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Vol. 13, Issue 3, 1083-1098, March 2002
and
*Centre for Immunology, St. Vincent's Hospital, University
of New South Wales, Sydney, New South Wales, Australia; and
Mast cells undergo cytoskeletal restructuring to allow secretory
granules passage through the cortical actomyosin barrier to fuse with
the plasma membrane and release inflammatory mediators. Protein
phosphorylation is believed to regulate these rearrangements. Although
some of the protein kinases implicated in this phosphorylation are
known, the relevant protein phosphatases are not. At the peak rate of
antigen-induced granule mediator release (2.5 min), protein phosphatases PP1 and PP2A, along with actin and myosin II, are transiently relocated to ruffles on the apical surface and a band at
the peripheral edge of the cell. This leaves an area between the
nucleus and the peripheral edge significantly depleted (3-5-fold) in
these proteins. Phorbol 12-myristate 13-acetate (PMA) plus A23187
induces the same changes, at a time coincident with its slower rate of
secretion. Coimmunoprecipitation experiments demonstrated a
significantly increased association of myosin with PP1 and PP2A at the
time of peak mediator release, with levels of association decreasing by
5 min. Jasplakinolide, an inhibitor of actin assembly, inhibits
secretion and the cytoskeletal rearrangements. Surprisingly, jasplakinolide also affects myosin, inducing the formation of short
rods throughout the cytoplasm. Inhibition of PP2A inhibited secretion,
the cytoskeletal rearrangements, and led to increased phosphorylation
of the myosin heavy and light chains at protein kinase
C-specific sites. These findings indicate that a dynamic actomyosin cytoskeleton, partially regulated by both PP1 and PP2A, is
required for mast cell secretion.
Discipline of Medical Biochemistry, School of Biomedical
Sciences, Faculty of Medicine and Health Sciences, The University of
Newcastle, Callaghan, New South Wales, Australia
Corresponding author. E-mail address:
r.ludowyke{at}cfi.unsw.edu.au.
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