Kwadwo Koram scite author profile

In areas of intense Plasmodium falciparum transmission, clinical immunity is acquired during childhood, and adults enjoy substantial protection against malaria. An exception to this rule is pregnant women, in whom malaria is both more prevalent and severe than in nonpregnant women. Pregnancy-associated malaria (PAM) in endemic areas is concentrated in the first few pregnancies, indicating that protective immunity to PAM is a function of parity. The placenta is often heavily infected in PAM, and placental parasites show a striking preference for chondroitin sulfate A (CSA) as an adhesion receptor. Plasma Abs from malaria-exposed multiparous women are able to interfere with binding of P. falciparum parasites to CSA in vitro, and acquisition of Abs interfering with CSA-specific parasite sequestration thus appears to be a critical element in acquired protection against PAM. Here we show that adults from an area of hyperendemic P. falciparum transmission generally possessed low levels of Abs specifically recognizing surface Ags expressed by a CSA-adhering parasite isolate, while unselected isolates were well recognized. In marked contrast, most third-trimester pregnant women from that area had very high plasma levels of such Abs. Plasma levels of Abs specifically recognizing the CSA-adhering isolate strongly depended on parity, whereas recognition of CSA-nonadhering isolates did not. Finally, we demonstrate a clear correlation between plasma levels of Abs recognizing the CSA-specific isolate and the ability to interfere with its sequestration to CSA in vitro. Our study supports the hypothesis that Abs inhibiting CSA-specific parasite sequestration are important in acquisition of protection against PAM.

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Malaria-Induced Acquisition of Antibodies toPlasmodium falciparumVariant Surface Antigens

Ofori

et al. 2002

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In areas of intense Plasmodium falciparum transmission, protective immunity is acquired during childhood in parallel with acquisition of agglutinating antibodies to parasite-encoded variant surface antigens (VSA) expressed on parasitized red blood cells. In a semi-immune child in such an area, clinical disease is caused mainly by parasites expressing VSA not recognized by preexisting VSA-specific antibodies in that child. Such malaria episodes are known to cause an increase in agglutinating antibodies specifically recognizing VSA expressed by the parasite isolate causing the illness, whereas antibody responses to other parasite isolates are relatively unaffected. However, the detailed kinetics of this VSA antibody acquisition are unknown and hence were the aim of this study. We show that P. falciparum malaria in Ghanaian children generally caused a rapid and sustained increase in variant-specific VSA antibody levels, while more transient and limited increases in levels of antibodies to VSA expressed by other parasite isolates were also seen. Plasma VSA antibody levels were positively correlated with the age of the healthy plasma donors but negatively correlated with the age of the parasite donors (the malaria patient). The data from this first detailed longitudinal study of acquisition of VSA antibodies support the hypothesis that naturally acquired protective immunity to P. falciparum malaria is mediated, at least in part, by VSA-specific antibodies.Plasmodium falciparum malaria remains one of the leading health problems of the world. In areas where malaria is endemic, substantial clinical protection is acquired during the first decade of life and the majority of malaria-related morbidity and mortality are concentrated in young children (reviewed in reference 27). This acquisition of protective immunity is paralleled by increases in levels of antibodies capable of agglutinating red blood cells (RBC) infected by late developmental stages of malaria parasites (20,21). The agglutination is mediated by antibodies recognizing variant surface antigens (VSA) inserted by the parasites into the RBC membrane (22,31). The best characterized of these VSA is P. falciparum erythrocyte membrane protein 1, which mediates adhesion of parasitized RBC to a number of specific receptors in the host vasculature (3,4,7,(23)(24)(25)(28)(29)(30). This in vivo adhesion, termed sequestration, is thought to be an important parasite survival strategy and a key element in the pathogenesis of P. falciparum malaria (18). Previous studies have shown that P. falciparum parasites causing clinical disease in semi-immune children express VSA not recognized by preexisting variantspecific antibodies and that malaria episodes cause an increase in antibodies specifically recognizing VSA expressed by the parasite isolate causing illness (10,15,20). However, the detailed kinetics of changes in VSA antibody levels in relation to clinical episodes are not known, particularly during the period shortly after the clinical episode, and the aim of the present ...

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Sero-Epidemiology as a Tool to Screen Populations for Exposure to Mycobacterium ulcerans

et al. 2012

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BackgroundPrevious analyses of sera from a limited number of Ghanaian Buruli ulcer (BU) patients, their household contacts, individuals living in BU non-endemic regions as well as European controls have indicated that antibody responses to the M. ulcerans 18 kDa small heat shock protein (shsp) reflect exposure to this pathogen. Here, we have investigated to what extent inhabitants of regions in Ghana regarded as non-endemic for BU develop anti-18 kDa shsp antibody titers.Methodology/Principal FindingsFor this purpose we determined anti-18 kDa shsp IgG titers in sera collected from healthy inhabitants of the BU endemic Densu River Valley and the Volta Region, which was so far regarded as BU non-endemic. Significantly more sera from the Densu River Valley contained anti-18 kDa shsp IgG (32% versus 12%, respectively). However, some sera from the Volta Region also showed high titers. When interviewing these sero-responders, it was revealed that the person with the highest titer had a chronic wound, which was clinically diagnosed and laboratory reconfirmed as active BU. After identification of this BU index case, further BU cases were clinically diagnosed by the Volta Region local health authorities and laboratory reconfirmed. Interestingly, there was neither a difference in sero-prevalence nor in IS2404 PCR positivity of environmental samples between BU endemic and non-endemic communities located in the Densu River Valley.ConclusionsThese data indicate that the intensity of exposure to M. ulcerans in endemic and non-endemic communities along the Densu River is comparable and that currently unknown host and/or pathogen factors may determine how frequently exposure is leading to clinical disease. While even high serum titers of anti-18 kDa shsp IgG do not indicate active disease, sero-epidemiological studies can be used to identify new BU endemic areas.

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Kwadwo Koram

Plasma Antibodies from Malaria-Exposed Pregnant Women Recognize Variant Surface Antigens on Plasmodium falciparum-Infected Erythrocytes in a Parity-Dependent Manner and Block Parasite Adhesion to Chondroitin Sulfate A

Malaria-Induced Acquisition of Antibodies toPlasmodium falciparumVariant Surface Antigens

Sero-Epidemiology as a Tool to Screen Populations for Exposure to Mycobacterium ulcerans

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