Bruce Michael

Platensimycin is a selective FabF inhibitor with potent antibiotic properties

Bacterial infection remains a serious threat to human lives because of emerging resistance to existing antibiotics. Although the scientific community has avidly pursued the discovery of new antibiotics that interact with new targets, these efforts have met with limited success since the early 1960s. Here we report the discovery of platensimycin, a previously unknown class of antibiotics produced by Streptomyces platensis. Platensimycin demonstrates strong, broad-spectrum Gram-positive antibacterial activity by selectively inhibiting cellular lipid biosynthesis. We show that this anti-bacterial effect is exerted through the selective targeting of β-ketoacyl-(acyl-carrier-protein (ACP)) synthase I/II (FabF/B) in the synthetic pathway of fatty acids. Direct binding assays show that platensimycin interacts specifically with the acyl-enzyme intermediate of the target protein, and X-ray crystallographic studies reveal that a specific conformational change that occurs on acylation must take place before the inhibitor can bind. Treatment with platensimycin eradicates Staphylococcus aureus infection in mice. Because of its unique mode of action, platensimycin shows no cross-resistance to other key antibiotic-resistant strains tested, including methicillin-resistant S. aureus, vancomycin-intermediate S. aureus and vancomycin-resistant enterococci. Platensimycin is the most potent inhibitor reported for the FabF/B condensing enzymes, and is the only inhibitor of these targets that shows broad-spectrum activity, in vivo efficacy and no observed toxicity.

Comparison of Ivermectin, Doramectin, Selamectin, and Eleven Intermediates in a Nematode Larval Development Assay

Chemical substitutions at pharmacologically relevant sites such as C-5, C-13, C-22,23, and C-25 were examined in ivermectin, doramectin, selamectin, and a series of 11 other intermediates using a larval development assay with Haemonchus contortus. A range of activities spanning 5 orders of magnitude were manifest with small changes in the substituents to the 14 avermectins. Within this compound series, there was no major potency advantage or disadvantage to a disaccharide over a monosaccharide substituent at C-13. Ivermectin and doramectin were each fully effective at a concentration of 0.001 µg/ml, and both were similar to their respective monosaccharide homologs. Specific patterns emerged among the analogs with substituents at C-5. Analogs possessing hydroxyl groups at C-5 were superior in activity by several orders of magnitude over those with oxo substituents. Replacement of the oxo with an oxime (NOH) restored activity to some degree but did not restore it to the level of those possessing the hydroxyl substituent. Consequently, ivermectin and doramectin that possess hydroxyl moieties at C-5 were superior against H. contortus to those like selamectin that have oxime substituents. There was no advantage for analogs with a single or double bond at C-22,23 within the cyclohexyl series, and these analogs had equivalent activity as those with a single bond at C-22,23 in the sec-butyl/isopropyl series. However, there was superior activity for the analog series that possessed the combination of a double-bond at C-22,23 and a sec-butyl/isopropyl substituent at C-25. As a result, the most potent compound in this test was not any of the 3 commercialized avermectins but was a monosaccharide with a double bond at C-22,23, an hydroxyl at C-5, and a sec-butyl/isopropyl moiety at C-25.

TRANSMAMMARY TRANSMISSION OF STRONGYLOIDES STERCORALIS IN DOGS

Vertical transmission of larvae is a major pathway in the life cycle of several species of Strongyloides, but evidence for it occurring in humans or dogs with Strongyloides stercoralis is absent. In an effort to determine if vertical transmission could occur with S. stercoralis, each of 3 female dogs was infected with filariform larvae at a different stage of the reproductive cycle, i.e., preconception, gestation, or postpartum. Results showed that none of 6 pups born to a female infected before conception or any of 6 pups born to another female infected during gestation harbored any stage of S. stercoralis when necropsied at parturition. Conversely, all 5 pups that nursed from the female infected immediately postpartum became infected with adult S. stercoralis in their small intestines (range, 56–129 adult worms). Significantly, live filariform larvae of S. stercoralis were observed on 2 different occasions from milk samples taken from the lactating female. Because arrested development of larvae is not known in S. stercoralis, there is no reservoir of larvae in the parenteral tissues of females to queue for passage to the pups and, thus, it is not surprising that only timely infections, perhaps very late in gestation and during lactation, can be successful. These data support previous work in dogs with S. stercoralis, which concluded that vertical transmission through prenatal pathways does not occur, but they are the first from the dog to indicate that vertical transmission of this parasite through transmammary routes is possible. Whether transmammary transmission of S. stercoralis occurs in humans remains unknown but given its immense pathological potential, it should not be overlooked.

