efficacy of next-generation dihydrotriazines and biguanides against babesiosis and malaria parasites.

and pathogens, the causative agents of babesiosis and malaria, are vector-borne intraerythrocytic protozoan parasites, posing significant threats to both human and animal health. The widespread resistance exhibited by these pathogens to various classes of antiparasitic drugs underscores the need for the development of novel and more effective therapeutic strategies. Antifolates have long been recognized as attractive antiparasitic drugs as they target the folate pathway, which is essential for the biosynthesis of purines and pyrimidines, and thus is vital for the survival and proliferation of protozoan parasites.

Liposomal bupivacaine use in exploratory lingual nerve microsurgery: does liposomal bupivacaine use decrease postoperative pain and opioid consumption compared to bupivacaine hydrochloride? A pilot study.

Objectives: The purpose of this study was to determine if liposomal bupivacaine 1.3% (LB), Exparel (Pacira Pharmaceuticals), is more effective than bupivacaine hydrochloride 0.25% (BH), Marcaine (Hospira), in reducing postoperative pain and opioid consumption in patients undergoing exploratory lingual nerve microsurgery.

Relevance of Higher-Order Epistasis in Drug Resistance.

We studied five chemically distinct but related 1,3,5-triazine antifolates with regard to their effects on growth of a set of mutants in dihydrofolate reductase. The mutants comprise a combinatorially complete data set of all 16 possible combinations of four amino acid replacements associated with resistance to pyrimethamine in the malaria parasite Plasmodium falciparum. Pyrimethamine was a mainstay medication for malaria for many years, and it is still in use in intermittent treatment during pregnancy or as a partner drug in artemisinin combination therapy.

Efficacy and Pharmacokinetics of the 2-Aminomethylphenol Antimalarial JPC-3210 in the Monkey-Human Malaria Model.

Nonimmune monkeys infected with and were cured of their infections when treated with a single oral dose of 5 mg/kg and 10 mg/kg of the 2-aminomethylphenol, JPC-3210, respectively. Corresponding mean blood elimination half-lives of JPC-3210 were lengthy at 19.1 days and 20.

Multi-omic Characterization of the Mode of Action of a Potent New Antimalarial Compound, JPC-3210, Against .

The increasing incidence of antimalarial drug resistance to the first-line artemisinin combination therapies underpins an urgent need for new antimalarial drugs, ideally with a novel mode of action. The recently developed 2-aminomethylphenol, JPC-3210, (MMV 892646) is an erythrocytic schizonticide with potent antimalarial activity against multidrug-resistant lines, low cytotoxicity, potent efficacy against murine malaria, and favorable preclinical pharmacokinetics including a lengthy plasma elimination half-life. To investigate the impact of JPC-3210 on biochemical pathways within infected red blood cells, we have applied a "multi-omics" workflow based on high resolution orbitrap mass spectrometry combined with biochemical approaches.