Plasmodium berghei Purified Hemozoin Associated with DNA Strongly Inhibits P. berghei Liver-Stage Development in BALB/c Mice after Intravenous Inoculation

In the acidic lysosome-like digestive vacuole, Plasmodium parasites crystallize heme from hemoglobin into hemozoin, or malaria pigment. Upon release of progeny merozoites, the residual hemozoin is phagocytized by macrophages principally in the liver and spleen where the heme crystals can persist for months to years, as heme oxygenase does not readily degrade the crystal. ABSTRACT In the acidic lysosome-like digestive vacuole, Plasmodium parasites crystallize heme from hemoglobin into hemozoin, or malaria pigment. Upon release of progeny merozoites, the residual hemozoin is phagocytized by macrophages principally in the liver and spleen where the heme crystals can persist for months to years, as heme oxygenase does not readily degrade the crystal. Previous studies demonstrated hemozoin modulation of monocytes and macrophages. Hemozoin modulates immune function activity of monocytes/macrophages. Here, we used purified/washed hemozoin (W-Hz) isolated from murine Plasmodium berghei infections and intravenously (i.v.) injected it back into naive mice. We characterized the modulating effect of W-Hz on liver-stage replication. Purified washed hemozoin decreases P. berghei liver levels both at 1 week and 1 month after i.v. injection in a dose and time dependent fashion. The injected hemozoin fully protected in nine out of 10 mice given a 50 sporozoite inoculum, and in 10 out of 10 mice against 2,000 sporozoites when they were infected an hour or a day after hemozoin inoculation. DNase treatment at the hemozoin reversed the observed liver load reduction. The liver load reduction was similar in mature B- and T-cell-deficient RAG-1 knockout (KO) mice suggesting an innate immune protection mechanism. This work indicates a role for residual hemozoin in down modulation of Plasmodium liver stages.

[1]  K. Legge,et al.  Hemozoin-mediated inflammasome activation limits long-lived anti-malarial immunity , 2021, Cell reports.

[2]  B. Faivre,et al.  Age reduces resistance and tolerance in malaria-infected mice. , 2020, Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases.

[3]  D. Sullivan,et al.  Lactic Acid Supplementation Increases Quantity and Quality of Gametocytes in Plasmodium falciparum Culture , 2020, Infection and Immunity.

[4]  C. King,et al.  Optimization of an in vivo model to study immunity to Plasmodium falciparum pre-erythrocytic stages , 2019, Malaria Journal.

[5]  H. Sugimoto,et al.  Hemozoin produced by mammals confers heme tolerance , 2019, bioRxiv.

[6]  E. Georges,et al.  What is pure hemozoin? A close look at the surface of the malaria pigment. , 2019, Journal of inorganic biochemistry.

[7]  J. D. Goldring,et al.  Monocyte phagocytosis of malaria β-haematin in the presence of artemisinin, amodiaquine, chloroquine, doxycycline, primaquine, pyrimethamine and quinine. , 2019, Experimental parasitology.

[8]  D. Gowda,et al.  Parasite Recognition and Signaling Mechanisms in Innate Immune Responses to Malaria , 2018, Front. Immunol..

[9]  Dominika Hobernik,et al.  DNA Vaccines—How Far From Clinical Use? , 2018, International journal of molecular sciences.

[10]  M. Netea,et al.  Cutting Edge: Plasmodium falciparum Induces Trained Innate Immunity , 2018, The Journal of Immunology.

[11]  C. Schmaljohn,et al.  Advancements in DNA vaccine vectors, non-mechanical delivery methods, and molecular adjuvants to increase immunogenicity , 2017, Human vaccines & immunotherapeutics.

[12]  P. Vekilov,et al.  Antimalarials inhibit hematin crystallization by unique drug–surface site interactions , 2017, Proceedings of the National Academy of Sciences.

[13]  John M. Pisciotta,et al.  Quantitative characterization of hemozoin in Plasmodium berghei and vivax , 2017, International journal for parasitology. Drugs and drug resistance.

[14]  D. Sullivan,et al.  Impact of Extended Duration of Artesunate Treatment on Parasitological Outcome in a Cytocidal Murine Malaria Model , 2017, Antimicrobial Agents and Chemotherapy.

