Effect of Plasmodium falciparum parasitemia on erythrocyte zinc protoporphyrin.
In regions holoendemic for malaria, both iron deficiency and asymptomatic malaria parasitemia are common (1). Measurements of transferrin receptor and erythrocyte zinc protoporphyrin IX (ZnPPIX) concentrations have been suggested as screening tools to detect iron deficiency (1,2). Chronic iron-deficient erythropoiesis leads to a relative increase in the insertion of zinc rather than iron into erythrocyte PPIX.
Anemia of chronic disease and hyperbilirubinemia can decrease the specificity of an iron deficiency diagnosis based on hematofluorometry-determined increases in the ratio of ZnPPIX to heme. The influence of malaria parasitemia on front-face hematofluorometric ZnPPIX determinations is controversial. Increased ZnPPIX has been statistically associated with malaria, and interference by increased bilirubin from hemolysis has been postulated (3). In a study by Asobayire et al. (4), malaria did not increase ZnPPIX in washed blood, but in that study only 5%-8% of malaria-positive persons had >5000 parasites/[micro]L. In different studies using unwashed blood, increased ZnPPIX concentrations were associated with >5000 parasites/[micro]L (5, 6). These increases in ZnPPIX could either be real, caused by true iron deficiency and/or malaria-related anemia of chronic disease, or false, caused by hyperbilirubinemia, mostly from hemolysis. Bilirubinemia influencing front-face ZnPPIX determinations depends on the instrument (7,8), use of intact vs lysed specimens (9), or washing of intact cells before use (10). Although jaundice can be present in malarial disease, bilirubinemia is loosely correlated with disease severity (11). Asymptomatic parasitemic children are likely to have lower concentrations and incidence of hyperbilirubinemia.
Another potential reason for malaria interference with ZnPPIX determination is hemozoin, the black birefringent intracellular heme crystal. Intra-erythrocytic Plasmodium accumulates more than one half of its heme into hemozoin (12). The heme crystal has a much lower absorbance at 400 run, suggesting that high malarial parasitemia might lead to increased estimations of erythrocyte protoporphyrin by hematofluorometer (13).
To ascertain whether the intraerythrocytic parasite influences erythrocyte fluorescence, we prepared a thin blood film smear of synchronized Plasmodium falciparum trophozoite-infected erythrocytes, fixed it with methanol for 1 min, and obtained images on a Zeiss LSM 510 microscope with excitation at 410 run and emission above 575 run. These emission and excitation wavelengths correspond to those used on the AVIV front-face hematofluorometer. The individual trophozoite-infected erythrocytes showed much less fluorescence than did uninfected erythrocytes (Fig. 1). The synchronized ring stages showed no changes in microscopic fluorescence (not shown).
[FIGURE 1 OMITTED]
We investigated whether increasing parasitemia interferes with ZnPPIX estimation by front-face hematofluorometry or by determination of free erythrocyte porphyrin (FEP). Using uninfected erythrocytes at 50% hematocrit, we prepared 9 serial dilutions of 200 to 2 X [10.sup.6] parasites/[micro]L for trophozoite stages and 7 dilutions of 200 to 400 000 parasites/[micro]L for ring stages. The erythrocyte ZnPPIX concentration was measured on a front-face hematofluorometer (AVIV) on 20 [micro]L of parasitemic erythrocytes washed 3 times with RPMI medium. FEP was extracted and estimated from a calibration curve with excitation and emission wavelengths of 405 and 660 nm, respectively (Perkin-Elmer LS 50B) (14). All reagents were from Sigma.
The mean ZnPPIX by hematofluorometry for control, ring-infected, and trophozoite-infected erythrocytes (n = 10 for all erythrocyte densities) varied by <5 [micro]mol ZnPPIX/ mol of heme. Likewise, the estimated FEP by acid extraction method for both rings and trophozoites did not differ from the estimated values for uninfected erythrocytes. These experiments were designed with plasma-free erythrocytes, and additional studies to correlate bilirubin concentration with parasitemia and ZnPPIX concentrations should be explored.
In conclusion, intracellular Plasmodium parasites can be omitted as an influence on front-face hematofluorometer erythrocyte ZnPPIX determinations, despite the decrease in ZnPPIX microscopic fluorescence seen with individual trophozoite-infected erythrocytes. Because of sequestration of P. falciparum trophozoite-infected erythrocytes, only ring stages reach peak parasitemias near 2 X [10.sup.6]/[micro]L. For Plasmodium vivax, Plasmodium ovale, and Plasmodium malariae, the mean and peak parasitemias are <20 000/[micro]L and 50 000/ [micro]L, respectively (15). Therefore, our experimental results are valid for field malaria studies.
