A simple, <i>ex vivo</i> phagocytosis assay of <i>Plasmodium vivax</i> merozoites by flow cytometry

Farias, Elizangela; Bezerra, Fhabiane; Baia-da-Silva, Djane Clarys; Chaves, Yury Oliveira; Cardoza, Tatiana Bacry; de Almeida, Maria Edilene Martins; Oliveira, Lucas Barbosa; Lalwani, Pritesh; Orlandi, Patrícia Puccinelli; Lacerda, Marcus Vinicius Guimaraes; Lopes, Stefanie Costa Pinto; Nogueira, Paulo Afonso

doi:10.1590/0074-02760190158

Abstract

As phagocytosis is the first line of defense against malaria, we developed a phagocytosis assay with Plasmodium vivax (P. vivax) merozoites that can be applied to evaluate vaccine candidates. Briefly, after leukocyte removal with loosely packed cellulose powder in a syringe, P. vivax trophozoites matured to the merozoite-rich schizont stages in the presence of the E64 protease inhibitor. The Percoll gradient-enriched schizonts were chemically disrupted to release merozoites that were submitted to merozoite opsonin-dependent phagocytosis in two phagocytic lines with human and mouse antibodies against the N- and C-terminus of P. vivax Merozoite Surface Protein-1 (Nterm-PvMSP1 and MSP1₁₉). The resulting assay is simple and efficient for use as a routine phagocytic assay for the evaluation of merozoite stage vaccine candidates.

Key words:
Plasmodium vivax; merozoites; MSP1; opsonising antibodies

Based on Plasmodium falciparum studies, merozoite opsonisation appears to be correlated to immunity against malaria, and such merozoite phagocytosis assays could be useful to aid preclinical vaccine development and evaluate vaccine clinical trials.¹1. Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.^,²2. Chan CL, Rénia L, Tan KS. A simplified, sensitive phagocytic assay for malaria cultures facilitated by flow cytometry of differentially-stained cell populations. PLoS One. 2012; 7(6): e38523.^,³3. Chiu CY, Hodder AN, Lin CS, Hill DL, Li Wai Suen CS, Schofield L, et al. Antibodies to the Plasmodium falciparum proteinsMSPDBL1 and MSPDBL2 opsonize merozoites, inhibit parasite growth, and predict protection from clinical malaria. J Infect Dis. 2015; 212(3): 406-15. Merozoite phagocytosis has never been evaluated in P. vivax, hence, we adapted standardised protocols to develop a merozoite phagocytosis assay with saponin-treated P. vivax schizonts concentrated from clinical isolates, the flow cytometry was a useful tool for studying phagocytic uptake of blood stages.⁴4. Russell B, Suwanarusk R, Borlon C, Costa FT, Chu CS, Rijken MJ, et al. A reliable ex vivo invasion assay of human reticulocytes by Plasmodium vivax. Blood. 2011; 118(13): e74-81.^,⁵5. Lopes SC, Albrecht L, Carvalho BO, Siqueira AM, Thomson-Luque R, Nogueira PA, et al. Paucity of Plasmodium vivax mature schizonts in peripheral blood is associated with their increased cytoadhesive potential. J Infect Dis. 2014; 209(9): 1403-7.^,⁶6. Russell B, Suwanarusk R, Malleret B, Costa FT, Snounou G, Baird JK, et al. Human ex vivo studies on asexual Plasmodium vivax: the best way forward. Int J Parasitol. 2012; 42(12): 1063-70. The resulting assay is a simple to evaluate opsonising antibodies from malaria vaccine candidates.

