Shidong Su scite author profile

Shidong Su

5Publications

29Citation Statements Received

26Citation Statements Given

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Georgetown University, Roswell Park Cancer Institute

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Untitled

Clark

Su²,

Davidson³

1997

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The asexual erythrocytic stage of Plasmodium falciparum was grown in culture in the presence or absence of glycoconjugate polyanions of varying structure, size and substitutions. Heparin, dextran sulfate, fucoidan and pentosan polysulfate had antimalarial IC50 values between one and 11 microg ml(-1). Constituent heparin disaccharides were ineffective against the malaria parasite and desulfation from either the O- or N-substitution sites of heparin or reduction of the uronic acid carboxyl group neutralized the antimalarial response to varying degrees. Immobilization of heparin onto agarose beads still permitted antimalarial activity suggesting that parasite uptake of the glycoconjugate is not required for inhibition. Accordingly, it is concluded that invasion of free parasites into the erythrocytes was inhibited rather than parasite maturation within the red cell. Merozoite surface antigen-1 was apparently prevented from binding to human erythrocytes in the presence of highly sulfated polyanions and, in a dose-dependent fashion, heparin.

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A monoclonal antibody capable of blocking the binding of Pf200 (MSA-1) to human erythrocytes and inhibiting the invasion of Plasmodium falciparum merozoites into human erythrocytes.

Ifon

Davidson

1993

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Glycophorin A is a major receptor on human erythrocytes for Plasmodium falciparum, the human malaria parasite. In this work, we have produced four glycophorin A-specific mAb: 2B10, 1E4, 3H12, and 3H2. 2B10 was mapped to the amino terminal region of glycophorin (amino acids 1-31), and its binding to erythrocytes was fully dependent on sialic acid residues. 3H2 bound to the region close to the cell membrane, and its binding to Wr (b-) erythrocytes was significantly decreased, compared with its binding to Wr (b+) erythrocytes. 1E4 and 3H12 recognized sites between those identified by 2B10 and 3H2. Pf200 (MSA-1) is a surface protein on the P. falciparum merozoite which has been shown to bind to erythrocytes. By reciprocal inhibition assays, 2B10 and MSA-1 could be shown to share the same determinant on erythrocytes. Using an in vitro assay, we have shown that 2B10 was the most efficient inhibitor of the invasion of human erythrocytes by P. falciparum merozoites. We conclude that the binding site for MSA-1 is primarily located on the amino terminal region, amino acids 1-31, of glycophorin A, and that 2B10 is valuable for additional study of the interactions between P. falciparum merozoites and human erythrocytes.

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A nontoxic, idiotope vaccine against gram-negative bacterial infections.

Ward²,

Apicella³

et al. 1992

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Experiments were performed to test the ability of mouse antiidiotopic mAb, specific for an antilipid A mAb, to act as a vaccine against gram-negative bacterial infections. Lipid A is a conserved region of bacterial LPS. Immunization with the antiidiotopic antibodies, coupled to an immunogenic carrier protein (hemocyanin), specifically induced anti-LPS antibody responses in animals from different species. In a mouse model, this immunization resulted in protection against both lethal gram-negative bacteremia and endotoxemia. The antiidiotopic antibodies, however, did not stimulate endotoxin-associated bioactivities, such as induction of TNF and IL-1. These results support the hypothesis that an idiotope vaccine can stimulate beneficial protective immunity against gram-negative infections without the toxicity inherent in LPS.

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Analysis of the immune response to lipopolysaccharide. Existence of an interspecies cross-reactive idiotype associated with anti-lipid A antibodies.

Ward

Apicella

et al. 1990

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LPS is the major surface glycolipid on gram-negative bacteria. In this work, we have idiotypically characterized the antibody response against LPS in different species. To do this, we have produced mAb against LPS. Binding of many of these antibodies to LPS could be inhibited by LPS and lipid A, indicating that the monoclonals are specific for lipid A, the toxic moiety of the LPS molecule. One anti-lipid A antibody, IC9, proved protective against gram-negative bacteremia and endotoxic shock in murine protection models. We generated anti-idiotypic antibodies against IC9. The binding of several of these anti-Id to IC9 was specifically inhibited by lipid A. We used these anti-Id to characterize the anti-LPS response, and the results revealed that the IC9 Id is conserved in different species. The importance of an interspecies cross-reactive Id in the response to endotoxin and its relevance in vaccine development for septic shock are discussed.

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Primary structure of the variable region of monoclonal antibody 2B10, capable of inducing anti-idiotypic antibodies that recognize the C-terminal region of MSA-1 of Plasmodium falciparum

Yang

Ding

et al. 1996

Infect Immun

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Previously, we reported on the properties of a monoclonal antibody, 2B10, which has the same determinant on the human erythrocyte as MSA-1 of Plasmodium falciparum (FCR3 strain); the binding of both ligands to erythrocyte receptors was totally sialic acid dependent. In this work, rabbit anti-2B10 idiotypic antibodies were generated. The anti-idiotypic antibodies recognized both the erythrocyte binding site of 2B10 and the Cterminal region of MSA-1 (amino acids 1047 to 1640); they were able to inhibit 2B10 and MSA-1 binding to erythrocytes and partially prevent P. falciparum merozoites from invading erythrocytes. The utility of 2B10 in the study of the interaction between MSA-1 and human erythrocytes prompted us to determine the nucleotide and deduced amino acid sequences of its V H and V L regions. The data show that the 2B10 V H region is part of the J558 family and is especially homologous to BALB/c anti-nitrophenyl monoclonal antibody 21.1.43; the V L region belongs to the VK1 subgroup and comes from the same genomic locus as (NZB ؋ W)F 1 anti-DNA and C57BL anti-dextran monoclonal antibodies BXW-14 and 42.48.12.2, respectively. Most of the differences among the V H and V L segments are located in CDR1 and-3. The binding site of 2B10 contains both negatively and positively charged amino acid residues. The amino acid sequences of the 2B10 V H region and a region of MSA-1 from the Wellcome strain of P. falciparum (amino acids 1002 to 1115) share 43% similarity, and the amino acid sequences between the 2B10 V L region and another segment of the same MSA-1 (amino acids 1247 to 1394) share 48% similarity. We conclude that the interactions between erythrocyte receptors and their ligands, 2B10 and MSA-1, are related and that the C-terminal region of MSA-1 is the erythrocyte binding domain.

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Shidong Su

Untitled

A monoclonal antibody capable of blocking the binding of Pf200 (MSA-1) to human erythrocytes and inhibiting the invasion of Plasmodium falciparum merozoites into human erythrocytes.

A nontoxic, idiotope vaccine against gram-negative bacterial infections.

Analysis of the immune response to lipopolysaccharide. Existence of an interspecies cross-reactive idiotype associated with anti-lipid A antibodies.

Primary structure of the variable region of monoclonal antibody 2B10, capable of inducing anti-idiotypic antibodies that recognize the C-terminal region of MSA-1 of Plasmodium falciparum

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