New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death

Angela M.A. Velásquez; Paula J. Bartlett; Irwin A.P. Linares; Thais G. Passalacqua; Daphne D.L. Teodoro; Kely B. Imamura; Stela Virgilio; Luiz R.O. Tosi; Aline de Lima Leite; Marilia A.R. Buzalaf; Jecika M. Velasques; Adelino V.G. Netto; Andrew P. Thomas; Marcia A.S. Graminha

doi:10.1128/AAC.00767-21

New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death

Angela M.A. Velásquez, Paula J. Bartlett, Irwin A.P. Linares, Thais G. Passalacqua, Daphne D.L. Teodoro, Kely B. Imamura, Stela Virgilio, Luiz R.O. Tosi, Aline de Lima Leite, Marilia A.R. Buzalaf, Jecika M. Velasques, Adelino V.G. Netto, Andrew P. Thomas, Marcia A.S. Graminha

New Jersey Medical School (NJMS), Pharmacology

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

The current treatment of leishmaniasis is based on a few drugs that present several drawbacks, such as high toxicity, difficult administration route, and low efficacy. These disadvantages raise the necessity to develop novel antileishmanial compounds allied with a comprehensive understanding of their mechanisms of action. Here, we elucidate the probable mechanism of action of the antileishmanial binuclear cyclopalladated complex [Pd(dmba)(m-N3)]2 (CP2) in Leishmania amazonensis. CP2 causes oxidative stress in the parasite, resulting in disruption of mitochondrial Ca21 homeostasis, cell cycle arrest at the S-phase, increasing the reactive oxygen species (ROS) production and overexpression of stress-related and cell detoxification proteins, and collapsing the Leishmania mitochondrial membrane potential, and promotes apoptotic-like features in promastigotes, leading to necrosis, or directs programmed cell death (PCD)-committed cells toward necrotic-like destruction. Moreover, CP2 reduces the parasite load in both liver and spleen in Leishmania infantum-infected hamsters when treated for 15 days with 1.5 mg/kg body weight/day CP2, expanding its potential application in addition to the already known effectiveness on cutaneous leishmaniasis for the treatment of visceral leishmaniasis, showing the broad spectrum of action of this cyclopalladated complex. The data presented here bring new insights into the CP2 molecular mechanisms of action, assisting the promotion of its rational modification to improve both safety and efficacy.

Original language	English (US)
Article number	e00767-21
Journal	Antimicrobial agents and chemotherapy
Volume	66
Issue number	1
DOIs	https://doi.org/10.1128/AAC.00767-21
State	Published - Jan 2022

All Science Journal Classification (ASJC) codes

Pharmacology
Pharmacology (medical)
Infectious Diseases

Keywords

Binuclear cyclopalladated complex
Calcium homeostasis
Cutaneous leishmaniasis
Leishmania
Leishmanicidal activity
Mitochondria
Necrotic death

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10.1128/AAC.00767-21

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Velásquez, A. M. A., Bartlett, P. J., Linares, I. A. P., Passalacqua, T. G., Teodoro, D. D. L., Imamura, K. B., Virgilio, S., Tosi, L. R. O., de Lima Leite, A., Buzalaf, M. A. R., Velasques, J. M., Netto, A. V. G., Thomas, A. P., & Graminha, M. A. S. (2022). New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death. Antimicrobial agents and chemotherapy, 66(1), Article e00767-21. https://doi.org/10.1128/AAC.00767-21

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title = "New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death",