Two PvMSP1 recombinant proteins (Nterm-PvMSP1 and MSP1₁₉) were purified on glutathione-Sepharose 4B columns (Amersham-GE Healthcare Life Sciences, Sinapse Biotecnologia, São Paulo, Brazil) as previously described as GST tagged proteins.⁷7. Soares IS, Levitus G, Souza JM, Del Portillo HA, Rodrigues MM. Acquired immune responses to the N- and C-terminal regions of Plasmodium vivax merozoite surface protein 1 in individuals exposed to malaria. Infect Immun. 1997; 65(5): 1606-14.^,⁸8. Nogueira PA, Alves FP, Fernandez-Becerra C, Pein O, Santos NR, Pereira da Silva LH, et al. A reduced risk of infection with Plasmodium vivax and clinical protection against malaria are associated with antibodies against the N terminus but not the C terminus of merozoite surface protein 1. Infect Immun. 2006; 74(5): 2726-33.^,⁹9. Versiani FG, Almeida ME, Melo GC, Versiani FO, Orlandi PP, Mariúba LA, et al. High levels of IgG3 anti ICB2-5 in Plasmodium vivax-infected individuals who did not develop symptoms. Malar J. 2013; 12: 294. Each protein was used to obtain mouse-immunised sera and specific, purified human IgG antibodies from malaria-infected individuals by immunoprecipitation.

For murine-immunised sera, eight-week-old female Balb/c mice (n = 3) were intraperitoneally immunised with 50 µg protein of Nterm-PvMSP1, MSP1₁₉ or Glutathione S-transferases (GST) alone dissolved in 0.1 mL phosphate-buffered saline (PBS) emulsified in 1:1 ratio with complete Freund’s adjuvant, and subsequent immunisations were administered in incomplete Freund’s adjuvant at intervals of 20 days. Control mice received PBS plus adjuvant. Mouse immunised sera were quantified by enzyme-linked immunosorbent assay (ELISA). All immunisation procedures minimised discomfort to the nonhuman animals. All procedures were approved by CEUA-INPA 03/2015. Sera from mice immunised with GST were used as controls. For human antibodies, each proteins was cross-linked to carbon nanotubes (CNTs). Briefly, activated CNTs with five µM EDAC followed by 10 mM NHS in pH 7.0 phosphate buffer were linked in ration of 100 μg of protein to 500 mg of CNTs for 30 min, blocked with bovine serum albumin (BSA) and stored at 4ºC in the presence of sodium azide until use. We used human plasma from malaria-exposed individuals whose anti-Nterm-PvMSP1 and anti-MSP1₁₉ antibodies were previously identified.⁹9. Versiani FG, Almeida ME, Melo GC, Versiani FO, Orlandi PP, Mariúba LA, et al. High levels of IgG3 anti ICB2-5 in Plasmodium vivax-infected individuals who did not develop symptoms. Malar J. 2013; 12: 294. Pooled human plasma samples were added, incubated for 30 min under agitation at room temperature, and washed with six cycles of washing and centrifugation. For the elution of the specific anti-Nterm-PvMSP1 and anti-MSP1₁₉ antibodies, 0.1 M glycine-HCl (pH 3.0) was added and coupled CNTs were centrifuged for 12,000 × g for 5 min at room temperature. To minimise acid degradation, the eluate was recovered and transferred to tubes containing 1/10th volume of 1 M Tris-HCl, pH 9.0. The reactivity of the eluted human antibodies and mouse immunised sera against anti-N-term PvMSP1 and anti-MSP1₁₉ were tested using enzymatic immune assays with the respective proteins. The best opsonising concentration of antibodies was verified in cytometry with ethidium bromide labelled merozoites, the 0.5 µg/mL for purified human antibodies and 1:50 dilution of mouse immunised.

