELCOGELTM Pb, 6% Crosslinked column with HPLC water as a mobile phase at flow rate of 0.5mL/min at 80°C. Mass detection was performed under negative ionization electrospray. Inter- and intra-day accuracy and precision were <2%. The extraction recovery and matrix effect were 104.1%-105.5% and 97.0%-100.0%, respectively. This method was successfully applied for the quantification of d-mannose in the serum samples of 320 esophageal cancer patients and 323 healthy volunteers. We report a simple, specific and reproducible LC-MS/MS method for the quantification of d-mannose in human serum as a potential cancer biomarker.

Simultaneous determination and validation of oncrasin-266 and its metabolites by HPLC-MS/MS: Application to a pharmacokinetic study.

Oncrasins are a class of RNA polymerase II inhibitors. Oncrasin-72 is an indole-3 carbinol analog that has shown to inhibit growth and induce the cell death of various human cancer cell lines. Oncrasin-266, a prodrug of oncrasin-72, has been shown to have improved pharmacokinetic properties and safety than Oncrasin-72. With respect to the potential therapeutic advantages of this class of compounds, there is a need for further preclinical assessment for future clinical trials. The development of and validation of an analytical method is essential for the quantification of oncrasins in biological fluids for pharmacokinetic studies. This study focuses on the HPLC-MS/MS method development and validation of oncrasin-266, oncrasin-72 and its aldehyde metabolite in rat plasma. Blank rat plasma, coupled with 1-(3-chlorobenzyl)-1H-indole, as internal standard, was used for generating standard curves ranging from 1 to 250ng/mL for oncrasin-266 and oncrasin-72; and 0.5-125ng/mL for the aldehyde metabolite. The chromatographic separation was achieved by a Zorbax 300SB-C18 HPLC column at 50°C with a flow rate of 1.1mL/min under gradient elution. Mass detection was performed under positive ionization electrospray. Intra- and inter-day accuracy and precision of the assay were less than 10%. We report a simple, specific and reproducible HPLC-MS/MS method for the quantification of oncrasins in rat plasma. This study was successfully used for the quantification of oncrasins in rat plasma for pharmacokinetic studies in three dose groups of 10, 25, and 50mg/kg via intravenous administration.