CSM News
Electronic Edition
Volume 5, number 12
October 28, 1995

Please submit abstracts of your papers as soon as they have been
accepted for publication by sending them to CSM-News@worms.cmsbio.nwu.edu.

Back issues of CSM-News, the CSM Reference database and other useful
information is available by anonymous ftp from worms.cmsbio.nwu.edu
[165.124.233.50], via Gopher at the same address, or by World Wide Web
at the URL "http://worms.cmsbio.nwu.edu/dicty.html"

============================
 Postdoc Position Available
============================

Postdoctoral position available for studies on the role of the cell
cycle in cell type determination in Dictyostelium.  Experience with
gene manipulation techniques and protein and immunological
methodologies would be an asset.  The position is available
immediately but the exact starting date is negotiable.

Send curriculum vitae with names of references to Gerry Weeks,
Department of Microbiology and Immunology, University of British
Columbia, Vancouver, B.C., V6T 1Z3; fax 604-822-6041
                    
===========
 Abstracts
===========

Almuth Behrisch*, Christian Dietrich*, Angelika A. Noegel", Michael Schleicher& and Erich Sackmann* 

*Technische Universitaet Muenchen, "MPI f. Biochemie, Martinsried,
&Ludwig-Maximilians-Universitaet Muenchen

THE ACTIN-BINDING PROTEIN HISACTOPHILIN BINDS IN VITRO TO PARTIALLY CHARGED MEMBRANES AND MEDIATES ACTIN COUPLING TO MEMBRANES

Biochemistry, in press 

Summary

The interaction of the actin-binding protein hisactophilin from
Dictyostelium discoideum amoebae to partially charged lipid membranes
composed of mixtures of L-alpha-dimyristoylphosphatidylcholine (DMPC)
with L-alpha-dimyristoylphosphatidylglycerol (DMPG) and
L-alpha-phosphatidylinositol 4,5-bisphosphate (PIP2) is studied by
film balance experiments, microfluorescence and lateral diffusion
measurements at low ionic strengths (~20mM). Excess surface
concentrations and adhesion energies of the protein are evaluated by
the application of Gibbs law of surface excess as a function of
charged lipid content. Protein expressed in E. coli lacking a myristic
acid chain (EC-HIS) and natural protein with a fatty acid (DIC-HIS)
isolated from Dictoystelium cells are compared. For mixtures of DMPG
and DMPC protein binding leads to an increase in lateral pressure of
the monolayser (at constant area) and causes strong lipid
immobilization pointing to partial penetration of the protein into the
lipid layer. The natural protein causes a much stronger immobilization
than EC-HIS. For a given bulk concentration the adsorbed
protein-to-lipid molar ratio increases with the molar fraction x(PG)
of charged lipid but saturates at about 50 mole% of DMPG. Natural
hisactophilin (DIC-HIS) binding to PIP2-containing monolayers is
purely electrostatic at low bulk concentration c(b) and protein
penetration dominates only at c(b) >68nM.  Fluorescence experiments
demonstrate that the natural protein (DIC-HIS) can mediate binding of
monomeric actin or very small oligomers to membranes, showing that the
adsorbed protein remains functional. In contrast, the recombinant
hisactophilin (EC-HIS) can mediate only the membrane coupling of
larger actin structures.

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tagB Expression and Prestalk Divergence in Dictyostelium are
Independent of DIF-1

Gad Shaulsky and William F. Loomis

Center for Molecular Genetics, Department of Biology, University of California, San Diego, La Jolla CA 92093

Developmental Biology, in press

Summary

     Differentiation in Dictyostelium leads to divergence of prespore
and prestalk cells.  Cell type specific genes can be used as
diagnostic and predictive tools for studying cell type divergence.
Here we describe the cell type specificity of the recently discovered
gene tagB.  The 5' untranslated region of tagB was used to express
E. coli =DF-galactosidase in wild type cells and in tagB- mutants.
The results showed that tagB is a prestalk specific gene which is
expressed early in development. tagB expression can be used to mark
the differentiation of PST-I cells, the initial prestalk population,
PST-A cells that will eventually form the stalk, and PST-O cells that
will eventually form the upper and the lower cups surrounding the
sorus.  Anterior-like cells and basal disk cells were not efficiently
labeled with tagB::lacZ.  The expression of tagB was independent of
the prestalk morphogen DIF-1 and so was the expression of another
prestalk specific gene, carB.  We conclude that the initiation of
prestalk development is not dependent on DIF-1 and suggest that the
morphogen participates in maintaining a differentiated prestalk stage
rather than inducing it.