As sources of merozoites for the phagocytosis assays, five human malaria blood samples were collected from adult malaria patients at Fundação de Medicina Tropical Dr Heitor Vieira Dourado, FMT-HVD, for which consent forms were approved and five milliliters of peripheral blood was collected from infected patients (approval number CAAE 42021515.0.3001.0005-FMT-HVD). White blood cells were removed from the blood using a CF11 cellulose (Sigma, Brazil) column.¹⁰10. Sriprawat K, Kaewpongsri S, Suwanarusk R, Leimanis ML, Lek-Uthai U, Phyo AP, et al. Effective and cheap removal of leukocytes and platelets from Plasmodium vivax infected blood. Malar J. 2009; 8: 115. Briefly, 50% hematocrit red blood cells were then passed through a 10 mL syringe containing five cm³ of loosely packed CF11-cellulose powder (Sigma, Brazil) at the bottom that was pre-sterilised by ultraviolet light. Then, P. vivax trophozoites were matured in 20% hematocrit in 7.5% glucose McCoy medium supplemented with 10% AB+ serum at 5% O₂, 5% CO₂ and 90% N₂ until the beginning of schizogony, according to previous study.¹¹11. Carvalho BO, Lopes SC, Nogueira PA, Orlandi PP, Bargieri DY, Blanco YC, et al. On the cytoadhesion of Plasmodium vivax-infected erythrocytes. J Infect Dis. 2010; 202(4): 638-47. After 24-30 h of culture, parasite-infected erythrocytes were treated with trans-epoxysuccinyl-L-leucylamido (4-guanidino) butane (E64), a cysteine protease inhibitor, to ensure a maximum output of merozoite-rich schizonts, with some modifications.¹²12. Hill DL, Eriksson EM, Schofield L. High yield purification of Plasmodium falciparum merozoites for use in opsonizing antibody assays. J Vis Exp. 2014; 89: doi: 10.3791/51590.
https://doi.org/10.3791/51590... E64 ensured that the schizonts were fully mature after 46 h of culture and osmotically ruptured schizonts to release fully formed merozoites. The Percoll gradient confirmed the full schizogony of schizonts containing uninucleated, membrane-enclosed merozoites (Fig. 1A). The inset in this picture shows fully formed merozoites obtained after osmotic rupture. The integrity and full morphology of merozoites were verified with an immunofluorescence assay (IFA). Free merozoites and ruptured schizonts were incubated with mouse anti-N-term PvMSP1 and anti-MSP1₁₉ antibodies in BSA-phosphate buffer in 1.5 mL micro tubes for 30 min at room temperature and revealed with Alexa Fluor-488 conjugated anti-mouse antibodies and DAPI were incubated for 30 min at room temperature. The images were obtained with a 100x magnitude lens using an Imaging System (EVOS-FL Color Imaging System, Thermo Fisher, Brazil). Despite the fragility of the parasites, anti-Nterm-PvMSP1 antibodies confirmed the expression of MSP1 in DAPI-labeled scattered schizonts (Fig. 1A). Free merozoites did not have damage to their surface coating after osmotic shock and repeated washings with saponin, as revealed by anti-MSP1₁₉ opsonising antibodies (Fig. 1B), whereas the 19-kDa fragment (MSP1₁₉) remains attached to the merozoite surface through its glycosylphosphatidylinositol anchor.¹1. Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.^,¹³13. Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.^,¹⁴14. Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.

Fig. 1:
the integrity and full morphology of Plasmodium vivax merozoites and assessment of opsonising antibodies were verified with an immunofluorescence assay (IFA). Blood film of parasite-infected erythrocytes treated with trans-epoxy succinyl-L-leucylamido (4-guanidino) butane (E64), a cysteine protease inhibitor, that ensured a maximum output of merozoite-rich schizonts. Schizonts were osmotically ruptured with 0.1 % saponin to release fully formed and homogeneous merozoites. The integrity of the merozoite membrane was assessed with an IFA with immunised mouse sera against the Nterm-PvMSP1 and MSP1₁₉ antibodies. (A) The anti-Nterm PvMSP1 antibody revealed fully membrane enclosed merozoites. The inset in this picture shows fully formed merozoites obtained after osmotic rupture. The surface localisation of the N-terminal PvMSP1 antigen is shown in mature schizonts stained with Alexa-488, mouse anti-IgG secondary antibodies, and the nucleus is stained with DAPI (panels in order: transmission light bright field, Alexa 488; DAPI, and merge). (B) The opsonising merozoite with the anti-MSP1₁₉ antibodies revealed that the surface coating did not cause damage. Bar = 1 µM.

