Dicty News
Electronic Edition
Volume 9, number 14
November 22, 1997

Please submit abstracts of your papers as soon as they have been
accepted for publication by sending them to dicty@nwu.edu.

Back issues of Dicty-News, the Dicty Reference database and other useful
information is available at the Dictyostelium Web Page 
"http://dicty.cmb.nwu.edu/dicty/dicty.html"

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 Abstracts
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Mutual Relation between the Cell-cycle Progression and Prespore 
Differentiation in Dictyostelium Development

Tsuyoshi Araki and Yasuo Maeda*

Biological Institute, Graduate School of Science, Tohoku University, 
Aoba, Sendai 980-77, Japan

Zool. Sci., in press

Abstract:

   In Dictyostelium discoideum Ax-2, the cell-cycle progression from 
the early aggregate to mound stage has been proposed to have some 
connection with prespore differentiation. Hereupon, we examined the 
role of cell-cycle progression during the development on cell 
differentiation, using two kinds of cell-cycle inhibitors. Nocodazole, 
an inhibitor of microtubule formation, was found to inhibit greatly 
cell division around the mound stage as well as during the vegetative 
growth phase, when applied to exponentially growing Ax-2 cells. 
Essentially the same inhibition was attained by treatment of starved 
Ax-2 cells with calyculin A, an inhibitor of serine/threonine protein 
phosphatases. It noteworthy that the nocodazole- or calyculin A-treated 
cells exhibit abnormal morphogenesis to form a stick-like multicellular 
structure on non-nutrient agar, and also that prespore differentiation 
as exemplified by the prespore-specific Dp87 gene expression and 
prespore specific vacuole (PSV) formation was greatly suppressed. In 
contrast, the differentiation of prestalk (pstA) cells was scarcely 
affected by the drug treatments. Taken together these results seem 
to indicate that the cell-cycle progression around the mound stage 
is important for prespore differentiation.

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Cells at the centre of Dictyostelium aggregates become spores

Hao-Jen Huang, David Tanagawa, Gerald Weeks and Catherine Pears

Dev. Biol in press

Abstract:

   The cellular slime mould Dictyostelium discoideum undergoes a 
developmental life cycle on starvation to generate a fruiting body 
consisting of a mass of spores supported on a stalk of dead, vacuolated 
cells. The choice between alternative cell fates is influenced by a 
variety of factors including cell cycle position at the onset of 
starvation. We present evidence to suggest that the cell cycle position 
influences cell fate by determining the position of cells in the early 
aggregate. The existence of a strain which cannot initiate development 
on its own but which can respond to signals generated by non-mutant 
cells has allowed us to investigate the eventual cell fate of the 
initiating cells which are, by definition, at the centre of the early 
aggregate. Cells which have a propensity to become prespore cells show 
an increased efficiency in initiating development of this strain. 
Labelling the initiating cells by the expression of green fluorescent 
protein reveals that these cells become spores. The higher levels of 
expression of genes characteristic of early development in cells with 
a prespore tendency is consistent with the earlier expression of the 
components of relay in prespore cells.

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Coupling between catalysis and oligomeric structure in NDP kinase.

Sebastien MESNILDREY, Fabrice AGOU, Anna KARLSSON, Dominique 
DEVILLE-BONNE and Michel VERON.

Unite de Regulation Enzymatique des Activites Cellulaires, Institut
Pasteur, CNRS UMR 321, 25 rue du Docteur Roux, 75724 Paris cedex 15, 
France

J. Biol. Chem., in press

Absract:
   A dimeric Dictyostelium NDP kinase has been stabilized by the double 
mutation P100S-N150stop which targets residues involved in the trimer 
interface (Karlsson et al., (1996) J. Biol. Chem., 271, 19928-19934). 
The reassociation of this dimeric form of into a hexamer similar to the 
wild type enzyme is induced by the presence of a nucleotide substrate. 
Equilibrium sedimentation and gel filtration experiments, as well as 
enzymatic activity measurements, show that reactivation of the enzyme 
closely parallels its reassociation. A phosphorylatable intermediate 
with low activity participates in the association pathway while the 
dimeric form is shown totally devoid of enzymatic activity. Our results 
support the hypothesis that different oligomeric species of NDP kinase 
are involved in different cellular processes where the enzymatic 
activity is not required.

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The in vitro DNA-binding properties of NDP kinase are related to its 
oligomeric state.

Sébastien MESNILDREY, Fabrice AGOU and Michel VERON.

Unite de Regulation Enzymatique des Activites Cellulaires, Institut
Pasteur, CNRS UMR 321, 25 rue du Docteur Roux, 75724 Paris cedex 15, 
France

FEBS Letters, in press.

