Biochemical, Biophysical, and Functional Characterization of Bacterially Expressed and Refolded Receptor Binding Domain ofPlasmodium vivax Duffy-binding Protein

Singh, Sanjay; Pandey, Kailash C.; Chattopadhayay, Rana; Yazdani, Syed Shams; Lynn, Andrew M.; Bharadwaj, Ashima; Ranjan, Akash; Chitnis, Chetan E.

doi:10.1074/jbc.m101531200

Cited by 97 publications

(124 citation statements)

References 45 publications

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“…This is in contrast to a previous study (25) showing that bacterially produced DBL␣ domains were unable to disrupt rosettes. This discrepancy suggests that recombinant proteins produced through denaturation of inclusion bodies may not reflect the correct conformation and that methods to refold the recombinant protein are needed to obtain functional DBL domains (3,33). Recombinant refolded DBL␣ was recognized by plasmas from individuals residing in regions of India and Mozambique with high rates of malaria transmission, indicating that DBL␣ contains B-cell epitopes that are naturally exposed to the host immune system.…”

Section: Discussionmentioning

confidence: 99%

“…Bound protein was eluted from the erythrocytes with 300 mM NaCl, separated by SDS-PAGE, and detected by Western blotting using a mouse monoclonal antibody against pentahistidine (Qiagen). Plasmodium vivax region II (PvRII) of the Duffy binding protein, which was previously shown to bind Duffy antigen receptor for chemokines on erythrocytes by this method (33), was used as a positive control. The intensities of the bands were quantified by densitometry scanning.…”

Section: Expression Of Rdbl␣mentioning

confidence: 99%

“…Antibody responses were expressed in arbitrary units (AU) to account for day-to-day variation and were calculated as follows: (OD sample / OD positive control ) ϫ 100. The cutoff for positivity was defined as the AU value 3 standard deviations above the arithmetic mean for the negative control plasmas (33…”

Section: Expression Of Rdbl␣mentioning

confidence: 99%

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Functional and Immunological Characterization of a Duffy Binding-Like Alpha Domain from Plasmodium falciparum Erythrocyte Membrane Protein 1 That Mediates Rosetting

et al. 2009

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The Duffy binding-like (DBL) domains are common adhesion modules present in Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) variants, which are responsible for immune evasion and cytoadherence. Knowledge about how immune responses are acquired against polymorphic DBL domains of PfEMP1 can aid in the development of vaccines for malaria. A recombinant DBL␣ domain, encoded by R29 var1, which binds complement receptor 1 to mediate rosetting by the P. falciparum laboratory strain R29, was expressed in Escherichia coli, renatured by oxidative refolding to its native form, and purified to homogeneity. Antibody levels in 704 plasmas obtained from residents of areas of different levels of malaria endemicity in Orissa (India) and Manhiça (Mozambique) were assessed by enzyme-linked immunosorbent assay. The refolded DBL␣ domain was pure, homogeneous, and functional in that it bound human erythrocytes with specificity and was capable of inhibiting rosetting. The proportion of individuals who had measurable anti-DBL␣ immunoglobulin G responses was low in areas of low malaria endemicity in Orissa (6.7%) but high in areas of high endemicity in Orissa (87.5%) and Manhiça (74.5%). Seroprevalence and antibody levels against the recombinant protein increased with the age of inhabitants from areas with high transmission rates (P < 0.001). Half of the children in these areas had seroconverted by the age of 5 years. These findings suggest that in spite of the extreme polymorphism of PfEMP1 DBL␣ domains, the acquisition of specific antibodies is rapid and age related and reflects the reduced risk of malaria in areas with high transmission rates. Further studies are required to elucidate the role of these antibodies in protection from malaria.

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Section: Discussionmentioning

confidence: 99%

Section: Expression Of Rdbl␣mentioning

confidence: 99%

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Functional and Immunological Characterization of a Duffy Binding-Like Alpha Domain from Plasmodium falciparum Erythrocyte Membrane Protein 1 That Mediates Rosetting

et al. 2009

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“…These differences may be due to the type of glycosylation and the extent of glycosylation on molecules produced in the two different expression systems (30). E. coli is thus well suited for the production of nonglycosylated malarial parasite antigens as vaccine candidates (23,28), and in this report we provide the first description of methods developed for refolding and purification of functional E. coli MSP1 42 produced in a bacterial expression system.…”