For phagocytosis assays, merozoites were labeled with 1/1,000 DNA-specific dye SYBR Green solution (Thermo Fisher) and pre-opsonised with antibodies. The merozoite-containing pellets were washed once due to the fragility of the parasites and suspended in DMEM-HAM-F12 to prepare a suspension of 10⁶ merozoites/mL. Fifty microliters of free merozoites (~5x10⁴ free merozoites) and fifty microliters of murine macrophage cell line J774 (J774 cells) and human macrophage cell line THP1 (THP-1 cells) were incubated at a 1:1 ratio in round bottom 96-well polystyrene microwell plates for 1-h incubation at 37ºC in a 5% CO₂ atmosphere.¹³13. Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692. Each condition was performed in triplicate. After incubation, the cell suspensions were washed at 200 × g for eight minutes at room temperature to remove free parasites. The pellet was suspended and fixed in 2% paraformaldehyde (PFA) and stored in the dark at 4ºC for a maximum of 24 h prior to measurement using a FACSCanto II with red-blue lasers (BD Bioscience).¹⁵15. Chaves YO, da Costa AG, Pereira ML, de Lacerda MV, Coelho-dos-Reis JG, Martins-Filho OA, et al. Immune response pattern in recurrent Plasmodium vivax malaria. Malar J. 2016; 15(1): 445.

To optimise the functional phagocytosis assays, SYBR-labeled merozoites and phagocytic cell lines free of merozoites were acquired individually and plotted on the forward versus side scatter (FSC vs. SSC) axis, respectively (Fig. 2A). We distinguished merozoite and merozoite-free phagocytic cells by a merge between both gates served to define a “phagocytic cell gate”. Dot plot charts defined in the FSC versus FL-1 axis compared phagocytosis-positive gates of pre-opsonised merozoites with anti-Nterm-PvMSP1, anti-MSP1₁₉and anti-GST antibodies, or non-opsonised merozoites (Fig. 2B).

Fig. 2:
optimisation of the phagocytic cell line to target merozoites to evaluate the opsonising abilities of specific antibodies. (A) The suspension of merozoites was acquired and plotted on the FSC vs. SSC axis (left panel). A suspension of merozoite-free phagocytic cell lines was also plotted in the FSC vs. SSC axis (middle panel). A merge between merozoite and phagocytic cell charts served to define a “phagocytic cell gate” (right panel). (B) Contour plot charts show phagocytosis-positive gates of SYBR-labeled merozoites pre-opsonised with immunised sera; respectively anti-N-term-PvMSP1, anti-MSP1₁₉ anti-GST mouse immunised sera, and no sera, measurement using a FACSCanto II with red-blue lasers (BD Bioscience). (C-H) The opsonisation-dependent merozoite phagocytosis of anti-Nterm-PvMSP1 and anti-MSP1₁₉ were assessed in the murine J774 and THP-1 phagocytic cell lines. For murine J774 line, samples were tested in triplicate while with THP-1 they were performed in duplicate. For mouse antibodies, a 1:50 serum dilution in Phosphate buffered salt (PBS) of immunised sera with Nterm-PvMSP1, MSP1₁₉, and GST. The PBS was used as no sera control. For purified, human IgG antibodies, a 0.5 μg/mL of purified human IgG against Nterm-PvMSP1 and MSP1₁₉, and normal human IgG diluted in PBS. PBS was used as control. The results were represented individually for each sample to show variability between them. Each isolate is represented by a color that is repeated in each graph. (C-D) The percentage of SYBR-labelled merozoite phagocytising cells acquired in the phagocytosis-positive gate in relation to fifty thousand events; (C) murine J774; (D) THP-1 phagocytic cell lines. (E-F) Comparison of the median intensity fluorescence (MIF) of the SYBR-labelled merozoites of four isolates and pre-opsonised with mouse or human antibodies. (E) Murine J774; (F) THP-1 phagocytic cell lines. (G-H) The functional opsonising ability of these antibodies was assessed in phagocytosis assays with J774 and THP-1 cell lines in 96-well polystyrene round bottom plates. The phagocytosis index was standardised by multiplying the percentage of SYBR-labelled merozoite phagocytising cells by the MIF. Each condition was performed in triplicate. (G) J774 cells, (H) THP-1 cells. All data were calculated as Repeated Measures one-way ANOVA using Holm-Sidak’s multiple comparisons test. *: p < 0.05; **: p < 0.005.