[15]  T. Lamb,et al.  Interferon-γ: The Jekyll and Hyde of Malaria , 2015, PLoS pathogens.

[16]  M. Mota,et al.  Innate Immunity Induced by Plasmodium Liver Infection Inhibits Malaria Reinfections , 2015, Infection and Immunity.

[17]  T. Roskams,et al.  Hemozoin Induces Hepatic Inflammation in Mice and Is Differentially Associated with Liver Pathology Depending on the Plasmodium Strain , 2014, PloS one.

[18]  C. Coban,et al.  Hemozoin as a novel adjuvant for inactivated whole virion influenza vaccine. , 2014, Vaccine.

[19]  Carmenza Spadafora,et al.  Malarial hemozoin: from target to tool. , 2014, Biochimica et biophysica acta.

[20]  D. Golenbock,et al.  Dual engagement of the NLRP3 and AIM2 inflammasomes by plasmodium-derived hemozoin and DNA during malaria. , 2014, Cell reports.

[21]  D. Wright,et al.  Hemozoin and antimalarial drug discovery. , 2013, Future medicinal chemistry.

[22]  M. Mota,et al.  In Vivo Hemozoin Kinetics after Clearance of Plasmodium berghei Infection in Mice , 2012, Malaria research and treatment.

[23]  W. Zhou,et al.  Hepcidin Is Regulated during Blood-Stage Malaria and Plays a Protective Role in Malaria Infection , 2011, The Journal of Immunology.

[24]  C. Newbold,et al.  Host-mediated regulation of superinfection in malaria , 2011, Nature Medicine.

[25]  C. Coban,et al.  Immunogenicity of Whole-parasite Vaccines against Plasmodium Falciparum Involves Malarial Hemozoin and Host Tlr9 , 2022 .

[26]  Philippa Marrack,et al.  Alum Induces Innate Immune Responses through Macrophage and Mast Cell Sensors, But These Sensors Are Not Required for Alum to Act As an Adjuvant for Specific Immunity1 , 2009, The Journal of Immunology.

[27]  P. Sinnis,et al.  Plasmodium sporozoite-host interactions from the dermis to the hepatocyte. , 2009, Current opinion in microbiology.

[28]  B. Monks,et al.  Malaria hemozoin is immunologically inert but radically enhances innate responses by presenting malaria DNA to Toll-like receptor 9 , 2007, Proceedings of the National Academy of Sciences.

[29]  S. Akira,et al.  Toll-like receptor–independent gene induction program activated by mammalian DNA escaped from apoptotic DNA degradation , 2005, The Journal of experimental medicine.

[30]  D. Haile,et al.  Regulation of hepcidin and ferroportin expression by lipopolysaccharide in splenic macrophages. , 2005, Blood cells, molecules & diseases.

[31]  Darcy L. Medica,et al.  Quantitative Dynamics of Plasmodium yoelii Sporozoite Transmission by Infected Anopheline Mosquitoes , 2005, Infection and Immunity.

[32]  C. Coban,et al.  Toll-like receptor 9 mediates innate immune activation by the malaria pigment hemozoin , 2005, The Journal of experimental medicine.

[33]  M. Molyneux,et al.  Platelet accumulation in brain microvessels in fatal pediatric cerebral malaria. , 2003, The Journal of infectious diseases.

[34]  R. Purcell,et al.  Route and Method of Delivery of DNA Vaccine Influence Immune Responses in Mice and Non-Human Primates , 1999, Molecular medicine.

[35]  S. Meshnick,et al.  Patterns of haemozoin accumulation in tissue , 1996, Parasitology.

[36]  T. Egan,et al.  Quinoline anti‐malarial drugs inhibit spontaneous formation of β‐haematin (malaria pigment) , 1994 .

[37]  A. Slater Malaria pigment. , 1992, Experimental parasitology.

[38]  A. Celada,et al.  Assessment of immune phagocytosis of Plasmodium falciparum infected red blood cells by human monocytes and polymorphonuclear leukocytes. A method for visualizing infected red blood cells ingested by phagocytes. , 1983, JIM - Journal of Immunological Methods.