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1.
Anal Bioanal Chem ; 407(25): 7823-30, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26280205

ABSTRACT

Despite significant progress in prevention and therapy, malaria is still one of the world's leading major diseases due to its high morbidity and mortality. Recommended treatments by the World Health Organization include the use of artemisinin and artemisinin derivative-based combination therapies. To allow efficient patient monitoring during antimalarial therapy without the use of expensive apparatus, we developed a sensitive direct chemiluminescent enzyme immunoassay for the determination of dihydroartemisinin in biological fluids. To produce specific antibodies against dihydroartemisinin (DHA), a synthetic DHA derivative was coupled to bovine serum albumin as the immunogen. In parallel, a new, rapid, and efficient procedure to covalently link glycoprotein to all amine-containing molecules has been established and the enzyme tracer was prepared by chemically coupling the DHA derivative in combination with SBP rather than the more commonly used HRP. It allowed us to develop, after optimization of the luminescent reagent, a sensitive and stable luminescent EIA, with a LLOQ of 90 pg mL(-1). This assay compares favorably with the most efficient HPLC methods previously reported with a LLOQ close to 1 ng mL(-1) and shows good precision and efficiency since recovery from human plasma spiked with DHA ranged between 91 and 103%, with coefficients of variation of <13%. To date, no immunoassay for DHA has been applied to plasma analysis and this EIA should be very useful in all clinical laboratories for rapid and cost-effective analysis.


Subject(s)
Antimalarials/blood , Artemisinins/blood , Drug Monitoring/methods , Immunoenzyme Techniques/methods , Animals , Humans , Limit of Detection , Luminescent Measurements/methods , Peroxidase/chemistry , Rabbits , Glycine max/enzymology
2.
AIDS Res Treat ; 2014: 724958, 2014.
Article in English | MEDLINE | ID: mdl-25431661

ABSTRACT

Study of plasma and intracellular concentrations of atazanavir, lopinavir, nevirapine, and efavirenz was conducted on 48 patients under short cycles of antiretroviral therapy. Intracellular concentrations (IC) were still measurable for all drugs after 85 h or 110 h drug intake despite the absence of drug in plasma for atazanavir and lopinavir. A linear relationship between plasma and intracellular efavirenz was observed. Further studies to fully understand the impact of IC in the intermittent antiviral treatment are required.

3.
ACS Chem Biol ; 9(3): 711-21, 2014 Mar 21.
Article in English | MEDLINE | ID: mdl-24359019

ABSTRACT

MicroRNAs (miRNAs) are a recently discovered category of small RNA molecules that regulate gene expression at the post-transcriptional level. Accumulating evidence indicates that miRNAs are aberrantly expressed in a variety of human cancers and revealed to be oncogenic and to play a pivotal role in initiation and progression of these pathologies. It is now clear that the inhibition of oncogenic miRNAs, defined as blocking their biosynthesis or their function, could find an application in the therapy of different types of cancer in which these miRNAs are implicated. Here we report the design, synthesis, and biological evaluation of new small-molecule RNA ligands targeting the production of oncogenic microRNAs. In this work we focused our attention on miR-372 and miR-373 that are implicated in the tumorigenesis of different types of cancer such as gastric cancer. These two oncogenic miRNAs are overexpressed in gastric cancer cells starting from their precursors pre-miR-372 and pre-miR-373, two stem-loop structured RNAs that lead to mature miRNAs after cleavage by the enzyme Dicer. The small molecules described herein consist of the conjugation of two RNA binding motives, i.e., the aminoglycoside neomycin and different natural and artificial nucleobases, in order to obtain RNA ligands with increased affinity and selectivity compared to that of parent compounds. After the synthesis of this new series of RNA ligands, we demonstrated that they are able to inhibit the production of the oncogenic miRNA-372 and -373 by binding their pre-miRNAs and inhibiting the processing by Dicer. Moreover, we proved that some of these compounds bear anti-proliferative activity toward gastric cancer cells and that this activity is likely linked to a decrease in the production of targeted miRNAs. To date, only few examples of small molecules targeting oncogenic miRNAs have been reported, and such inhibitors could be extremely useful for the development of new anticancer therapeutic strategies as well as useful biochemical tools for the study of miRNAs' pathways and mechanisms. Furthermore, this is the first time that a design based on current knowledge about RNA targeting is proposed in order to target miRNAs' production with small molecules.


Subject(s)
Antineoplastic Agents/chemical synthesis , Antineoplastic Agents/pharmacology , MicroRNAs/antagonists & inhibitors , Small Molecule Libraries/chemical synthesis , Small Molecule Libraries/pharmacology , Antineoplastic Agents/chemistry , Antineoplastic Agents/therapeutic use , Cell Line, Tumor , Cell Proliferation/drug effects , Cell Survival/drug effects , Drug Design , Humans , Ligands , MicroRNAs/biosynthesis , Molecular Structure , Molecular Targeted Therapy , Small Molecule Libraries/chemistry , Small Molecule Libraries/therapeutic use , Stomach Neoplasms/drug therapy , Stomach Neoplasms/genetics , Stomach Neoplasms/pathology
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