NK cells inhibit Plasmodium falciparum growth in red blood cells via antibody-dependent cellular cytotoxicity

Arora, Gunjan; Hart, Geoffrey T.; Manzella-Lapeira, Javier; Doritchamou, Justin; Narum, David L.; Thomas, L. Michael; Brzostowski, Joseph; Rajagopalan, Sumati; Doumbo, Ogobara K.; Traoré, Boubacar; Miller, Louis H.; Pierce, Susan K.; Duffy, Patrick E.; Crompton, Peter D.; Desai, Sanjay A.; Long, Eric O.

doi:10.7554/elife.36806

Cited by 93 publications

(94 citation statements)

References 37 publications

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“…NK cell‐mediated ADCC has been well recognized through its implication in the killing of tumor cells and virus‐infected cells. A recent study has provided evidence that NK cells can inhibit Plasmodium falciparum by lysing infected red blood cells via ADCC . This finding highlights the importance of NK cells in boosting adaptive immunity, not only to control viral infections but also parasites.…”

Section: Nk Cell Receptorsmentioning

confidence: 87%

From the “missing self” hypothesis to adaptive NK cells: Insights of NK cell-mediated effector functions in immune surveillance

Cruz-Muñoz

Valenzuela-Vázquez

Sánchez-Herrera

et al. 2019

Journal of Leukocyte Biology

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The original discovery of NK cells approximately 40 yr ago was based on their unique capability to kill tumor cells without prior sensitization or priming, a process named natural cytotoxicity. Since then, several studies have documented that NK cells can kill hematopoietic and nonhematopoietic cancer cells. NK cells also recognize and kill cells that have undergone viral infections. Besides natural cytotoxicity, NK cells are also major effectors of antibody‐dependent cell cytotoxicity (ADCC). Therefore, NK cells are well “armed” to recognize and mount immune responses against “insults” that result from cell transformation and viral infections. Because of these attributes, an essential role of NK cells in tumor surveillance was noted. Indeed, several studies have shown a correlation between impaired NK cell cytotoxicity and a higher risk of developing cancer. This evidence led to the idea that cancer initiation and progress is intimately related to an abnormal or misdirected immune response. Whereas all these ideas remain current, it is also true that NK cells represent a heterogeneous population with different abilities to secrete cytokines and to mediate cytotoxic functions. In addition, recent data has shown that NK cells are prone to suffer epigenetic modifications resulting in the acquisition of previously unrecognized attributes such as memory and long‐term survival. Such NK cells, referred as “adaptive” or “memory‐like,” also display effector functions that are not necessarily equal to those observed in conventional NK cells. Given the new evidence available, it is essential to discuss the conceptual reasoning and misconceptions regarding the role of NK cells in immune surveillance and immunotherapy.

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Section: Nk Cell Receptorsmentioning

confidence: 87%

From the “missing self” hypothesis to adaptive NK cells: Insights of NK cell-mediated effector functions in immune surveillance

Cruz-Muñoz

Valenzuela-Vázquez

Sánchez-Herrera

et al. 2019

Journal of Leukocyte Biology

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“…PfEMP1 variants containing domains of the CIDRα1 class generally bind to EPCR on endothelial cells and are associated with severe malaria (10), whereas variants containing domains of the CIDRα2-6 classes bind to CD36 present on several host cell types, including microvascular endothelial cells, mononuclear phagocytes, and platelets (16, 37). Antibodies targeting these PfEMP1 domains can potentially disrupt adhesion of IEs to host receptors but can also facilitate IE clearance via opsonization and phagocytosis or antibody-mediated cytotoxicity (10, 38, 39). Consistent with a prior study conducted in a Tanzanian cohort (28), we observed early acquisition of IgG antibodies against EPCR-binding PfEMP1 variants of the CIDRα1 domain class relative to CD36-binding variants in both age-stratified cross-sectional and longitudinal analyses.…”

Section: Discussionmentioning

confidence: 99%

Longitudinal analysis of naturally acquired antibodies to PfEMP1 CIDR domain variants and their association with malaria protection

Obeng-Adjei

Larremore

Turner

et al. 2020

Preprint

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Malaria pathogenicity is determined, in part, by the adherence of Plasmodium falciparum infected erythrocytes to the microvasculature mediated via specific interactions between PfEMP1 variant domains to host endothelial receptors. Naturally acquired antibodies against specific PfEMP1 variants can play an important role in clinical protection against malaria. We evaluated IgG responses against a repertoire of PfEMP1 CIDR domain variants to determine the rate and order of variant-specific antibody acquisition and their association with protection against febrile malaria in a prospective cohort study conducted in an area of intense, seasonal malaria transmission. Using longitudinal data, we found that IgG to the pathogenic domain variants CIDRα1.7 and CIDRα1.8 were acquired the earliest. Furthermore, IgG to CIDRγ3 was associated with reduced prospective risk of febrile malaria and recurrent malaria episodes. Future studies will need to validate these findings in other transmission settings and determine the functional activity of these naturally acquired CIDR variant-specific antibodies.

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“…There is little evidence that antibodies to infected erythrocytes stimulate monocytes or neutrophils to produce antibody‐dependent respiratory burst, in contrast to antibody‐dependent respiratory burst following ingestion of opsonized merozoites (discussed earlier). Antibodies toward infected erythrocytes can also activate natural killer cells, resulting in degranulation and cytokine production, leading to parasite lysis and growth inhibition . Antibody‐dependent interactions with natural killer cells by infected erythrocytes are dominated by a subset of cells called adaptive natural killer cells .…”

Section: Functional Antibody In Malariamentioning

confidence: 99%

Antibody effector functions in malaria and other parasitic diseases: a few needles and many haystacks

2020

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Many parasitic infections stimulate antibody responses in their mammalian hosts. The ability of these antibodies to protect against disease varies markedly. Research has revealed that functional properties of antibodies determine their role in protection against parasites. Investigations of antibodies against Plasmodium spp. have demonstrated a variety of functional activities, ranging from invasion inhibition and parasite growth inhibition to antibody-dependent cellular phagocytosis and antibody-dependent cellular cytotoxicity. These activities have been demonstrated with a large variety of parasite molecules at multiple life cycle stages, highlighting the importance of functional antibody responses in malaria. Other parasitic infections have not yet been investigated in similar detail, but these mechanisms are likely to operate in nonmalarial parasitic infections as well. In this report, we review data on the role of functional antibody responses in protection from parasitic infections, highlighting discoveries in malaria, a parasite for which our knowledge base is the most advanced.

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NK cells inhibit Plasmodium falciparum growth in red blood cells via antibody-dependent cellular cytotoxicity

Cited by 93 publications

References 37 publications

From the “missing self” hypothesis to adaptive NK cells: Insights of NK cell-mediated effector functions in immune surveillance

From the “missing self” hypothesis to adaptive NK cells: Insights of NK cell-mediated effector functions in immune surveillance

Longitudinal analysis of naturally acquired antibodies to PfEMP1 CIDR domain variants and their association with malaria protection

Antibody effector functions in malaria and other parasitic diseases: a few needles and many haystacks

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