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Dictyostelium myosin II is regulated during chemotaxis by a novel
protein kinase
 
Abu Elneel, K., Karchi, M., and Ravid, S. 

Department of Biochemistry, Hadassah Medical School, The Hebrew
University, Jerusalem 91120, Israel

J. Biol. Chem., in press

Summary

   The myosin II heavy chain (MHC) specific protein kinase C (MHC-PKC)
isolated from Dictyostelium discoideum has been implicated in the
regulation of myosin II assembly in response to the chemoattractant,
cAMP (Ravid, S., and Spudich, J. A. ( 1989) J. Biol. Chem. 264,
15144-15150).  Here we report that elimination of MHC-PKC results in
the abolishment of MHC phosphorylation in response to cAMP.  Cells
devoid of MHC-PK C exhibit substantial myosin II overassembly, as well
as aberrant cell polarization, chemotaxis and morphological
differentiation.  Cells overexpressing the MHC-PKC contains highly
phosphorylated MHC and exhibit impaired myosin II localization and no
apparent cell polarization and chemotaxis.  The results presented here
provide direct evidence that MHC-PKC phosphorylates MHC in response to
cAMP and plays an important role in the regulation of myosin II
localization during chemotaxis.

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CALMIDAZOLIUM LEADS TO AN INCREASE IN THE CYTOSOLIC CA2+ CONCENTRATION
IN DICTYOSTELIUM DISCOIDEUM BY INDUCTION OF CA2+-RELEASE FROM
INTRACELLULAR STORES AND INFLUX OF EXTRACELLULAR CA2+

Christina Schlatterer and Ralph Schaloske

Fakultaet fuer Biologie, Universitaet Konstanz, D-78434 Konstanz

Biochem J, in press

Summary

   The Ca2+-stores of Dictyostelium discoideum amoebae take part in
the control of the [Ca2+]i-homeostasis and the cAMP-induced [Ca2+]i-
signaling cascade. In order to characterize regulatory mechanisms of
these stores we incubated cells with the calmodulin antagonist
calmidazolium.  Measurement of permeabilized and intact cells in
suspension with a Ca2+- sensitive electrode revealed that
calmidazolium induced Ca2+-release from intracellular stores, influx
of Ca2+ across the plasma membrane and subsequent efflux. In single,
fura-2 loaded cells calmidazolium evoked rapid and global transient
elevations of [Ca2+]i. Other calmodulin antagonists (trifluoperazine,
chlorpromazine, fendiline and W7) also induced transient elevations of
[Ca2+]i, which were, however, slower and observed in fewer cells. The
calmidazolium-induced influx of extracellular Ca2+ was inhibited by
preincubation with BHQ and NBD-Cl, both known to interact with pumps
of the IP3-sensitive store, and by the V-type H+-ATPase inhibitor
bafilomycin A1 which affects the acidosomal Ca2+ store. Incubation
with pump inhibitors did not induce changes in [Ca2+]i per se. We
conclude that the effects of calmidazolium are, at least in part,
mediated by its calmodulin-antagonizing properties, that it acts by
inducing Ca2+-release from filled storage compartments and that its
target of action is both the IP3-sensitive store and the acidosome;
emptying of these stores leads to influx of extracellular Ca2+.

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Antagonistic effects of signal transduction by intracellular and
extracellular cAMP on gene regulation in Dictyostelium.


Ingrid Endl, Angelika Konzok, and Wolfgang Nellen*

MPI f. Biochemie, D-82152 Martinsried, and Univ. of Kassel,
Dept. Genetics, Heinrich-Plett-Str. 40, D-34109 Kassel, Germany

Summary

   In Dictyostelium, cAMP plays a role as an intracellular second
messenger and in addition, as an extracellular first messenger. Both
functions are thought to be tightly linked because adenylyl cyclase is
coupled via G-proteins to the cell surface cAMP receptor cAR 1. Using
the discoidin I gene family as a molecular marker for the first stages
of development, we show here that induction of transcription requires
the G-protein subunit a2 and thus a yet unidentified surface receptor,
CRAC (cytosolic regulator of adenylyl cyclase) and PKA. Induction can
be conferred by an increase in intracellular cAMP. In contrast,
transcriptional down-regulation occurs by stimulation of cAR 1 with
extracellular cAMP (Blusch et al, 1995) and a subsequent, G-protein
independent Ca2+ influx. In a Ga2 gene disruption mutant, discoidin I
expression can be efficiently modulated by analogs simulating
intracellular cAMP (discoidin induction) and extracellular cAMP
(discoidin down-regulation). We thus demonstrate possible antagonistic
functions of intra- and extracellular cAMP.

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[End CSM News, volume 5, number 12]