Resistance to Antimony and Treatment Failure in Human Leishmania (Viannia) Infection (original) (raw)
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Antimony Resistance in Leishmania, Focusing on Experimental Research
Journal of Tropical Medicine, 2011
Leishmaniases are parasitic diseases that spread in many countries with a prevalence of 12 million cases. There are few available treatments and antimonials are still of major importance in the therapeutic strategies used in most endemic regions. However, resistance toward these compounds has recently emerged in areas where the replacement of these drugs is mainly limited by the cost of alternative molecules. In this paper, we reviewed the studies carried out on antimonial resistance in Leishmania. Several common limitations of these works are presented before prevalent approaches to evidence antimonial resistance are related. Afterwards, phenotypic determination of resistance is described, then confronted to clinical outcome. Finally, we detail molecular mechanisms and targets involved in resistance and already identified in vitro within selected mutant strains or in clinical isolates.
Leishmania donovani: An in vitro study of antimony-resistant amphotericin B-sensitive isolates
Experimental Parasitology, 2006
Drug sensitivity of clinically antimony-unresponsive Leishmania donovani isolates from Eastern Sudan was evaluated in an in vitro culture system against sodium stibogluconate (Pentostam) and Amphotericin B. Eight isolates, six from antimony-resistant and two from clinically responsive patients were included in the study. Parasites were tested as promastigotes and four of them were selected to be tested as amastigotes using a murine macrophage-like cell line. The results indicated that the conventional promastigotes and amastigotes-screening assays did not correlate with the clinical picture of patients. In vivo unresponsiveness does not necessarily mean primary parasite resistance. Amphotericin B could be a suitable second line drug in patients unresponsive to pentostam and without concomitant diseases, if close hospital monitoring is available. Promastigotes sensitivity testing concentrations are virtually incomparable with the in vivo clinically curable doses and the amastigotes/macrophage test concentrations.
Microbes and Infection, 2007
In most of the Indian subcontinent, the first line treatment for visceral leishmaniasis (VL) is sodium stibogluconate (SSG), an antimonial drug, but the efficacy of the drug varies according to region. We aimed to characterize the in vitro antimony susceptibility of clinical isolates of Nepalese VL patients, and to correlate this in vitro parasite phenotype to clinical therapy outcome. Thirty-three clinical isolates of L. donovani were taken from patients with known disease history. These isolates were typed and the susceptibility of intracellular amastigotes to pentavalent (SbV) and trivalent (SbIII) antimonials was determined. We observed (i) 22 SbV-resistant isolates out of 33 tested and (ii) 3 SbIII-resistant isolates out of 12 tested. Amongst the latter, there were three combinations of in vitro phenotypes: (i) parasites sensitive (n ¼ 4) or (ii) resistant to both drugs (n ¼ 3) and (iii) resistant to SbV only (n ¼ 5). There was no geographical clustering in terms of in vitro susceptibility. The relation between the in vitro susceptibility to antimonials and the corresponding in vivo treatment outcome was ambiguous. Our results highlight the need to adjust the currently used Leishmania drug susceptibility assays if they are to be used for prognosis of in vivo SSG treatment outcome.
Acta tropica, 2018
The repercussions of cutaneous leishmaniasis therapy on the behaviour and drug susceptibility of Leishmania major parasites is poorly documented. This study explored the link between antimonial susceptibility and in vivo behaviour in Leishmania major isolates collected before and after treatment in Algeria. This study was performed on 3 isolates collected from patients prior to treatment and paired with 3 isolates collected from the same patient after treatment failure. Their in vitro susceptibility towards trivalent (SbIII) and pentavalent (SbV) antimony were ascertained, and their in vivo behaviour was evaluated by determining their capacity to disseminate, proliferate and induce lesions in mice. No relationship was observed between in vitro antimony resistance and parasite fitness in the murine model.
Journal of Arthropod-Borne Diseases, 2017
Background: This study was designed to detect whether there is a correlation between in vitro susceptibility of field isolates of Leishmania major and the clinical outcomes of meglumine antimoniate (Glucantime®) therapy, the mainstay of cutaneous leishmaniasis treatment in Iran. Methods: Forty-three patients infected with L. major were enrolled in this study from October 2009 to March 2010 and categorized as responsive or unresponsive to Glucantime® treatment after receiving the appropriate therapy. Then, intracellular amastigote approach was conducted on these field strains to investigate in vitro drug susceptibility as well. Results: At clinical level, out of 43 patients, 15 were clinically non-responsive and 28 were responsive to antimony therapy. All those 28 clinically sensitive strains were susceptible to antimony in the in vitro assay, whereas merely 11 isolates from 15 non-healing isolates were resistant in vitro. Finally, a good correlation (78.9%) with high sensitivity, sp...
Antimicrobial Agents and Chemotherapy, 2011
Widespread antimonial resistance in anthroponotic visceral leishmaniasis (VL) makes it critical to monitor the susceptibility of prevailing field isolates to upcoming antileishmanials in order to frame the right treatment policies to protect these drugs against development of resistance. We aimed to generate the baseline data on natural in vitro susceptibility to paromomycin and sitamaquine in Leishmania donovani field isolates from VL patients ( n = 20) coming from zones of varying sodium antimony gluconate (SAG) resistance. We further monitored nitric oxide (NO) release in infected macrophages treated with these drugs. Field isolates exhibited variable sensitivity to paromomycin and sitamaquine with respective mean 50% effective dose (ED 50 ) values ± standard error of the mean (SEM) of 3.9 ± 0.3 μM and 2.1 ± 0.2 μM at the intracellular amastigote stage and 29.8 ± 2.5 μM and 17.7 ± 1.0 μM at the promastigote stage. Susceptibilities at the two parasite stages did not correlate for ...