Miltefosine Increases Lipid and Protein Dynamics in Leishmania amazonensis Membranes at Concentrations Similar to Those Needed for Cytotoxicity Activity

Moreira, Rodrigo Alves; Mendanha, Sebastião Antônio; Fernandes, Kelly Souza; Matos, Grazzielle Guimarães de; Alonso, Laís; Dorta, Miriam Leandro; Alonso, Antônio

doi:10.1128/aac.01332-13

Cited by 47 publications

(38 citation statements)

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“…The IC 50 values of the sesquiterpene nerolidol and the monoterpenes (+)-limonene, α-terpineol and 1,8-cineole were 0.008, 0.549, 0.678 and 4.697 mM, respectively [16]. This result demonstrated that the in vitro cytotoxicity of nerolidol was similar to that of miltefosine, which is the first effective oral drug approved for the treatment of visceral and cutaneous leishmaniasis [32]. Overall, these IC 50 values and lysis results partially agree with the results obtained in this work.…”

Section: Discussionsupporting

confidence: 63%

Effects of terpenes on fluidity and lipid extraction in phospholipid membranes

Mendanha

Alonso

2015

Biophysical Chemistry

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Section: Discussionsupporting

confidence: 63%

Effects of terpenes on fluidity and lipid extraction in phospholipid membranes

Mendanha

Alonso

2015

Biophysical Chemistry

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“…3B) indicated that only the 2×10 9 cells/mL concentration was sufficiently concentrated for an accurate calculation. At this cell concentration, the nerolidol IC 50 was 0.32×10 9 terpene molecules/cell, which was similar to that of miltefosine under the same experimental conditions [26]. To obtain the best fit of the IC 50 for nerolidol and (+)-limonene to the theoretical curves given by eqs.…”

Section: Discussionmentioning

confidence: 77%

“…Tea tree oil and its major active terpene component, terpinen-4-ol, demonstrated antiproliferative activity against two murine tumor cell lines, AE17 mesothelioma and B16 melanoma, with IC 50 values equal to or greater than 0.01% (∼588 µM), and they induced necrotic cell death and cell cycle arrest in both tumor cell lines [38]. Miltefosine is also able to increase membrane fluidity and induce cell lysis in L. amazonensis promastigotes at concentrations close to its IC 50 [26]. Interestingly, miltefosine has been shown to reduce the mitochondrial membrane potential and inhibit cytochrome c oxidase, changes that are linked to the apoptosis-like cell death [39].…”

Section: Discussionmentioning

confidence: 99%

Terpenes Increase the Lipid Dynamics in the Leishmania Plasma Membrane at Concentrations Similar to Their IC50 Values

et al. 2014

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Although many terpenes have shown antitumor, antibacterial, antifungal, and antiparasitic activity, the mechanism of action is not well established. Electron paramagnetic resonance (EPR) spectroscopy of the spin-labeled 5-doxyl stearic acid revealed remarkable fluidity increases in the plasma membrane of terpene-treated Leishmania amazonensis promastigotes. For an antiproliferative activity assay using 5×106 parasites/mL, the sesquiterpene nerolidol and the monoterpenes (+)-limonene, α-terpineol and 1,8-cineole inhibited the growth of the parasites with IC50 values of 0.008, 0.549, 0.678 and 4.697 mM, respectively. The IC50 values of these terpenes increased as the parasite concentration used in the cytotoxicity assay increased, and this behavior was examined using a theoretical treatment of the experimental data. Cytotoxicity tests with the same parasite concentration as in the EPR experiments revealed a correlation between the IC50 values of the terpenes and the concentrations at which they altered the membrane fluidity. In addition, the terpenes induced small amounts of cell lysis (4–9%) at their respective IC50 values. For assays with high cell concentrations (2×109 parasites/mL), the incorporation of terpene into the cell membrane was very fast, and the IC50 values observed for 24 h and 5 min-incubation periods were not significantly different. Taken together, these results suggest that terpene cytotoxicity is associated with the attack on the plasma membrane of the parasite. The in vitro cytotoxicity of nerolidol was similar to that of miltefosine, and nerolidol has high hydrophobicity; thus, nerolidol might be used in drug delivery systems, such as lipid nanoparticles to treat leishmaniasis.

