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1.
J Med Chem ; 2024 Oct 19.
Artigo em Inglês | MEDLINE | ID: mdl-39425665

RESUMO

Malaria has been a deadly enemy of mankind throughout history, affecting over 200 million people annually, along with approximately half a million deaths. Resistance to current therapies is of great concern, and there is a dire need for novel and well-tolerated antimalarials that operate by clinically unexploited mechanisms. We have previously reported that both tambjamines and prodiginines are highly potent novel antiplasmodial agents, but they required rigor optimizations to enhance the oral efficacy, safety, and physicochemical properties. Here, we launched a comprehensive structure-activity relationship study for B-ring-functionalized tambjamines and prodiginines with 54 novel analogues systematically designed and synthesized. A number of compounds exhibited remarkable antiplasmodial activities against asexual erythrocytic Plasmodium parasites, with improved safety and metabolic profiles. Notably, several prodiginines cured erythrocytic Plasmodium yoelii infections after oral 25 mg/kg × 4 days in a murine model and provided partial protection against liver stage Plasmodium berghei sporozoite-induced infection in mice.

2.
J Med Chem ; 67(10): 8323-8345, 2024 May 23.
Artigo em Inglês | MEDLINE | ID: mdl-38722757

RESUMO

Leishmaniasis is a neglected tropical disease that is estimated to afflict over 12 million people. Current drugs for leishmaniasis suffer from serious deficiencies, including toxicity, high cost, modest efficacy, primarily parenteral delivery, and emergence of widespread resistance. We have discovered and developed a natural product-inspired tambjamine chemotype, known to be effective against Plasmodium spp, as a novel class of antileishmanial agents. Herein, we report in vitro and in vivo antileishmanial activities, detailed structure-activity relationships, and metabolic/pharmacokinetic profiles of a large library of tambjamines. A number of tambjamines exhibited excellent potency against both Leishmania mexicana and Leishmania donovani parasites with good safety and metabolic profiles. Notably, tambjamine 110 offered excellent potency and provided partial protection to leishmania-infected mice at 40 and/or 60 mg/kg/10 days of oral treatment. This study presents the first account of antileishmanial activity in the tambjamine family and paves the way for the generation of new oral antileishmanial drugs.


Assuntos
Antiprotozoários , Leishmania donovani , Leishmania mexicana , Animais , Relação Estrutura-Atividade , Antiprotozoários/farmacologia , Antiprotozoários/química , Antiprotozoários/uso terapêutico , Antiprotozoários/síntese química , Antiprotozoários/farmacocinética , Camundongos , Leishmania donovani/efeitos dos fármacos , Leishmania mexicana/efeitos dos fármacos , Descoberta de Drogas , Humanos , Feminino , Leishmaniose/tratamento farmacológico , Camundongos Endogâmicos BALB C
3.
Mil Med ; 188(Suppl 6): 271-279, 2023 11 08.
Artigo em Inglês | MEDLINE | ID: mdl-37948226

RESUMO

INTRODUCTION: Combat injuries are complex and multimodal. Most injuries to the extremities occur because of explosive devices such as improvised explosive devices. Blast exposure dramatically increases the risk of infection in combat wounds, and there is limited available information on the best antibiotic treatments for these injuries. We previously demonstrated that mice exposed to blast displayed a delayed clearance of cefazolin from the plasma and liver; further semi-mechanistic modeling determined that cefazolin concentrations in the skin of these mice were reduced. Our objective was to investigate the effects of blast on the pharmacokinetics of antibiotics of different types used for the treatment of combat wounds in the rat model. MATERIALS AND METHODS: Male Sprague Dawley rats were exposed to blast overpressure followed by injection of a bolus of animal equivalent doses of an antibiotic (cefazolin, cefepime, ertapenem, or clindamycin) into the tail vein at 1-hour post-blast exposure. Blood was collected at predetermined time points via repeated sampling from the tail vein. Animals were also euthanized at predetermined time points, at which time liver, kidney, skin, and blood via cardiac puncture were collected. Antibiotic concentrations were determined by ultra-performance liquid chromatography-tandem mass spectrometry. RESULTS: Blast-exposed rats exhibited a similar rate of clearance compared to non-blasted rats in the blood, liver, kidney, and skin, which is inconsistent with the data regarding cefazolin in blast-exposed mice. CONCLUSIONS: Our results in rats do not recapitulate our previous observation of delayed cefazolin clearance in mice following the blast overpressure exposure. Although using rats permitted us to collect multiple blood samples from the same animals, rats may not be a suitable model for measuring the pharmacokinetics of antibiotics following blast. The interpretation of the results may be challenging because of variation in data among rat subjects in the same sample groups.


Assuntos
Antibacterianos , Traumatismos por Explosões , Humanos , Ratos , Masculino , Camundongos , Animais , Ratos Sprague-Dawley , Antibacterianos/uso terapêutico , Traumatismos por Explosões/tratamento farmacológico , Cefazolina/uso terapêutico , Explosões , Modelos Animais de Doenças
5.
ACS Cent Sci ; 8(8): 1145-1158, 2022 Aug 24.
Artigo em Inglês | MEDLINE | ID: mdl-36032774

RESUMO

Genomic studies and experiments with permeability-deficient strains have revealed a variety of biological targets that can be engaged to kill Gram-negative bacteria. However, the formidable outer membrane and promiscuous efflux pumps of these pathogens prevent many candidate antibiotics from reaching these targets. One such promising target is the enzyme FabI, which catalyzes the rate-determining step in bacterial fatty acid biosynthesis. Notably, FabI inhibitors have advanced to clinical trials for Staphylococcus aureus infections but not for infections caused by Gram-negative bacteria. Here, we synthesize a suite of FabI inhibitors whose structures fit permeation rules for Gram-negative bacteria and leverage activity against a challenging panel of Gram-negative clinical isolates as a filter for advancement. The compound to emerge, called fabimycin, has impressive activity against >200 clinical isolates of Escherichia coli, Klebsiella pneumoniae, and Acinetobacter baumannii, and does not kill commensal bacteria. X-ray structures of fabimycin in complex with FabI provide molecular insights into the inhibition. Fabimycin demonstrates activity in multiple mouse models of infection caused by Gram-negative bacteria, including a challenging urinary tract infection model. Fabimycin has translational promise, and its discovery provides additional evidence that antibiotics can be systematically modified to accumulate in Gram-negative bacteria and kill these problematic pathogens.

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