Section: Discussionmentioning

confidence: 99%

Biochemical and Immunological Characterization of Bacterially Expressed and RefoldedPlasmodium falciparum42-Kilodalton C-Terminal Merozoite Surface Protein 1

et al. 2003

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Protection against Plasmodium falciparum can be induced by vaccination in animal models with merozoite surface protein 1 (MSP1), which makes this protein an attractive vaccine candidate for malaria. In an attempt to produce a product that is easily scaleable and inexpensive, we expressed the C-terminal 42 kDa of MSP1 (MSP1 42 ) in Escherichia coli, refolded the protein to its native form from insoluble inclusion bodies, and tested its ability to elicit antibodies with in vitro and in vivo activities. Biochemical, biophysical, and immunological characterization confirmed that refolded E. coli MSP1 42 was homogeneous and highly immunogenic. In a formulation suitable for human use, rabbit antibodies were raised against refolded E. coli MSP1 42 and tested in vitro in a P. falciparum growth invasion assay. The antibodies inhibited the growth of parasites expressing either homologous or heterologous forms of P. falciparum MSP1 42 . However, the inhibitory activity was primarily a consequence of antibodies directed against the C-terminal 19 kDa of MSP1 (MSP1 19 ). Vaccination of nonhuman primates with E. coli MSP1 42 in Freund's adjuvant protected six of seven Aotus monkeys from virulent infection with P. falciparum. The protection correlated with antibody-dependent mechanisms. Thus, this new construct, E. coli MSP1 42 , is a viable candidate for human vaccine trials.

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“…29 In addition, different studies suggested that stronger humoral and cellular immune responses to PvDBP-II develop progressively with increasing age, 22,24,29,30 showing a boosting effect that was likely because of repeated exposures to the infection. 28 Also, the anti-PvDBP-II antibodies in populations living in areas endemic for P. vivax could block PvDBP-II ligand DARC-positive erythrocytes 21,31 and inhibit erythrocyte invasion in vitro . 28,32 As shown by several studies, selection of an antigen for vaccination requires a detailed understanding of natural immune responses elicited by the protein from different malariaendemic regions with various epidemiology, and the result of similar studies from one malaria-endemic region cannot be extrapolated to other areas of malaria-endemic regions in the world.…”

Section: Introductionmentioning

confidence: 99%

Antibody Responses and Avidity of Naturally Acquired Anti-Plasmodium vivax Duffy Binding Protein (PvDBP) Antibodies in Individuals from an Area with Unstable Malaria Transmission

Zakeri

Babaeekhou²,

Mehrizi³

et al. 2011

The American Society of Tropical Medicine and Hygiene

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Plasmodium vivax remains an important cause of morbidity outside Africa, and no effective vaccine is available against this parasite. The P. vivax Duffy binding protein (PvDBP) is essential during merozoite invasion into erythrocytes, and it is a target for protective immunity against malaria. This investigation was designed to evaluate naturally acquired antibodies to two variant forms of PvDBP-II antigen (DBP-I and -VI) in malaria individuals (N = 85; median = 22 years) who were living in hypoendemic areas in Iran. The two PvDBP-II variants were expressed in Escherichia coli, and immunoglobulin G (IgG) isotype composition and avidity of naturally acquired antibodies to these antigens were measured using enzyme-linked immunosorbent assay (ELISA). Results showed that almost 32% of the studied individuals had positive antibody responses to the two PvDBP-II variants, and the prevalence of responders did not differ significantly (P > 0.05; χ2 test). The IgG-positive samples exhibited 37.03% and 40.8% high-avidity antibodies for PvDBP-I and PvDBP-VI variants, respectively. Furthermore, high-avidity IgG1 antibody was found in 39.1% of positive sera for each examined variant antigen. The avidity of antibodies for both PvDBP variant antigens and the prevalence of responders with high- and intermediate-avidity IgG, IgG1, and IgG3 antibodies were similar in patients (P > 0.05; χ2 test). Moreover, the prevalence of IgG antibody responses to the two variants significantly increased with exposure and host age. To sum up, the results provided additional data in our understanding of blood-stage immunity to PvDBP, supporting the rational development of an effective blood-stage vaccine based on this antigen.

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Biochemical, Biophysical, and Functional Characterization of Bacterially Expressed and Refolded Receptor Binding Domain ofPlasmodium vivax Duffy-binding Protein

Cited by 97 publications

References 45 publications

Functional and Immunological Characterization of a Duffy Binding-Like Alpha Domain from Plasmodium falciparum Erythrocyte Membrane Protein 1 That Mediates Rosetting

Functional and Immunological Characterization of a Duffy Binding-Like Alpha Domain from Plasmodium falciparum Erythrocyte Membrane Protein 1 That Mediates Rosetting

Biochemical and Immunological Characterization of Bacterially Expressed and RefoldedPlasmodium falciparum42-Kilodalton C-Terminal Merozoite Surface Protein 1

Antibody Responses and Avidity of Naturally Acquired Anti-Plasmodium vivax Duffy Binding Protein (PvDBP) Antibodies in Individuals from an Area with Unstable Malaria Transmission

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