Abstract:

   Genetic and biochemical evidences suggest that the enzymatic 
activity of NDP kinase is necessary but not sufficient for its 
biological function. While the human NDPK B binds specifically 
single-strand poly-pyrimidines sequences, the hexameric enzyme 
from Dictyostelium does not. We demonstrated by Electrophoretic 
Mobility Shift Assay and Filter Binding Assay that a dimeric mutant 
from Dictyostelium binds to an oligodesoxynucleotide while the wild 
type does not. These data suggest that the differences in the DNA-binding
properties of several eucaryotic NDP kinases might be correlated to 
the differences in the stability of their hexameric structure.
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The biosynthesis of DIF, a chlorinated signal molecule regulating
Dictyostelium development

Robert R. Kay

MRC Laboratory of Molecular Biology, Hills Road, Cambridge, 
CB2 2QH, UK 

J. Biol. Chem., in press.

Summary

   DIF-1 is a chlorinated alkyl phenone released by developing 
Dictyostelium amoebae, which induces them to differentiate into 
stalk cells.  A biosynthetic pathway for DIF-1 is proposed from 
labeling, inhibitor and enzymological experiments.  Cells incorporate 
36C1- into DIF-1 during development, showing that the chlorine atoms 
originate from chloride ions; peak incorporation is at the first 
finger stage.  DIF-1 synthesis can be blocked by cerulenin, a 
polyketide synthase inhibitor, suggesting that it is made from a 
polyketide.  This is most likely the C12 polyketide THPH.  Feeding 
experiments confirm that living cells can convert THPH to DIF-1.  
Conversion requires both chlorination and methylation of THPH and 
enzymatic activities able to do this exist in cell lysates.  The 
chlorinating activity, assayed using 36C1-, is stimulated by H2O2 
and requires both soluble and particulate components.  It is specific 
for THPH and does not use this compound after O-methylation.  The 
methyltransferase is soluble, uses AdoMet as a co-substrate, has a 
Km for dichloro-THPH of about 1.1 micro-molar and strongly prefers 
this substrate to close analogues.  Both chlorinating and 
methyltransferase activities increase in development, in parallel with 
DIF-1 production and both are greatly reduced in a mutant strain that 
makes little DIF-1.  It is proposed that DIF-1 is made by the initial 
assembly of a C12 polyketide skeleton, which is then chlorinated and 
methylated.

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Cloning and transcriptional regulation of the gene encoding the 
vacuolar/H+ ATPase B subunit of Dictyostelium discoideum

Enrico Bracco1, Barbara Peracino1, Angelika A. Noegel2$, Salvatore 
Bozzaro1*

FEBS Lett., in press

Summary:

	The main function of vacuolar H+-ATPases in eukaryotic 
cells is to generate proton and electrochemical gradients across the 
membrane of inner compartments. We have isolated the gene encoding 
the B subunit of Dictyostelium discoideum vacuolar H+-ATPase (vatB) 
and analyzed its transcriptional regulation. The deduced protein 
comprises 493 aminoacids with a calculated molecular mass of 54,874 
Da. The predicted protein sequence is highly homologous to previously 
determined V/H+ ATPase B subunit sequences. The protein is encoded by 
a single gene in the Dictyostelium genome. The gene is maximally 
expressed during growth and it decreases during the first hours of 
development. Gene expression is rapidly enhanced by phagocytosis not 
however by fluid-phase endocytosis. Acidic and alkaline conditions 
affect differently vatB gene expression.

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cGMP potentiates receptor-stimulated Ca2+ influx in Dictyostelium 
discoideum

Hidekazu Kuwayama and Peter J.M. Van Haastert

Department of Biochemistry, University of Groningen, Nijenborgh 4, 
9747 AG Groningen, The Netherlands

Biochimica et Biophysica Acta, in press.

Abstract

   Binding of extracellular cAMP to surface receptors induces at 
least two responses in Dictyostelium discoideum, the G-protein-dependent 
activation of guanylyl cyclase, and the opening of a plasma membrane 
Ca2+ channel. Some experiments suggest that intracellular cGMP opens 
the Ca2+ channel, while others demonstrate that the channel can open 
in the absence of functional G-proteins (and thus in the absence of 
cGMP formation). We have analyzed 45Ca2+ uptake in three mutants with 
altered cGMP formation. Mutant stmF shows a prolonged cGMP response 
due to deletion of an intracellular phosphodiesterase. Uptake of 
receptor-stimulated 45Ca2+ is enhanced about 2-fold in this mutant 
if compared to wild-type cells, suggesting that cGMP regulates the 
opening of the channel. Mutant KI-7 has very low levels of surface 
cAMP receptors, but nevertheless an enhanced receptor-stimulated 
cGMP response due to a defect in the turn-off of guanylyl cyclase. 
This mutant shows poor receptor-stimulated 45Ca2+ uptake, suggesting 
that cGMP alone is not sufficient to open the Ca2+ channel. Finally, 
mutant KI-8 has no cGMP due to the absence of nearly all guanylyl 
cyclase activity. The mutant shows significant but reduced 45Ca2+ 
uptake (19 % of wild-type; 60 % if corrected for the reduced level 
of surface cAMP receptors), suggesting that the channel can open in 
the absence of cGMP. Taken together, the results demonstrate that 
receptor-stimulated Ca2+ influx is not directly induced by cGMP 
formation; it can occur in the absence of cGMP, but is potentiated 
2-4 fold by cGMP. 

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[End Dicty News, volume 9, number 14]