SYSTEMIC EFFICACY OF NODULISPORAMIDES AGAINST FLEAS ON DOGS

Nodulisporic acid A (NSA) has been shown previously to be safe in dogs and to deliver >90% flea control for 4 days following a single oral administration. Three newly prepared nodulisporamide derivatives were subsequently identified from an artificial membrane flea feeding system as exhibiting potency substantially greater than NSA. To determine if they have superior in vivo activity, these 3 nodulisporamides, as well as NSA, were evaluated in dogs at 15 mg/kg/os. Parasite challenges were made by placing 100 live Ctenocephalides felis fleas onto the dorsum of dogs every 48 hr and examining efficacy at each of those intervals over a 22-day period. Results showed that NSA produced >90% efficacy at day 2 and 81% efficacy at day 4, and its residual flea killing fell to ∼50% by day 6 posttreatment. All dogs treated with the 3 new experimental nodulisporamides were 100% protected from flea challenges to day 8 posttreatment, and 2 of the compounds continued to produce >90% residual activity to 2 wk posttreatment. Pharmacokinetic analysis showed that plasma profiles and half-lives of NSA and these 3 new compounds correlated closely with flea efficacy. These results demonstrate that specific substitutions to the pharmacophore of NSA can substantially increase the duration of activity against fleas.

Discovery of the Development Candidate N-tert-Butyl Nodulisporamide: A Safe and Efficacious Once Monthly Oral Agent for the Control of Fleas and Ticks on Companion Animals

Nodulisporic acid A (1) is a structurally complex fungal metabolite that exhibits systemic efficacy against fleas via modulation of an invertebrate specific glutamate-gated ion channel. In order to identify a nodulisporamide suitable for monthly oral dosing in dogs, a library of 335 nodulisporamides was examined in an artificial flea feeding system for intrinsic systemic potency as well as in a mouse/bedbug assay for systemic efficacy and safety. A cohort of 66 nodulisporamides were selected for evaluation in a dog/flea model; pharmacokinetic analysis correlated plasma levels with flea efficacy. These efforts resulted in the identification of the development candidate N-tert-butyl nodulisporamide (3) as a potent and efficacious once monthly oral agent for the control of fleas and ticks on dogs and cats which was directly compared to the topical agents fipronil and imidacloprid, with favorable results obtained. Multidose studies over 3 months confirmed the in vivo ectoparasiticidal efficacy and established that 3 lacked overt mammalian toxicity. Tissue distribution studies in mice using [(14)C]-labeled 3 indicate that adipose beds serve as ligand depots, contributing to the long terminal half-lives of these compounds.

TITRATION OF SUBCUTANEOUSLY ADMINISTERED EPRINOMECTIN AGAINST MATURE AND IMMATURE NEMATODES IN CATTLE

Eprinomectin has been approved for use as a topically applied endectocide for beef and dairy cattle. To determine if eprinomectin has utility as an injectable anthelmintic, it was titrated at 0.05, 0.1, and 0.2 mg/kg s.c. against adult (Trial 1) and at 0.05, 0.1, 0.14, and 0.2 mg/kg s.c. against immature (Trial 2) stages of lung and gastrointestinal nematodes in cattle. In Trial 1, every dose of subcutaneously delivered eprinomectin showed maximal or near-maximal (≥99%) efficacy against Haemonchus placei, Ostertagia ostertagi, Trichostrongylus axei, T. colubriformis, Cooperia punctata, Nematodirus helvetianus, Oesophagostomum radiatum, and Dictyocaulus viviparus. Adult C. oncophora was the only exception. However, even against this species, the lowest dose of 0.05 mg/kg showed 93% efficacy, and the efficacious dose necessary to kill 95% (ED95) of adults was 0.056 mg/kg. In Trial 2, every dose of subcutaneously delivered eprinomectin showed maximal or near-maximal (≥99%) efficacy against the immature stages of all of the above species of endoparasites. As a result, ED95 values could not be calculated. Consequently, the exquisite potency against endoparasites through parenteral administration suggests that eprinomectin may also have potential utility as an injectable product for cattle.

