Cytoskeletal rearrangements in human red blood cells induced by snake venoms: light microscopy of shapes and NMR studies of membrane function

Tsz Wai Yau, Rhiannon P. Kuchel, Jennifer M. S. Koh, David Szekely, Peter J. Mirtschin, Philip W. Kuchel

    Research output: Contribution to journalArticlepeer-review

    13 Citations (Scopus)

    Abstract

    RBCs (red blood cells) circulating through narrow blood capillaries withstand major deformation. The mechanical and chemical stresses commonly exerted on RBCs continue to attract interest for the study of membrane structure and function. Snake venoms are lethal biochemical ‘cocktails’ that often contain haemotoxins, metalloproteinases, myotoxins, neurotoxins, phosphodiesterases, phospholipases and proteases. We have monitored the effects of 4 snake venoms (Pseudechis guttatus, Oxyuranus scutellatus, Notechis scutatus and Naja kaouthia) on human RBCs using NMR spectroscopy, DIC (differential interference contrast) and confocal light microscopy. RBCs underwent reproducible stomatocytosis, with unusual geographical-like indentations, spherocytosis, followed by rapid lysis. Confocal micrographs using a fluorescent dye linked to phalloidin showed that the change in morphology was associated with the aggregation of actin in the cytoskeleton. ³¹P NMR saturation transfer experiments recorded transport of the univalent anion HPA (hypophosphite) on a subsecond time scale, thereby reporting on the function of capnophorin or Band 3 linked to the cytoskeleton; anion-exchange activity was substantially reduced by venom treatment. We propose a molecular-cytological hypothesis for the shape and functional changes that is different from, or supplementary to, the more ‘traditional’ bilayer-couple hypothesis more often used to account for similar morphological changes invoked by other reagents.
    Original languageEnglish
    Pages (from-to)87-97
    Number of pages11
    JournalCell Biology International
    Volume36
    Issue number1
    DOIs
    Publication statusPublished - 2012

    Keywords

    • Bilayer-couple hypothesis
    • Haemolysis
    • Human red blood cell
    • Light microscopy
    • Phospholipase A₂
    • Red blood cell cytoskeleton
    • Snake venom

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