The opsonisation-dependent merozoite phagocytosis of anti-Nterm-PvMSP1 and anti-MSP1₁₉ were assessed in the murine J774 and THP-1 phagocytic cell lines (J774 and THP-1 cells), after 1 h at 37ºC under 5% CO₂ (Fig. 2C-D). For murine J774 cells, samples were tested in triplicate while with THP-1 cells they were performed in duplicate. The results were represented individually for each sample to show variability between them. The percentage of SYBR+ cells were determined by the number of cells in the phagocytosis-positive gate of fifty thousand events acquired (Fig. 2C-D). The percentage of SYBR+ cells and merozoite phagocytosis levels increased significantly after opsonisation with the anti-Nterm-PvMSP1 and IgG anti-MSP1₁₉ antibodies. The opsonising ability of mouse and human antibodies to anti-Nterm-PvMSP1 and anti-MSP1₁₉ antibodies were evaluated by median intensity fluorescence (MIF) and calculated among events acquired in the phagocytosis-positive gate (Fig. 2E-F). To standardise merozoite phagocytosis for each sample, we created the following formula for phagocytosis index (PI = % SYBR+ cells × MIF). Antisera from immunised mice and purified human antibodies against Nterm-PvMSP1 and MSP1₁₉ proteins were able to demonstrate the opsonising ability of the tested antibodies (Fig. 2G-H).

Based on P. falciparum studies, merozoite opsonisation appears to be correlated to immunity against malaria, and such merozoite phagocytosis assays could be useful to aid preclinical vaccine development and evaluate vaccine clinical trials.³3. Chiu CY, Hodder AN, Lin CS, Hill DL, Li Wai Suen CS, Schofield L, et al. Antibodies to the Plasmodium falciparum proteinsMSPDBL1 and MSPDBL2 opsonize merozoites, inhibit parasite growth, and predict protection from clinical malaria. J Infect Dis. 2015; 212(3): 406-15.^,¹²12. Hill DL, Eriksson EM, Schofield L. High yield purification of Plasmodium falciparum merozoites for use in opsonizing antibody assays. J Vis Exp. 2014; 89: doi: 10.3791/51590.
https://doi.org/10.3791/51590... ^,¹³13. Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.^,¹⁴14. Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.^,¹⁶16. Hill DL, Eriksson EM, Li Wai Suen CS, Chiu CY, Ryg-Cornejo V, Robinson LJ, et al. Opsonising antibodies to P. falciparum merozoites associated with immunity to clinical malaria. PLoS One. 2013; 8(9): e74627.^,¹⁷17. Hill DL, Wilson DW, Sampaio NG, Eriksson EM, Ryg-Cornejo V, Harrison GLA, et al. Merozoite antigens of Plasmodium falciparum elicit strain-transcending opsonizing immunity. Infect Immun. 2016; 84(8): 2175-84. Here, merozoite phagocytosis assay with saponin-treated P. vivax schizonts concentrated from clinical isolates was a simple and efficient method to evaluate opsonising antibodies from malaria vaccine candidates. Because a lack of efficient and continuous in vitro culture systems has limited efforts to develop P. vivax-specific vaccines,¹⁸18. Herrera S, Corradin G, Arévalo-Herrera M. An update on the search for a Plasmodium vivax vaccine. Trends Parasitol. 2007; 23(3): 122-8. our technique could be beneficial for evaluating P. vivax merozoite stage vaccine candidates.

