Experimental Induction of Paromomycin Resistance in Antimony-Resistant Strains of L. donovani: Outcome Dependent on In Vitro Selection Protocol

Hendrickx, Sarah; Luz, Raquel Andrea Inocêncio da; Bhandari, Vasundhra; Kuypers, Kristel; Shaw, Craig; Lonchamp, Julien; Salotra, Poonam; Carter, Katharine; Sundar, Shyam; Rijal, Suman; Dujardin, Jean‐Claude; Cos, Paul; Maes, Louis

doi:10.1371/journal.pntd.0001664

Cited by 46 publications

(74 citation statements)

References 26 publications

(33 reference statements)

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“…Since the first MIL-resistant isolate was reported in 2012, a second naturally resistant strain was found by our research group (3, 4). As for PMM resistance, this was already reported to develop fairly readily (4,7,9,20). Moreover, numerous in vitro studies demonstrated quick selection of MIL and PMM resistance on promastigotes (6)(7)(8).…”

Section: Discussionmentioning

confidence: 96%

“…Moreover, numerous in vitro studies demonstrated quick selection of MIL and PMM resistance on promastigotes (6)(7)(8). To target the more relevant amastigote stage in mammalian infection, our research group previously developed an in vitro resistance selection protocol on intracellular amastigotes (9). For PMM, several strains with PMM-resistant amastigotes but still fully PMMsusceptible promastigotes were obtained.…”

Section: Discussionmentioning

confidence: 99%

“…Conversely, laboratory studies already demonstrated that MIL and PMM resistance can be selected in vitro using axenic promastigotes (6)(7)(8). Considering the debatable relevance of promastigote-based studies, our group developed an in vitro resistance selection protocol on intracellular amastigotes, revealing a process-dependent outcome (4,9). Rapid generation of PMM-resistant amastigotes for several Leishmania donovani and Leishmania infantum strains was obtained, while the derived promastigotes remained fully PMM susceptible.…”

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confidence: 99%

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In Vivo Selection of Paromomycin and Miltefosine Resistance in Leishmania donovani and L. infantum in a Syrian Hamster Model

Hendrickx

Mondelaers

Eberhardt

et al. 2015

Antimicrob Agents Chemother

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In 2002 and 2006, respectively, miltefosine (MIL) and paromomycin (PMM) were licensed in the Indian subcontinent for treatment of visceral leishmaniasis; however, their future routine use might become jeopardized by the development of drug resistance. Although experimental selection of resistant strains in vitro has repeatedly been reported using the less relevant promastigote vector stage, the outcome of resistance selection on intracellular amastigotes was reported to be protocol and species dependent. To corroborate these in vitro findings, selection of resistance in Leishmania donovani and Leishmania infantum was achieved by successive treatment/relapse cycles in infected Syrian golden hamsters. For PMM, resistant amastigotes were already obtained within 3 treatment/relapse cycles, while their promastigotes retained full susceptibility, thereby sharing the same phenotypic characteristics as in vitro-generated PMM-resistant strains. For MIL, even five treatment/relapse cycles failed to induce significant susceptibility changes in either species, which also corresponds with the in vitro observations where selection of an MIL-resistant phenotype proved to be quite challenging. In conclusion, these results argue for cautious use of PMM in the field to avoid rapid emergence of primary resistance and highlight the need for additional research on the mechanisms and dynamics of MIL resistance selection. In the Indian subcontinent, the spread of antimony resistance has enforced a shift in visceral leishmaniasis (VL) therapy. Miltefosine (MIL) was licensed for VL in 2002 and is now being used as a first-line therapy within the Kala-azar elimination program in India, Nepal, and Bangladesh (1). Quite recently, increased MIL treatment failure rates have been reported (2) that have been endorsed by the first reports of laboratory-confirmed primary field resistance (3, 4). Paromomycin (PMM), an aminoglycoside antibiotic with a confirmed effectivity against VL, was licensed in 2006 mainly for use in combination therapy (5). For now, its use is still limited and widespread field resistance has not yet been reported, although some naturally PMM-resistant strains have already been documented (4). Given the paucity of other affordable VL therapeutic options and the increasing pressure on MIL therapy, more widespread use of PMM may logically ensue. Conversely, laboratory studies already demonstrated that MIL and PMM resistance can be selected in vitro using axenic promastigotes (6-8). Considering the debatable relevance of promastigote-based studies, our group developed an in vitro resistance selection protocol on intracellular amastigotes, revealing a process-dependent outcome (4, 9). Rapid generation of PMM-resistant amastigotes for several Leishmania donovani and Leishmania infantum strains was obtained, while the derived promastigotes remained fully PMM susceptible. In contrast, selection of MIL resistance consistently failed as reflected by the unchanged MIL susceptibilities at the promastigote and amastigote levels (4). To...

