Band 3 Antagonists, P-azidobenzylphlorizin and DIDS, Mediate Erythrocyte Shape and Flexibility Changes As Characterized by Digital Image Morphometry and Microfiltration

Overview

Journal J Membr Biol

Date 1994 Jul 1

PMID 7966249

Citations 2

Authors

D M Hoefner

M E Blank

B M Davis

D F DIEDRICH

Affiliations

Soon will be listed here.

Abstract

Two nonpenetrating membrane probes, p-azidobenzylphlorizin (p-AzBPhz) and 4,4'-diisothiocyano-2,2'-stilbene disulfonate (DIDS), have been shown in earlier studies to induce dose-dependent changes in red blood cell (RBC) shape and volume at the same low concentrations that inhibit anion transport. In the present work, these ligand-induced morphology and rheology changes were studied using video digital image morphometry (VDIM) and microfiltration techniques. The results of these experiments corroborate our earlier investigation. RBCs were filmed using a Nomarski optics microscope with video camera attachment and cell size and shape changes were computer analyzed using VDIM. Low microM p-AzBPhz or DIDS levels caused collapse of the cell's biconcave structure and cell flattening occurred within 1-2 sec after drug exposure. Higher doses of either agent converted cells to a new steady-state in which a concurrent limited increase in erythrocyte volume and blunt membrane protrusions were produced. These changes were reversed in less than 2 sec by washing the drug from the membrane. Both ligands increased the deformability of RBCs in a dose-dependent manner as determined by filtration through Nuclepore polycarbonate filters (3 microns pore diameter). The improvement in deformability of drug-treated sickle cells was much more dramatic than for normal cells at low p-AzBPhz concentrations. These results support our earlier conclusions that the ligands, through a common interaction with band 3, induce volume-associated cytoskeletal alterations which lead to changes in morphology and flexibility.

Citing Articles

Reduced DIDS-sensitive chloride conductance in Ae1-/- mouse erythrocytes.

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Augmented erythrocyte band-3 phosphorylation in septic mice.

Condon M, Feketova E, Machiedo G, Deitch E, Spolarics Z Biochim Biophys Acta. 2007; 1772(5):580-6.

PMID: 17382523 PMC: 1892314. DOI: 10.1016/j.bbadis.2007.02.004.

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