A. E. Bianco scite author profile

Protective immune responses against the asexual stages of the human malaria parasite, Plasmodium falciparum, are most probably directed against exposed antigenic determinants on the surface of the free merozoite or the infected red blood cell, and therefore antigens in these locations are candidates for testing as components of a defined molecular vaccine. To facilitate the search for such antigens, we recently developed a method for the expression of P. falciparum proteins in Escherichia coli as fused polypeptides. Many clones producing antigens were detected by screening with immune human sera. We show here that antibodies against the fused polypeptide expressed by one such clone react with a P. falciparum protein that is synthesized late in schizogony and is later present on the surface of the ring-infected erythrocyte. The protein is composed of repeating subunits of 8, 4 and 3 amino acids and is present in all isolates of P. falciparum examined.

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Susceptibility ofBrugia malayiandOnchocerca lienalismicrofilariae to nitric oxide and hydrogen peroxide in cell-free culture and from IFNγ-activated macrophages

Taylor

Cross

Mohammed

et al. 1996

Parasitology

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The susceptibility of Brugia malayi and Onchocerca lienalis microfilariae to H2O2 and NO either in cell-free culture or from IFN gamma-activated macrophages was examined. In cell-free culture, O. lienalis microfilariae were highly susceptible to H2O2 induced toxicity, exhibiting rapid reductions in motility and viability. The addition of exogenous catalase abrogated H2O2-induced killing. In contrast, B. malayi microfilariae were relatively resistant to H2O2, with concentrations as high as 50 microM having no effect on motility or viability. On exposure to NO, both species showed reductions in motility within 5-30 min, but longer was required to see effects on the viability of microfilariae. Parasites incubated with IFN gamma-activated macrophages also exhibited marked reductions in motility and viability. In cultures with B. malayi and activated macrophages, inhibition of these effects was achieved by the addition of either L-NMMA, to abolish NO production, or neutralizing anti-TNF alpha antibodies. Attempts to inhibit parasite killing by the addition of catalase to macrophage cultures were ineffective. The results of this study show that B. malayi and O. lienalis microfilariae have different susceptibility to H2O2, but are equally affected by exposure to NO. Moreover both species are killed by IFN gamma-activated macrophages and in the case of B. malayi, killing is dependent on the generation of NO via TNF alpha.

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Expression and Secretion of a Larval-specific Chitinase (Family 18 Glycosyl Hydrolase) by the Infective Stages of the Parasitic Nematode, Onchocerca volvulus

Egerton

Underwood

et al. 2001

Journal of Biological Chemistry

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A recently reported chitinase gene, expressed in the infective, third-stage (L3) larvae of the human filarial parasite Onchocerca volvulus, belongs to the family 18 glycosyl hydrolases and has been designated Ov-chi-1. The gene product of Ov-chi-1 is chitinolytic. Allosamidin ablates activity of the native enzyme in a dose-dependent manner but did not significantly inhibit the moulting of L3 larvae. Mono-specific antibodies were used to characterize Ov-CHI-1 as a 60-kDa protein expressed almost exclusively in L3 stages. Immunoelectron microscopy showed that Ov-CHI-1 expression is initiated in late L2 larvae and increases markedly in infective, L3 larvae. It is synthesized exclusively in the glandular esophagus and stored within discrete secretory granules. Secretion occurs through de-granulation during post-infective development, and the primary route of transport appears to be via the pseudo-coelom. An orthologue of Ov-chi-1 was detected in Caenorhabditis elegans by BLAST analysis. It is constitutively expressed at a low level and is overexpressed in dauer larvae and embryonated eggs. It is chitinolytic. We conclude that Ov-CHI-1 is a highly stage-specific enzyme that may have a role in infectivity of the parasite, aiding escape from the vector or participating in early post-infective migration and/or development. The identification of an orthologue in C. elegans opens the way for further studies into the biological function(s) of this intriguing parasite product.

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Chromosome size polymorphisms in plasmodium falciparum can involve deletions and are frequent in natural parasite populations

Corcoran

Forsyth

Bianco

et al. 1986

Cell

165

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A. E. Bianco

Immune sera recognize on erythrocytes a Plasmodium falciparum antigen composed of repeated amino acid sequences

Susceptibility ofBrugia malayiandOnchocerca lienalismicrofilariae to nitric oxide and hydrogen peroxide in cell-free culture and from IFNγ-activated macrophages

Expression and Secretion of a Larval-specific Chitinase (Family 18 Glycosyl Hydrolase) by the Infective Stages of the Parasitic Nematode, Onchocerca volvulus

Chromosome size polymorphisms in plasmodium falciparum can involve deletions and are frequent in natural parasite populations

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