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Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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In Vivo Selection of Paromomycin and Miltefosine Resistance in Leishmania donovani and L. infantum in a Syrian Hamster Model

Hendrickx

Mondelaers

Eberhardt

et al. 2015

Antimicrob Agents Chemother

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“…There are limited studies on PMM resistance in Leishmania, which evince the involvement of mitochondrial membrane potential and decreases in drug uptake (14)(15)(16). In our previous report, we compared the outcomes and stability of experimental PMM resistance induction in promastigotes and intracellular amastigotes (17). Here, we exploited laboratory-generated PMM-resistant (PMM-R) parasites to examine changes in membrane fluidity, drug accumulation, mutations in rRNA genes, and mRNA expression of ATP-binding cassette (ABC) transporter genes (MDR1 and MRPA) and protein phosphatase 2A (PP2A).…”

mentioning

confidence: 99%

Elucidation of Cellular Mechanisms Involved in Experimental Paromomycin Resistance in Leishmania donovani

Bhandari

Sundar

Dujardin

et al. 2014

Antimicrob Agents Chemother

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dLeishmania donovani is the causative agent of the potentially fatal disease visceral leishmaniasis (VL). Chemotherapeutic options available to treat VL are limited and often face parasite resistance, inconsistent efficacy, and toxic side effects. Paromomycin (PMM) was recently introduced to treat VL as a monotherapy and in combination therapy. It is vital to understand the mechanisms of PMM resistance to safeguard the drug. In the present study, we utilized experimentally generated PMM-resistant L. donovani to elucidate the mechanisms of resistance and parasite biology. We found increased membrane fluidity accompanied by decreased intracellular drug accumulation in the PMM-resistant parasites. There were marked increases in gene expression of ATP-binding cassette (ABC) transporters (MDR1 and MRPA) and protein phosphatase 2A that evince increased drug efflux. Further, evaluation of parasite tolerance toward host leishmanicidal mechanisms revealed PMM-resistant parasites as being more tolerant to nitrosative stress at the promastigote and amastigote stages. The PMM-resistant parasites also predicted a better survival capacity, as indicated by resistance to complement-mediated lysis and increased stimulation of host interleukin-10 (IL-10) expression. The susceptibilities of PMM-resistant isolates to other antileishmanial agents (sodium antimony gluconate and miltefosine) remained unchanged. The data implicated the roles of altered membrane fluidity, decreased drug accumulation, increased expression of ABC transporters, and greater tolerance of parasites to host defense mechanisms in conferring PMM resistance in Leishmania.

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“…Elle est actuellement en phase III des essais cliniques réalisés en Afrique de l'Est. Cependant, des études de laboratoire ont montré que ces deux molécules pouvaient sélectionner rapidement des parasites résistants [24][25][26][27], ce qui repré-sente un risque lors de traitements, même de courtes durées. Pour la miltéfosine, sa disponibilité sur le marché des médicaments de comptoir et son utilisation incontrôlée peuvent grandement augmenter ce risque de développement de résistances.…”

Section: Leishmaniose Cutanéeunclassified

Lesleishmaniosesvues au travers du réseau international des Instituts Pasteur

et al. 2013

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Experimental Induction of Paromomycin Resistance in Antimony-Resistant Strains of L. donovani: Outcome Dependent on In Vitro Selection Protocol

Cited by 46 publications

References 26 publications

In Vivo Selection of Paromomycin and Miltefosine Resistance in Leishmania donovani and L. infantum in a Syrian Hamster Model

In Vivo Selection of Paromomycin and Miltefosine Resistance in Leishmania donovani and L. infantum in a Syrian Hamster Model

Elucidation of Cellular Mechanisms Involved in Experimental Paromomycin Resistance in Leishmania donovani

Lesleishmaniosesvues au travers du réseau international des Instituts Pasteur

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