The Wiggleometer: Measuring Larval Movement in a 96 Well Format

ABSTRACT here has been relatively little progress in the area of highthroughput screening for antiparasitic animal health tar-gets, which involve whole organisms such as Haemonchus contortus and Caenorhabditis elegans. Mostassays involve identifying compounds that can paralyze and/or killthe organism. A major impediment has been the lack of instrumen-tation suitable for automating the read-out of these assays. We havedeveloped an automated reader that makes analysis of antiparasiticanimal health assays possible. This reader uses computer visiontechniques to determine whether or not there is larval motion ineach well. The system has been validated by measuring the dose-response relationships for several nematocidal agents and by exam-ining 1040 wells of H. contortus, with a 94.6%/94% concordancerate with a human reader with less than a 0.3% false negative rate. INTRODUCTION High throughput screening (HTS), has gained widespreadacceptance as an automation tool for biological assays in the phar-maceutical industry. A requirement for employing this methodol-ogy is a digitally readable endpoint. There has been substantialprogress in fields such as ion-channels, receptor-ligand, and enzy-matic assays where instrumentation can readily read colorimetric,fluorimetric or radioligand results. However, there has been lessprogress in fields such as parasitology, where the endpoint is oftenthe lack of bioactivity, such as loss of motion, which is not cur-rently determined by instrumentation.Anthelmintic assays generally screen for compounds thatinterfere with larval development or that paralyze and/or killthe study organism. The two types of assays used are develop-mental assays, where eggs or staged larvae are seeded and larvaldevelopment is scored some days later, or shorter term ‘kill’assays where compounds are tested on larvae or adults, and killis assessed shortly thereafter. Both types of assays, however, relyon the manual observation of lack of movement or develop-ment of the organism. In this paper, we describe theWiggleometer, an automated methodology for a reproduciblemeasurement of these endpoints, has been implementedrepro-ducibly measuring these endpoints in a 96 well format, suitablefor HTS, is described.

Comparative disposition and metabolism of paraherquamide in sheep, gerbils and dogs

The disposition and metabolism of paraherquamide (PHQ), a potent and broad-spectrum anthelminthic, were examined in sheep, dogs, and gerbils. The metabolism of PHQ in these species was extensive and marked by significant species differences both in vitro and in vivo. In sheep and gerbils, PHQ metabolism occurs mainly at the pyrrolidine moiety, generating several metabolites that, for the most part, retained nematodicidal activity in vitro. In dogs, the dioxepene group was also extensively metabolized, ultimately resulting in formation of a catechol and loss of pharmacological activity. After oral administration of [3H]PHQ to intact sheep, gerbils, and dogs, the majority of the administered radioactivity was recovered in feces. Intact PHQ accounted for 0% (dogs) to ∼30% (sheep and gerbils) of drug-related material in feces. A detailed investigation of the composition of the intestinal content of sheep indicated that a significant amount of the dose was still present in the rumen 24 h after dose and that PHQ underwent significant dehydration in the cecum. The oral pharmacokinetic parameters of PHQ in sheep and dogs suggest that its absorption is rapid in both species but that its apparent elimination rate is significantly higher in the dog (t1/2 ∼ 1.5 h) than it is in sheep (t1/2 ∼ 8.5 h). The short elimination half-life and the absence of PHQ or other active components in the dog gastrointestinal tract provide a potential explanation of the lack of efficacy of PHQ in this species.