To achieve success in merozoite phagocytosis assays, the processing of maturation P. vivax isolates should be rapid and efficient.⁴4. Russell B, Suwanarusk R, Borlon C, Costa FT, Chu CS, Rijken MJ, et al. A reliable ex vivo invasion assay of human reticulocytes by Plasmodium vivax. Blood. 2011; 118(13): e74-81.^,⁵5. Lopes SC, Albrecht L, Carvalho BO, Siqueira AM, Thomson-Luque R, Nogueira PA, et al. Paucity of Plasmodium vivax mature schizonts in peripheral blood is associated with their increased cytoadhesive potential. J Infect Dis. 2014; 209(9): 1403-7.^,⁶6. Russell B, Suwanarusk R, Malleret B, Costa FT, Snounou G, Baird JK, et al. Human ex vivo studies on asexual Plasmodium vivax: the best way forward. Int J Parasitol. 2012; 42(12): 1063-70. After leukocyte and platelet removal, we were able to mature P. vivax schizonts without rupture using the E64 protease, similar to its use in P. falciparum cultures for merozoite isolation.¹1. Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.^,¹²12. Hill DL, Eriksson EM, Schofield L. High yield purification of Plasmodium falciparum merozoites for use in opsonizing antibody assays. J Vis Exp. 2014; 89: doi: 10.3791/51590.
https://doi.org/10.3791/51590... ^,¹³13. Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.^,¹⁴14. Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.^,¹⁶16. Hill DL, Eriksson EM, Li Wai Suen CS, Chiu CY, Ryg-Cornejo V, Robinson LJ, et al. Opsonising antibodies to P. falciparum merozoites associated with immunity to clinical malaria. PLoS One. 2013; 8(9): e74627.^,¹⁷17. Hill DL, Wilson DW, Sampaio NG, Eriksson EM, Ryg-Cornejo V, Harrison GLA, et al. Merozoite antigens of Plasmodium falciparum elicit strain-transcending opsonizing immunity. Infect Immun. 2016; 84(8): 2175-84. Maturation was enhanced when the cultures were started when the trophozoites were mostly in the 20-24 h stage and largely dependent on leukocyte depletion, as demonstrated previously.⁶6. Russell B, Suwanarusk R, Malleret B, Costa FT, Snounou G, Baird JK, et al. Human ex vivo studies on asexual Plasmodium vivax: the best way forward. Int J Parasitol. 2012; 42(12): 1063-70. Despite the fragility of the parasites, the integrity of the merozoite membrane was assessed with an IFA with anti-Nterm-PvMSP1 antibodies. Nterm-PvMSP1 is the major domain before the initial MSP1 proteolytic processing that releases 83, 30, and 38 kDa fragments.⁷7. Soares IS, Levitus G, Souza JM, Del Portillo HA, Rodrigues MM. Acquired immune responses to the N- and C-terminal regions of Plasmodium vivax merozoite surface protein 1 in individuals exposed to malaria. Infect Immun. 1997; 65(5): 1606-14. In addition, this is the first characterisation of anti-Nterm-PvMSP1 antibodies that confirms the expression of MSP1 in DAPI-labeled scattered schizonts. Moreover, full schizogony was also characterised with free merozoites collected from the supernatants of cultures, despite the use of E64. The immunofluorescence with the human IgG anti-MSP1₁₉ antibodies confirmed the integrity of merozoites, as observed in classical studies.¹1. Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.^,¹³13. Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.^,¹⁴14. Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.

Our merozoite phagocytosis assay demonstrated reliability even in the presence of hemozoin, although some studies have reported that hemozoin could affect phagocyte function or generate confounding events.¹1. Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.^,¹²12. Hill DL, Eriksson EM, Schofield L. High yield purification of Plasmodium falciparum merozoites for use in opsonizing antibody assays. J Vis Exp. 2014; 89: doi: 10.3791/51590.
https://doi.org/10.3791/51590... Indeed, we observed unspecific phagocytosis without antibodies; nonetheless, the phagocytosis index for the anti-Nterm-PvMSP1 and anti-MSP1₁₉ antibodies was higher than in the control. Moreover, the presence of hemozoin, as a possible cause of confounding events, did not harm our merozoite phagocytosis assay, whereas an auspicious study had to modify the SSC detector to change polarised light to depolarised light to allow the detection of hemozoin.¹⁹19. Frita R, Rebelo M, Pamplona A, Vigario AM, Mota MM, Grobusch MP, et al. Simple flow cytometric detection of haemozoin containing leukocytes and erythrocytes for research on diagnosis, immunology and drug sensitivity testing. Malar J. 2011; 31; 10: 74. Additionally, these authors used SYBR green to distinguish Hz-containing intraerythrocytic parasites. SYBR is a cyanine dye label, and eventual confounding events could be compensated in the FL-3 channel by comparison to the normal human IgG antibodies and GST-immunised mice serum or without antibodies with sera even after compensation. Thus, due to the prominent need for physical modification, the presence of hemozoin did not harm our merozoite phagocytosis assay.

