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Biophys J, December 2002, p. 3416-3424, Vol. 83, No. 6
Departamento de Química Biológica, Facultad de Ciencias Químicas, Universidad Nacional de Córdoba, Ciudad Universitaria, 5000 Córdoba, Argentina
Lipid lateral organization is increasingly found to
modulate membrane-bound enzymes. We followed in real time the reaction course of sphingomyelin (SM) degradation by Bacillus
cereus sphingomyelinase (SMase) of lipid monolayers by
epifluorescence microscopy. There is evidence that formation of
ceramide (Cer), a lipid second messenger, drives structural
reorganization of membrane lipids. Our results provide visual evidence
that SMase activity initially alters surface topography by inducing
phase separation into condensed (Cer-enriched) and expanded
(SM-enriched) domains. The Cer-enriched phase grows steadily as the
reaction proceeds at a constant rate. The surface topography derived
from the SMase-driven reaction was compared with, and found to differ
from, that of premixed SM/Cer monolayers of the same lipid composition,
indicating that substantial information content is stored depending on
the manner in which the surface was generated. The long-range
topographic changes feed back on the kinetics of Smase, and the onset
of condensed-phase percolation is temporally correlated with a rapid
drop of reaction rate. These observations reveal a bidirectional
influence and communication between effects taking place at the local
molecular level and the supramolecular organization. The results
suggest a novel biocatalytic-topographic mechanism in which a surface
enzymatic activity can influence the function of amphitropic proteins
important for cell function.
Biophys J, December 2002, p. 3416-3424, Vol. 83, No. 6
© 2002 by the Biophysical Society 0006-3495/02/12/3416/09 $2.00
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