Kazimiera Waśniowska scite author profile

A 175-kilodalton erythrocyte binding protein, EBA-175, of the parasite Plasmodium falciparum mediates the invasion of erythrocytes. The erythrocyte receptor for EBA-175 is dependent on sialic acid. The domain of EBA-175 that binds erythrocytes was identified as region II with the use of truncated portions of EBA-175 expressed on COS cells. Region II, which contains a cysteine-rich motif, and native EBA-175 bind specifically to glycophorin A, but not to glycophorin B, on the erythrocyte membrane. Erythrocyte recognition of EBA-175 requires both sialic acid and the peptide backbone of glycophorin A. The identification of both the receptor and ligand domains may suggest rational designs for receptor blockade and vaccines.

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Postcapillary venule endothelial cells in kidney express a multispecific chemokine receptor that is structurally and functionally identical to the erythroid isoform, which is the Duffy blood group antigen.

Hadley

Lü²,

Waśniowska³

et al. 1994

J. Clin. Invest.

197

108

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Structure–function analysis of the extracellular domains of the Duffy antigen/receptor for chemokines: characterization of antibody and chemokine binding sites

et al. 2003

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Summary. The Duffy antigen/receptor for chemokines (DARC), a seven-transmembrane glycoprotein carrying the Duffy (Fy) blood group, acts as a widely expressed promiscuous chemokine receptor. In a structure-function study, we analysed the binding of chemokines and anti-Fy monoclonal antibodies (mAbs) to K562 cells expressing 39 mutant forms of DARC with alanine substitutions spread out on the four extracellular domains (ECDs). Using synthetic peptides, we defined previously the Fy6 epitope (22-FEDVW-26), and we characterized the Fy a epitope as the linear sequence 41-YGANLE-46. In agreement with these results, mutations of F22-E23, V25 and Y41, G42, N44, L45 on ECD1 abolished the binding of anti-Fy6 and anti-Fy a mAbs to K562 cells respectively, Anti-Fy3 binding was abolished by D58-D59 (ECD1), R124 (ECD2), D263 and D283 (ECD4) substitutions. Mutations of C51 (ECD1), C129 (ECD2), C195 (ECD3) and C276 (ECD4 severely reduced anti-Fy3 and CXC-chemokine ligand 8 (CXCL-8) binding. CXCL-8 binding was also abrogated by mutations of F22-E23, P50 (ECD1) and D263, R267, D283 (ECD4). These results defined the Fy a epitope and suggested that (1) two disulphide bridges are involved in the creation of an active chemokine binding pocket; (2) a limited number of amino acids in ECDs 1-4 participate in CXCL-8 binding; and (3) Fy3 is a conformation-dependent epitope involving all ECDs. We also showed that N-glycosylation of DARC occurred on N16SS and did not influence antibody and chemokine binding.

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A recombinant dromedary antibody fragment (VHH or nanobody) directed against human Duffy antigen receptor for chemokines

Smolarek

Hattab

Hassanzadeh-Ghassabeh

et al. 2010

Cell. Mol. Life Sci.

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Fy blood group antigens are carried by the Duffy antigen receptor for chemokines (DARC), a red cells receptor for Plasmodium vivax broadly implicated in human health and diseases. Recombinant VHHs, or nanobodies, the smallest intact antigen binding fragment derivative from the heavy chain-only antibodies present in camelids, were prepared from a dromedary immunized against DARC N-terminal extracellular domain and selected for DARC binding. A described VHH, CA52, does recognize native DARC on cells. It inhibits P. vivax invasion of erythrocytes and displaces interleukin-8 bound to DARC. The targeted epitope overlaps the well-defined DARC Fy6 epitope. K (D) of CA52-DARC equilibrium is sub-nanomolar, hence ideal to develop diagnostic or therapeutic compounds. Immunocapture by immobilized CA52 yielded highly purified DARC from engineered K562 cells. This first report on a VHH with specificity for a red blood cell protein exemplifies VHHs' potentialities to target, to purify, and to modulate the function of cellular markers.

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Structural characterization of the epitope recognized by the new anti‐Fy6 monoclonal antibody NaM185‐2C3

Waśniowska

Petit-LeRoux

Tournamille

et al. 2002

Transfusion Medicine

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The epitope recognized by a new anti-Fy6 monoclonal antibody (MoAb) (clone name: NaM185-2C3) was characterized using peptides synthesized on pins (Epitope scanning kit). The clone was obtained from splenocytes of mice immunized with CHO cells expressing the recombinant Duffy glycoprotein. NaM185-2C3 recognized a linear epitope, the essential portion of which was pentapeptide Phe-Glu-Asp-Val-Trp comprising amino acid residues 22-26 of the main (336aa) isoform of the Duffy antigen. All the amino acid residues of the epitope, except Asp, were essential for the antibody-binding, because they could not be replaced by any or most other amino acid residues. The Asp residue could be replaced by most other amino acid residues and its replacement by some amino acid residues gave a distinct increase in the antibody-binding. The MoAb NaM185-2C3, similarly as other anti-Fy6 antibodies, inhibits interleukin (IL)-8-binding to the Duffy antigen. A part of the results was presented at ISBT meeting (Blanchard et al., 1998, Vox Sanguinis, 74, S1, Abstract no. 71).

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The amino acids of M and N blood group glycopeptides are different

Waśniowska

Drzeniek

Lisowska

1977

Biochemical and Biophysical Research Communications

137

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A Single Point Mutation in the Gene Encoding Gb3/CD77 Synthase Causes a Rare Inherited Polyagglutination Syndrome

Suchanowska

Kaczmarek

Duk

et al. 2012

Journal of Biological Chemistry

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Background: Inheritable NOR polyagglutination is a rare phenomenon caused by the unusual Gal(␣1-4)GalNAc glycolipid epitope. Results: A point mutation, 631 CϾG, in the gene encoding Gb3/CD77 synthase causes the enzyme to synthesize both Gal(␣1-4)Gal-and Gal(␣1-4) GalNAc-moieties. Conclusion:The results pinpoint the cause of the NOR phenotype. Significance: This is the first report of an altered acceptor specificity of a glycosyltransferase caused by a point mutation.

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VHH (nanobody) directed against human glycophorin A: A tool for autologous red cell agglutination assays

Habib¹,

Smolarek²,

Hattab³

et al. 2013

Analytical Biochemistry

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