L. Auerswald et G. Gade, Cyclic AMP mediates the elevation of proline by AKH peptides in the cetoniid beetle, Pachnoda sinuata, BBA-MOL CEL, 1495(1), 2000, pp. 78-89
Citations number
31
Categorie Soggetti
Cell & Developmental Biology
Journal title
BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR CELL RESEARCH
The role of cyclic nucleotides in the transduction of the hyperprolinaemic
and hypertrehalosaemic signal of the endogenous neuropeptide Mem-CC was inv
estigated in the cetoniid beetle Pachnoda sinuata. Flight and injection of
Mem-CC into the haemocoel of the beetle induce an increase of cAMP levels i
n the fat body of the beetle. This increase is tissue-specific and does not
occur in brain and flight muscles. An elevation of cAMP levels was also fo
und when in vitro preparations of fat body tissue were subjected to Mem-CC.
Elevation of the cAMP concentration after injection of Mem-CC is time- and
dose-dependent: the maximum response is measured after 1 min, and a dose o
f 25 pmol Mem-CC is needed. Injection of cpt-cAMP, a cAMP analogue which pe
netrates the cell membrane, causes a stimulation of proline synthesis but n
o mobilisation of carbohydrate reserves. The same is measured when IBMX, an
inhibitor of phosphodiesterase, is injected. cGMP seems not to be involved
in synthesis of proline nor carbohydrate release, because injection of cpt
-cGMP has no influence on the levels of proline. alanine and carbohydrates
in the haemolymph. Although glycogen phosphorylase of the fat body is activ
ated by Mem-CC in a time- and dose-dependent manner, it cannot be stimulate
d by cpt-cAMP. The combined data suggest that cAMP is involved in regulatio
n of proline levels by Mem-CC but not in regulation of carbohydrates. Octop
amine has no effect on metabolites in the haemolymph and is not capable of
activating glycogen phosphorylase, indicating that it is not involved in th
e regulation of substrates in this beetle. Furthermore, the requirements of
the receptor of Mem-CC are different for eliciting a hypertrehalosaemic an
d a hyperprolinaemic effect, respectively, suggesting that differentiation
in signal transduction begins at the receptor level. (C) 2000 Elsevier Scie
nce B.V. All rights reserved.