In conclusion, the impossibility of a continuous culture of P. vivax limited us to an ex vivo short-term culture with a specified endpoint: the schizont stage. We collectively standardised P. vivax short-term cultures and mature schizonts to be applied in investigations in endemic areas. The combination of a phagocytic assay and flow cytometry has become an efficient method for studies of malaria vaccine candidates or novel vaccine targets.

ACKNOWLEDGEMENTS

To the Program for Technological Development in Tools for Health-PDTIS-FIOCRUZ for the use of the flow cytometry facility (RPT-08J).

REFERENCES

¹
Boyle MJ, Wilson DW, Richards JS, Riglar DT, Tetteh KK, Conway DJ, et al. Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proc Natl Acad Sci. USA. 2010; 107(32): 14378-83.
²
Chan CL, Rénia L, Tan KS. A simplified, sensitive phagocytic assay for malaria cultures facilitated by flow cytometry of differentially-stained cell populations. PLoS One. 2012; 7(6): e38523.
³
Chiu CY, Hodder AN, Lin CS, Hill DL, Li Wai Suen CS, Schofield L, et al. Antibodies to the Plasmodium falciparum proteinsMSPDBL1 and MSPDBL2 opsonize merozoites, inhibit parasite growth, and predict protection from clinical malaria. J Infect Dis. 2015; 212(3): 406-15.
⁴
Russell B, Suwanarusk R, Borlon C, Costa FT, Chu CS, Rijken MJ, et al. A reliable ex vivo invasion assay of human reticulocytes by Plasmodium vivax. Blood. 2011; 118(13): e74-81.
⁵
Lopes SC, Albrecht L, Carvalho BO, Siqueira AM, Thomson-Luque R, Nogueira PA, et al. Paucity of Plasmodium vivax mature schizonts in peripheral blood is associated with their increased cytoadhesive potential. J Infect Dis. 2014; 209(9): 1403-7.
⁶
Russell B, Suwanarusk R, Malleret B, Costa FT, Snounou G, Baird JK, et al. Human ex vivo studies on asexual Plasmodium vivax: the best way forward. Int J Parasitol. 2012; 42(12): 1063-70.
⁷
Soares IS, Levitus G, Souza JM, Del Portillo HA, Rodrigues MM. Acquired immune responses to the N- and C-terminal regions of Plasmodium vivax merozoite surface protein 1 in individuals exposed to malaria. Infect Immun. 1997; 65(5): 1606-14.
⁸
Nogueira PA, Alves FP, Fernandez-Becerra C, Pein O, Santos NR, Pereira da Silva LH, et al. A reduced risk of infection with Plasmodium vivax and clinical protection against malaria are associated with antibodies against the N terminus but not the C terminus of merozoite surface protein 1. Infect Immun. 2006; 74(5): 2726-33.
⁹
Versiani FG, Almeida ME, Melo GC, Versiani FO, Orlandi PP, Mariúba LA, et al. High levels of IgG3 anti ICB2-5 in Plasmodium vivax-infected individuals who did not develop symptoms. Malar J. 2013; 12: 294.
¹⁰
Sriprawat K, Kaewpongsri S, Suwanarusk R, Leimanis ML, Lek-Uthai U, Phyo AP, et al. Effective and cheap removal of leukocytes and platelets from Plasmodium vivax infected blood. Malar J. 2009; 8: 115.
¹¹
Carvalho BO, Lopes SC, Nogueira PA, Orlandi PP, Bargieri DY, Blanco YC, et al. On the cytoadhesion of Plasmodium vivax-infected erythrocytes. J Infect Dis. 2010; 202(4): 638-47.
¹²
Hill DL, Eriksson EM, Schofield L. High yield purification of Plasmodium falciparum merozoites for use in opsonizing antibody assays. J Vis Exp. 2014; 89: doi: 10.3791/51590.
» https://doi.org/10.3791/51590
¹³
Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.
¹⁴
Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.
¹⁵
Chaves YO, da Costa AG, Pereira ML, de Lacerda MV, Coelho-dos-Reis JG, Martins-Filho OA, et al. Immune response pattern in recurrent Plasmodium vivax malaria. Malar J. 2016; 15(1): 445.
¹⁶
Hill DL, Eriksson EM, Li Wai Suen CS, Chiu CY, Ryg-Cornejo V, Robinson LJ, et al. Opsonising antibodies to P. falciparum merozoites associated with immunity to clinical malaria. PLoS One. 2013; 8(9): e74627.
¹⁷
Hill DL, Wilson DW, Sampaio NG, Eriksson EM, Ryg-Cornejo V, Harrison GLA, et al. Merozoite antigens of Plasmodium falciparum elicit strain-transcending opsonizing immunity. Infect Immun. 2016; 84(8): 2175-84.
¹⁸
Herrera S, Corradin G, Arévalo-Herrera M. An update on the search for a Plasmodium vivax vaccine. Trends Parasitol. 2007; 23(3): 122-8.
¹⁹
Frita R, Rebelo M, Pamplona A, Vigario AM, Mota MM, Grobusch MP, et al. Simple flow cytometric detection of haemozoin containing leukocytes and erythrocytes for research on diagnosis, immunology and drug sensitivity testing. Malar J. 2011; 31; 10: 74.