abstract = "The current treatment of leishmaniasis is based on a few drugs that present several drawbacks, such as high toxicity, difficult administration route, and low efficacy. These disadvantages raise the necessity to develop novel antileishmanial compounds allied with a comprehensive understanding of their mechanisms of action. Here, we elucidate the probable mechanism of action of the antileishmanial binuclear cyclopalladated complex [Pd(dmba)(m-N3)]2 (CP2) in Leishmania amazonensis. CP2 causes oxidative stress in the parasite, resulting in disruption of mitochondrial Ca21 homeostasis, cell cycle arrest at the S-phase, increasing the reactive oxygen species (ROS) production and overexpression of stress-related and cell detoxification proteins, and collapsing the Leishmania mitochondrial membrane potential, and promotes apoptotic-like features in promastigotes, leading to necrosis, or directs programmed cell death (PCD)-committed cells toward necrotic-like destruction. Moreover, CP2 reduces the parasite load in both liver and spleen in Leishmania infantum-infected hamsters when treated for 15 days with 1.5 mg/kg body weight/day CP2, expanding its potential application in addition to the already known effectiveness on cutaneous leishmaniasis for the treatment of visceral leishmaniasis, showing the broad spectrum of action of this cyclopalladated complex. The data presented here bring new insights into the CP2 molecular mechanisms of action, assisting the promotion of its rational modification to improve both safety and efficacy.",

keywords = "Binuclear cyclopalladated complex, Calcium homeostasis, Cutaneous leishmaniasis, Leishmania, Leishmanicidal activity, Mitochondria, Necrotic death",

author = "Vel{\'a}squez, {Angela M.A.} and Bartlett, {Paula J.} and Linares, {Irwin A.P.} and Passalacqua, {Thais G.} and Teodoro, {Daphne D.L.} and Imamura, {Kely B.} and Stela Virgilio and Tosi, {Luiz R.O.} and {de Lima Leite}, Aline and Buzalaf, {Marilia A.R.} and Velasques, {Jecika M.} and Netto, {Adelino V.G.} and Thomas, {Andrew P.} and Graminha, {Marcia A.S.}",

note = "Funding Information: This work was supported by the S{\~a}o Paulo Research Foundation (FAPESP) grants 2016/05345-4, 2016/177115, 2017/03552-5, 2018/23015-7, and 2020/04415-4; Programa de Apoio ao Desenvolvimento Cient{\'i}fico da Faculdade de Ci{\^e}ncias Farmac{\^e}uticas da UNESP (PADC); and funding from the Thomas P. Infusino Endowment at Rutgers University. A.M.A.V. (2016/19289-9 and 2019/21661-1) and S.V. (2016/18191-5) were supported by FAPESP. This study was financed in part by the Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior-Brasil (CAPES)-finance code 001 (I.A.P.L., T.G.P., K.B.I., and J.M.V.). M.A.R.B., A.V.G.N., and M.A.S.G. are recipients of a Research Productivity Scholarship from the National Council for Research and Development (CNPq). Publisher Copyright: {\textcopyright} 2022 American Society for Microbiology.",

year = "2022",

month = jan,

doi = "10.1128/AAC.00767-21",

language = "English (US)",

volume = "66",

journal = "Antimicrobial agents and chemotherapy",

issn = "0066-4804",

publisher = "American Society for Microbiology",

number = "1",

}

Velásquez, AMA, Bartlett, PJ, Linares, IAP, Passalacqua, TG, Teodoro, DDL, Imamura, KB, Virgilio, S, Tosi, LRO, de Lima Leite, A, Buzalaf, MAR, Velasques, JM, Netto, AVG, Thomas, AP & Graminha, MAS 2022, 'New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death', Antimicrobial agents and chemotherapy, vol. 66, no. 1, e00767-21. https://doi.org/10.1128/AAC.00767-21

New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death. / Velásquez, Angela M.A.; Bartlett, Paula J.; Linares, Irwin A.P. et al.
In: Antimicrobial agents and chemotherapy, Vol. 66, No. 1, e00767-21, 01.2022.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania

T2 - Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death

AU - Velásquez, Angela M.A.

AU - Bartlett, Paula J.

AU - Linares, Irwin A.P.

AU - Passalacqua, Thais G.

AU - Teodoro, Daphne D.L.

AU - Imamura, Kely B.

AU - Virgilio, Stela

AU - Tosi, Luiz R.O.

AU - de Lima Leite, Aline

AU - Buzalaf, Marilia A.R.

AU - Velasques, Jecika M.

AU - Netto, Adelino V.G.

AU - Thomas, Andrew P.

AU - Graminha, Marcia A.S.

