Amalia Papadaki scite author profile

Amalia Papadaki

5Publications

40Citation Statements Received

301Citation Statements Given

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Pasteur Hellenic Institute, Institut Pasteur

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The Leishmania donovani histidine acid ecto-phosphatase LdMAcP: insight into its structure and function

Papadaki

Politou

Smirlis

et al. 2015

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Acid ecto-phosphatase activity has been implicated in Leishmania donovani promastigote virulence. In the present study, we report data contributing to the molecular/structural and functional characterization of the L. donovani LdMAcP (L. donovani membrane acid phosphatase), member of the histidine acid phosphatase (HAcP) family. LdMAcP is membrane-anchored and shares high sequence identity with the major secreted L. donovani acid phosphatases (LdSAcPs). Sequence comparison of the LdMAcP orthologues in Leishmania sp. revealed strain polymorphism and species specificity for the L. donovani complex, responsible for visceral leishmaniasis (Khala azar), proposing thus a potential value of LdMAcP as an epidemiological or diagnostic tool. The extracellular orientation of the LdMAcP catalytic domain was confirmed in L. donovani promastigotes, wild-type (wt) and transgenic overexpressing a recombinant LdMAcP–mRFP1 (monomeric RFP1) chimera, as well as in transiently transfected mammalian cells expressing rLdMAcP–His. For the first time it is demonstrated in the present study that LdMAcP confers tartrate resistant acid ecto-phosphatase activity in live L. donovani promastigotes. The latter confirmed the long sought molecular identity of at least one enzyme contributing to this activity. Interestingly, the L. donovani rLdMAcP–mRFP1 promastigotes generated in this study, showed significantly higher infectivity and virulence indexes than control parasites in the infection of J774 mouse macrophages highlighting thereby a role for LdMAcP in the parasite's virulence.

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Heterologous expression of the mammalian sodium-nucleobase transporter rSNBT1 in Leishmania tarentolae

Doukas

Karena

Botou

et al. 2019

Biochimica et Biophysica Acta (BBA) - Biomembranes

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The Leishmania donovani LDBPK_220120.1 Gene Encodes for an Atypical Dual Specificity Lipid-Like Phosphatase Expressed in Promastigotes and Amastigotes; Substrate Specificity, Intracellular Localizations, and Putative Role(s)

Papadaki

Tziouvara

Kotopouli

et al. 2021

Front. Cell. Infect. Microbiol.

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The intracellular protozoan parasites of the Leishmania genus are responsible for Leishmaniases, vector borne diseases with a wide range of clinical manifestations. Leishmania (L.) donovani causes visceral leishmaniasis (kala azar), the most severe of these diseases. Along their biological cycle, Leishmania parasites undergo distinct developmental transitions including metacyclogenesis and differentiation of metacyclic promastigotes (MPs) to amastigotes. Metacyclogenesis inside the phlebotomine sandfly host’s midgut converts the procyclic dividing promastigotes to non-dividing infective MPs eventually injected into the skin of mammalian hosts and phagocytosed by macrophages where the MPs are converted inside modified phagolysosomes to the intracellular amastigotes. These developmental transitions involve dramatic changes in cell size and shape and reformatting of the flagellum requiring thus membrane and cytoskeleton remodeling in which phosphoinositide (PI) signaling and metabolism must play central roles. This study reports on the LDBPK_220120.1 gene, the L. donovani ortholog of LmjF.22.0250 from L. major that encodes a phosphatase from the “Atypical Lipid Phosphatases” (ALPs) enzyme family. We confirmed the expression of the LDBPK_220120.1 gene product in both L. donovani promastigotes and axenic amastigotes and showed that it behaves in vitro as a Dual Specificity P-Tyr and monophosphorylated [PI(3)P and PI(4)P] PI phosphatase and therefore named it LdTyrPIP_22 (Leishmaniad onovani Tyrosine PI Phosphatase, gene locus at chromosome 22). By immunofluorescence confocal microscopy we localized the LdTyrPIP_22 in several intracellular sites in the cell body of L. donovani promastigotes and amastigotes and in the flagellum. A temperature and pH shift from 25°C to 37°C and from pH 7 to 5.5, induced a pronounced recruitment of LdTyrPIP_22 epitopes to the flagellar pocket and a redistribution around the nucleus. These results suggest possible role(s) for this P-Tyr/PI phosphatase in the regulation of processes initiated or upregulated by this temperature/pH shift that contribute to the developmental transition from MPs to amastigotes inside the mammalian host macrophages.

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Leishmanicidal Activity of Oleuropein: Leishmania donovani Promastigote Cell Death through a Possibly ROS-Independent Mechanism

Kyriazis¹,

Smirlis²,

Papadaki³

et al. 2017

J Pharmacogn Nat Prod

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Measurement of Acid Ecto-phosphatase Activity in Live Leishmania donovani Parasites

Papadaki

Boleti

2019

BIO-PROTOCOL

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Acid ecto-phosphatases are enzymes that hydrolyze phosphomonoesters in the acidic pH range with their active sites facing the extacellular medium. Their activities can be measured in living cells. In bacteria and protozoan pathogens, acid ecto-phosphatases have been associated with the survival of intracellular pathogens within phagocytes through inhibition of the respiratory burst, suggesting that they act as virulence factors. Extracellular acid phosphatase activity in Leishmania (L.) donovani has been associated with the degree of promastigote virulence/infectivity. The levels of acid ecto-phosphatase activity in different Leishmania sp or even strains of the same species vary and this has been linked to their virulence. It may also be related to their ability to survive and multiply in the insect host.Acid phosphatase enzymatic activity can be measured in crude membrane fractions and in membrane fractions enriched in plasma membrane, however, in these cases, the intracellular acid phosphatases, mainly localized in lysosomes, contribute to the final result. Therefore, measuring phosphatase activity at the surface of live cells in acidic pH range is the only accurate way to measure acid ecto-phosphatase activity. This assay is performed at 25 °C or 37 °C for 30 min using as substrate the generic phosphatase substrate p-nitrophenyl phosphate (pNPP), in a citrate buffer, with or without sodium tartrate (L(+)tartaric acid), as histidine acid phosphatases are classified according to their sensitivity to tartate inhibition. The steps of the protocol consist of pelleting cells in suspension, in this case Leishmania promastigotes, washing twice with HEPES buffer, resuspending the cells in the substrate reaction mixture and terminating the reaction by the addition of 0.5 N NaOH. The cells are removed by centrifugation and the absorbance of the reaction product (p-nitrophenolate=pNP) in the supernatant is measured at 405 nm. The enzymatic activity (A405 values) is normalized for the mean number of cells/ml used for each independent experiment.

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Amalia Papadaki

The Leishmania donovani histidine acid ecto-phosphatase LdMAcP: insight into its structure and function

Heterologous expression of the mammalian sodium-nucleobase transporter rSNBT1 in Leishmania tarentolae

The Leishmania donovani LDBPK_220120.1 Gene Encodes for an Atypical Dual Specificity Lipid-Like Phosphatase Expressed in Promastigotes and Amastigotes; Substrate Specificity, Intracellular Localizations, and Putative Role(s)

Leishmanicidal Activity of Oleuropein: Leishmania donovani Promastigote Cell Death through a Possibly ROS-Independent Mechanism

Measurement of Acid Ecto-phosphatase Activity in Live Leishmania donovani Parasites

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