Financial support: This study was supported by funding from FAPEAM (Program PROEP -2014). FB was supported by a Master Scholarships from CAPES (Post-Graduate Program in Basic and Applied Immunology of the Federal University of the Amazonas); EF, MEMA, YC, TBC are supported by Scholarships by the Programa de Fomento ao Ensino e à Pesquisa do ILMD-PFEP of Fiocruz Amazônia; PAN and MVGL are Level 2 and 1D CNPq fellows, respectively.

Publication Dates

Publication in this collection
07 Oct 2019
Date of issue
2019

History

Received
30 Apr 2019
Accepted
04 Sept 2019

This is an open-access article distributed under the terms of the Creative Commons Attribution License

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» https://doi.org/10.3791/51590

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Hill DL, Eriksson EM, Carmagnac AB, Wilson DW, Cowman AF, Hansen DS, et al. Efficient measurement of opsonising antibodies to Plasmodium falciparum merozoites. PLoS One. 2012; 7(12): e51692.

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Osier FH, Feng G, Boyle MJ, Langer C, Zhou J, Richards JS, et al. Opsonic phagocytosis of Plasmodium falciparum merozoites: mechanism in human immunity and a correlate of protection against malaria. BMC Med. 2014; 12: 108.

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Chaves YO, da Costa AG, Pereira ML, de Lacerda MV, Coelho-dos-Reis JG, Martins-Filho OA, et al. Immune response pattern in recurrent Plasmodium vivax malaria. Malar J. 2016; 15(1): 445.

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Hill DL, Eriksson EM, Li Wai Suen CS, Chiu CY, Ryg-Cornejo V, Robinson LJ, et al. Opsonising antibodies to P. falciparum merozoites associated with immunity to clinical malaria. PLoS One. 2013; 8(9): e74627.

[17] ¹⁷
Hill DL, Wilson DW, Sampaio NG, Eriksson EM, Ryg-Cornejo V, Harrison GLA, et al. Merozoite antigens of Plasmodium falciparum elicit strain-transcending opsonizing immunity. Infect Immun. 2016; 84(8): 2175-84.

[18] ¹⁸
Herrera S, Corradin G, Arévalo-Herrera M. An update on the search for a Plasmodium vivax vaccine. Trends Parasitol. 2007; 23(3): 122-8.

[19] ¹⁹
Frita R, Rebelo M, Pamplona A, Vigario AM, Mota MM, Grobusch MP, et al. Simple flow cytometric detection of haemozoin containing leukocytes and erythrocytes for research on diagnosis, immunology and drug sensitivity testing. Malar J. 2011; 31; 10: 74.

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