This study extends earlier reports regarding the in vitro and in vivo efficacies of the nitroimidazopyran PA-824 against Mycobacterium tuberculosis. PA-824 was tested in vitro against a broad panel of multidrugresistant clinical isolates and was found to be highly active against all isolates (MIC < 1 g/ml). The activity of PA-824 against M. tuberculosis was also assessed grown under conditions of oxygen depletion. PA-824 showed significant activity at 2, 10, and 50 g/ml, similar to that of metronidazole, in a dose-dependent manner. In a short-course mouse infection model, the efficacy of PA-824 at 50, 100, and 300 mg/kg of body weight formulated in methylcellulose or cyclodextrin/lecithin after nine oral treatments was compared with those of isoniazid, rifampin, and moxifloxacin. PA-824 at 100 mg/kg in cyclodextrin/lecithin was as active as moxifloxacin at 100 mg/kg and isoniazid at 25 mg/kg and was slightly more active than rifampin at 20 mg/kg. Long-term treatment with PA-824 at 100 mg/kg in cyclodextrin/lecithin reduced the bacterial load below 500 CFU in the lungs and spleen. No significant differences in activity between PA-824 and the other single drug treatments tested (isoniazid at 25 mg/kg, rifampin at 10 mg/kg, gatifloxacin at 100 mg/kg, and moxifloxacin at 100 mg/kg) could be observed. In summary, its good activity in in vivo models, as well as its activity against multidrug-resistant M. tuberculosis and against M. tuberculosis isolates in a potentially latent state, makes PA-824 an attractive drug candidate for the therapy of tuberculosis. These data indicate that there is significant potential for effective oral delivery of PA-824 for the treatment of tuberculosis.Therapy for tuberculosis (TB) is arduous due to its long duration and the need to use multidrug regimens. The current standard regimen of isoniazid (INH), rifampin (RIF), and pyrazinamide (PZA) requires 6 to 8 months of daily treatment. In part due to noncompliance with treatment, therapy is now further complicated by the emergence of drug-resistant strains, with the global prevalence of drug resistance being from 1 to 3% (27). A further, equally important issue with tuberculosis therapy is the treatment of patients in which the infection may be in a latent state. Supposedly, 1:3 people throughout the world harbor latent bacilli, which have the potential to reactivate and cause active disease (21, 23). Current anti-TB drugs are mainly effective against replicating and metabolically active bacteria, and therefore, there is an urgent need for novel drugs that are also effective against persisting or latent bacterial infections, as well as those that can overcome the increasing problem of drug resistance.A series of bicyclic nitroimidazofurans, originally investigated as radiosensitizers for use in cancer chemotherapy (1), were found to possess activity against cultured replicating Mycobacterium tuberculosis and had significant in vivo activity in a murine infection model (3,17,25). A subsequent series of 3-substituted nitroimidazopyrans (NAP...
JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. Ecological Society of America is collaborating with JSTOR to digitize, preserve and extend access to Ecology.Abstract. To examine rates of aboveground biomass accumulation (ABA) in global secondary forests following stand-clearing disturbances, we compiled aboveground biomass data from 283 known-age plots drawn from chronosequence and long-term studies. We focused on three likely influences on ABA for which data are readily available: climate, soil texture, and forest type. Growing-season degree-years (GSDY, stand age X growingseason length X growing-season temperature) generally predicted ABA better than stand age alone. Using regression analyses and slope homogeneity tests, we determined that broadleaf forest plots on sandy textured soils exhibited slower GSDY-adjusted ABA than those on nonsandy soils. On nonsandy soils, the GSDY-adjusted ABAs of tropical and nontropical plots were indistinguishable; tropical forest post-disturbance ABA was not particularly slow. Compared to broadleaf forests, needle-leaf forest, GSDY-adjusted ABA was less sensitive to soil texture and was intermediate in rate between sandy and nonsandy broadleaf forest ABA. Foliar nutrient concentration did not significantly influence the GSDY-adjusted ABA of a subset of the nonsandy broadleaf forests for which foliar nutrient data were available. At the global scale, differences in climate (represented by growingseason length and temperature) and moisture-holding capacity (represented by soil texture) are the principal independent factors influencing ABA in most post-disturbance secondary forests.
It remains unknown whether the expression of cell-mediated protective immunity and the capacity to mount a delayed-type hypersensitivity (DTH) reaction in tuberculosis infection represent two manifestations of a basic response or are dissociable events. In this study, we present data in favor of the latter hypothesis, by showing that tuberculosis infection in the lungs of mice possessing only a truncated form of intracellular adhesion molecule 1 due to gene disruption was still adequately controlled by the expression of protective immunity in the absence of any sustained influx of macrophages and the lack of formation of appreciable granulomas. These animals also had no detectable DTH response to mycobacterial proteins in the footpad assay, indicating that the accumulation of blood-borne macrophages at sites of mycobacterial infection or antigen deposition is not essential to control of the infection. These data support the hypothesis that the DTH component of the cellular response is not protective but contributes by walling off the sites of infection to prevent dissemination and reactivation disease.
The assessment of physiochemical and pharmacological properties at early stages of drug discovery can accelerate the conversion of hits and leads into candidates for further development. A strategy for streamlined evaluation of compounds against Mycobacterium tuberculosis in the early preclinical stage is presented in this report. As a primary assay to rapidly select experimental compounds with sufficient in vitro activity, the growth inhibition microtiter plate assay was devised as an alternative to current methods. This microdilution plate assay is a liquid culture method based on spectrophotometric readings of the bacillary growth. The performance of this method was compared to the performance of two established susceptibility methods using clinical available tuberculosis (TB) drugs. Data generated from all three assays were similar for all of the tested compounds. A second simple bioassay was devised to assess the oral bioavailability of compounds prior to extensive in vivo efficacy testing. The bioassay estimates drug concentrations in collected serum samples by a microdilution MIC plate method using M. tuberculosis. In the same assay, the MIC of the compound is also determined in the presence of 10% mouse serum as an indication of protein binding. The method was validated using different clinically available TB drugs, and results are discussed in this report. With these methodological advances, screening of compounds against tuberculosis in the preclinical phase will be rapid, can be adapted to semi-high-throughput screening, and will add relevant physicochemical and basic pharmacological criteria to the decision process of drug discovery.The pharmaceutical process to develop a therapeutically useful drug requires an enormous budget and amount of time, due to high attrition rates of experimental compounds in preclinical and clinical development (2, 10). Pharmaceutical companies nowadays are focusing on reducing these preclinicaldevelopment attrition rates by attempting to accurately evaluate efficacy, safety, and drug manufacturing costs much earlier in the drug discovery process. A published survey on the causes of failure in drug development indicated that inappropriate pharmacokinetics were a major cause (19). This observation has led to an increased emphasis on pharmacokinetic input to the drug discovery process throughout the pharmaceutical industry (9,20,21).Traditional assays and models for early preclinical screening of experimental compounds against Mycobacterium tuberculosis are lengthy due to the slow-growing nature of the bacteria. In addition, many of the current in vitro and in vivo assays for drug testing against tuberculosis (TB) are not well adapted for a higher throughput approach, which is necessary for rapid screening of compound series from different drug classes. Generally, compounds are first evaluated in vitro for activity against M. tuberculosis by determination of their MICs with either the BACTEC system (4, 16), the agar proportion method (7, 13, 25), or a microdilution assay mic...
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