N1 - Funding Information: This work was supported by the São Paulo Research Foundation (FAPESP) grants 2016/05345-4, 2016/177115, 2017/03552-5, 2018/23015-7, and 2020/04415-4; Programa de Apoio ao Desenvolvimento Científico da Faculdade de Ciências Farmacêuticas da UNESP (PADC); and funding from the Thomas P. Infusino Endowment at Rutgers University. A.M.A.V. (2016/19289-9 and 2019/21661-1) and S.V. (2016/18191-5) were supported by FAPESP. This study was financed in part by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior-Brasil (CAPES)-finance code 001 (I.A.P.L., T.G.P., K.B.I., and J.M.V.). M.A.R.B., A.V.G.N., and M.A.S.G. are recipients of a Research Productivity Scholarship from the National Council for Research and Development (CNPq). Publisher Copyright: © 2022 American Society for Microbiology.

PY - 2022/1

Y1 - 2022/1

N2 - The current treatment of leishmaniasis is based on a few drugs that present several drawbacks, such as high toxicity, difficult administration route, and low efficacy. These disadvantages raise the necessity to develop novel antileishmanial compounds allied with a comprehensive understanding of their mechanisms of action. Here, we elucidate the probable mechanism of action of the antileishmanial binuclear cyclopalladated complex [Pd(dmba)(m-N3)]2 (CP2) in Leishmania amazonensis. CP2 causes oxidative stress in the parasite, resulting in disruption of mitochondrial Ca21 homeostasis, cell cycle arrest at the S-phase, increasing the reactive oxygen species (ROS) production and overexpression of stress-related and cell detoxification proteins, and collapsing the Leishmania mitochondrial membrane potential, and promotes apoptotic-like features in promastigotes, leading to necrosis, or directs programmed cell death (PCD)-committed cells toward necrotic-like destruction. Moreover, CP2 reduces the parasite load in both liver and spleen in Leishmania infantum-infected hamsters when treated for 15 days with 1.5 mg/kg body weight/day CP2, expanding its potential application in addition to the already known effectiveness on cutaneous leishmaniasis for the treatment of visceral leishmaniasis, showing the broad spectrum of action of this cyclopalladated complex. The data presented here bring new insights into the CP2 molecular mechanisms of action, assisting the promotion of its rational modification to improve both safety and efficacy.

AB - The current treatment of leishmaniasis is based on a few drugs that present several drawbacks, such as high toxicity, difficult administration route, and low efficacy. These disadvantages raise the necessity to develop novel antileishmanial compounds allied with a comprehensive understanding of their mechanisms of action. Here, we elucidate the probable mechanism of action of the antileishmanial binuclear cyclopalladated complex [Pd(dmba)(m-N3)]2 (CP2) in Leishmania amazonensis. CP2 causes oxidative stress in the parasite, resulting in disruption of mitochondrial Ca21 homeostasis, cell cycle arrest at the S-phase, increasing the reactive oxygen species (ROS) production and overexpression of stress-related and cell detoxification proteins, and collapsing the Leishmania mitochondrial membrane potential, and promotes apoptotic-like features in promastigotes, leading to necrosis, or directs programmed cell death (PCD)-committed cells toward necrotic-like destruction. Moreover, CP2 reduces the parasite load in both liver and spleen in Leishmania infantum-infected hamsters when treated for 15 days with 1.5 mg/kg body weight/day CP2, expanding its potential application in addition to the already known effectiveness on cutaneous leishmaniasis for the treatment of visceral leishmaniasis, showing the broad spectrum of action of this cyclopalladated complex. The data presented here bring new insights into the CP2 molecular mechanisms of action, assisting the promotion of its rational modification to improve both safety and efficacy.

KW - Binuclear cyclopalladated complex

KW - Calcium homeostasis

KW - Cutaneous leishmaniasis

KW - Leishmania

KW - Leishmanicidal activity

KW - Mitochondria

KW - Necrotic death

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SN - 0066-4804

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JO - Antimicrobial agents and chemotherapy

JF - Antimicrobial agents and chemotherapy

IS - 1

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New Insights into the Mechanism of Action of the Cyclopalladated Complex (CP2) in Leishmania: Calcium Dysregulation, Mitochondrial Dysfunction, and Cell Death

Abstract

All Science Journal Classification (ASJC) codes

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