This work was supported in part by NIH Grant R01AI045774. NIH Grant GCRC RR0052 supported the culturing of P. falciparum for the production of malaria parasites.
(1.) Zimmermann MB, Molinari L, Staubli-Asobayire F, Hess SY, Chaouki N, Adou P, et al. Serum transferrin receptor and zinc protoporphyrin as indicators of iron status in African children. Am J Clin Nutr 2005;81:615-23.
(2.) Labbe RF, Dewanji A. Iron assessment tests: transferrin receptor vis-a-vis zinc protoporphyrin. Clin Biochem 2004;37:165-74.
(3.) Schneider D, Aplogan A, Dyck JL, Berger J, Chippaux JP. Determination of erythrocyte protoporphyrin with a hematofluorometer: interference due to malarial parasitemia. Ann Biol Clin 1993;51:141-2.
(4.) Asobayire FS, Adou P, Davidsson L, Cook JD, Hurrell RF. Prevalence of iron deficiency with and without concurrent anemia in population groups with high prevalences of malaria and other infections: a study in Cote d'Ivoire. Am J Clin Nutr 2001;74:776-82.
(5.) Stoltzfus RJ, Chwaya HM, Albonico M, Schulze KJ, Savioli L, Tielsch JM. Serum ferritin, erythrocyte protoporphyrin and hemoglobin are valid indicators of iron status of school children in a malaria-holoendemic population. J Nutr 1997; 127:293-8.
(6.) Stoltzfus RJ, Chwaya HM, Montresor A, Albonico M, Savioli L, Tielsch JM. Malaria, hookworms and recent fever are related to anemia and iron status indicators in 0- to 5-y old Zanzibari children and these relationships change with age. J Nutr 2000;130:1724-33.
(7.) Lamola AA, Eisinger J, Blumberg WE. Bilirubin sensitivity of zinc protoporphyrin hematofluorometers. J Lab Clin Med 1979;93:345-8.
(8.) Buhrmann E, Mentzer WC, Lubin BH. The influence of plasma bilirubin on zinc protoporphyrin measurement by a hematofluorimeter. J Lab Clin Med 1978;91:710-6.
(9.) Labbe RF, Dewanji A, McLaughlin K. Observations on the zinc protoporphyrin/heme ratio in whole blood. Clin Chem 1999;45:146-8.
(10.) Hastka J, Lasserre JJ, Schwarzbeck A, Strauch M, Hehlmann R. Washing erythrocytes to remove interferents in measurements of zinc protoporphyrin by front-face hematofluorometry. Clin Chem 1992;38:2184-9.
(11.) Anand AC, Puri P. Jaundice in malaria. J Gastroenterol Hepatol 2005;20:1322-32.
(12.) Sullivan DJ. Theories on malarial pigment formation and quinoline action. Int J Parasitol 2002;32:1645-53.
(13.) Fitch C, Cai G, Chen Y, Shoemaker J. Involvement of lipids in ferriprotoporphyrin IX polymerization in malaria. Biochim Biophys Acta 1999; 1454:31-7.
(14.) Chisolm JJ, Brown D. Micro-scale photofluorometric determination of "free erythrocytic porphyrin" (protoporphyrin IX). Clin Chem 1975; 21:1669-77.
(15.) Warrell DA, Gilles HM. Essential malariology, 4th ed. London: Arnold, 2002:384pp.
Girish S. Hiremath  David J. Sullivan, Jr.  * Abhai K. Tripathi  Robert E. Black  Sunil Sazawal 
 Department of International Health and
 Department of Molecular Microbiology and Immunology Malaria Research Institute Johns Hopkins Bloomberg School of Public Health Baltimore, MD
* Address correspondence to this author at: Department of Molecular Microbiology and Immunology, Malaria Research Institute, Johns Hopkins Bloomberg School of Public Health, 615 N. Wolfe St., Baltimore, MD 21205. Fax 410-955-0105; e-mail email@example.com.
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|Author:||Hiremath, Girish S.; Sullivan, David J., Jr.; Tripathi, Abhai K.; Black, Robert E.; Sazawal, Sunil|
|Article Type:||Letter to the editor|
|Date:||Apr 1, 2006|
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