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“…Our data shows that T. brucei has limited tolerance for TbVAMP7B depletion, presumably due to impairment of endosomal-lysosomal fusion (45). Intriguingly, exposure to low concentration miltefosine complements the growth defect seen following TbVAMP7B depletion, suggesting that miltefosine treatment is able to promote vesicle membrane fusion in the endocytic system, a possible consequence of the enhanced membrane fluidity seen upon miltefosine exposure (60). TbVAMP7B has also recently been identified as a putative T. brucei apolipoprotein-L1 sensitivity determinant (61), and other workers have highlighted the importance of the intracellular transit of apoL1-carrying membrane to trypanolysis (62, 63).…”

Section: Discussionmentioning

confidence: 99%

Chemogenomic profiling of anti-leishmanial efficacy and resistance in the related kinetoplastid parasite Trypanosoma brucei

Collett

Kitson

Baker

et al. 2019

Preprint

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217; importance, 135 23 Main text (intro, results, discussion), 4953. 24 Abstract 25The arsenal of drugs used to treat leishmaniasis, caused by Leishmania spp., is limited 26 and beset by toxicity and emergent resistance. Furthermore, our understanding of drug 27 mode-of-action and potential routes to resistance is limited. Forward genetic approaches 28 have revolutionised our understanding of drug mode-of-action in the related kinetoplastid 29 parasite, Trypanosoma brucei. Therefore, we screened our genome-scale T. brucei RNAi 30 library in the current anti-leishmanial drugs, sodium stibogluconate (antimonial), 31 paromomycin, miltefosine and amphotericin-B. Identification of T. brucei orthologues of the 32 known Leishmania antimonial and miltefosine plasma membrane transporters effectively 33 validated our approach, while a cohort of 42 novel drug efficacy determinants provides 34 new insights and serves as a resource. Follow-up analyses revealed the antimonial 35 selectivity of the aquaglyceroporin, TbAQP3. A lysosomal major facilitator superfamily 36 transporter contributes to paromomycin/aminoglycoside efficacy. The vesicle-associated 37 membrane protein, TbVAMP7B, and a flippase contribute to amphotericin-B and 38 miltefosine action, and are potential cross-resistance determinants. Finally, multiple 39 phospholipid-transporting flippases, including the T. brucei orthologue of the Leishmania 40 miltefosine transporter, a putative β-subunit/CDC50 co-factor, and additional membrane-41 associated hits, affect amphotericin-B efficacy, providing new insights into mechanisms of 42 drug uptake and action. The findings from this orthology-based chemogenomic profiling 43 approach substantially advance our understanding of anti-leishmanial drug action and 44 potential resistance mechanisms, and should facilitate the development of improved 45 therapies, as well as surveillance for drug-resistant parasites.46 Importance 47 Leishmaniasis is a devastating disease caused by the Leishmania parasites and is 48 endemic to a wide swathe of the tropics and sub-tropics. While there are drugs available 49 for the treatment of leishmaniasis, these suffer from various challenges, including the 50 spread of drug resistance. Our understanding of anti-leishmanial drug action and the 51 modes of drug resistance in Leishmania is limited. The development of genetic screening 52 tools in the related parasite, Trypanosoma brucei, has revolutionised our understanding of 53 these processes in this parasite. Therefore, we applied these tools to the anti-leishmanial 54 drugs, identifying T. brucei orthologues of known Leishmania proteins that drive drug 55 uptake, as well as a panel of novel proteins not previously associated with anti-leishmanial 56 drug action. Our findings substantially advance our understanding of anti-leishmanial 57 mode-of-action and provide a valuable starting point for further research.58 101 efficacy (reviewed in (14)). In addition, the generation of drug resistant Leishmania in the 102 laboratory and various 'omi...

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Miltefosine Increases Lipid and Protein Dynamics in Leishmania amazonensis Membranes at Concentrations Similar to Those Needed for Cytotoxicity Activity

Cited by 47 publications

References 38 publications

Effects of terpenes on fluidity and lipid extraction in phospholipid membranes

Effects of terpenes on fluidity and lipid extraction in phospholipid membranes

Terpenes Increase the Lipid Dynamics in the Leishmania Plasma Membrane at Concentrations Similar to Their IC50 Values

Chemogenomic profiling of anti-leishmanial efficacy and resistance in the related kinetoplastid parasite Trypanosoma brucei

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