Proteomics and signal transduction in the crustacean molting gland

doi:10.1093/icb/icl047

Integrative and Comparative Biology Advance Access originally published online on October 3, 2006
Integrative and Comparative Biology 2006 46(6):965-977; doi:10.1093/icb/icl047

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© The Author 2006. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oxfordjournals.org.

Proteomics and signal transduction in the crustacean molting gland

Sung Gu Lee and Donald L. Mykles¹
Department of Biology, Colorado State University Fort Collins, CO 80523, USA

Correspondence: ¹E-mail: don{at}lamar.colostate.edu

Regulation of the molting cycle in decapod crustaceans involves2 endocrine organs: the X-organ/sinus gland (XO/SG) complexlocated in the eyestalk ganglia and the Y-organ (YO) locatedin the cephalothorax. Two neuropeptides [molt-inhibiting hormone(MIH) and crustacean hyperglycemic hormone (CHH)] are producedin the XO/SG complex and inhibit ecdysteroidogenesis in theYO. Thus, YO activation is induced by eyestalk ablation (ESA),which removes the primary source of MIH and CHH. Cyclic nucleotides(cAMP and cGMP) and nitric oxide (NO) appear to mediate neuropeptidesuppression of the YO. Proteomics was used to identify potentialcomponents of signal transduction pathways ("targeted" or cell-mapproteomics) as well as assess the magnitude of protein changesin response to activation ("global" or expression proteomics)in the tropical land crab, Gecarcinus lateralis. Total proteinsin YOs from intact and ES-ablated animals were separated bytwo-dimensional gel electrophoresis and expression profileswere assessed by image analysis and gene clustering software.ESA caused a >3-fold increase in the levels of 170 proteinsand >3-fold decrease in the levels of 89 proteins; a totalof 543 proteins were quantified in total YO extracts. ESA inducedsignificant changes in the levels of 3 groups of proteins elutingfrom a phosphoprotein column and detected with phosphoproteinstaining of two-dimensional gels; $~$ 17 kDa and $~$ 150 kDa phosphoproteinsincreased in activated YOs, while $~$ 12 kDa phosphoproteins decreased.A $~$ 150 kDa phosphoprotein, which was isolated only from activatedYO, was identified as NO synthase by western blotting and massspectrometry of trypsin peptides. These data show that phosphorylationof NO synthase is associated with activation of the YO. A neuropeptidesignaling pathway involving NO synthase and NO-sensitive guanylylcyclase is proposed.

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This article has been cited by other articles:

S. G. Lee, B. D. Bader, E. S. Chang, and D. L. Mykles
Effects of elevated ecdysteroid on tissue expression of three guanylyl cyclases in the tropical land crab Gecarcinus lateralis: possible roles of neuropeptide signaling in the molting gland
J. Exp. Biol., September 15, 2007; 210(18): 3245 - 3254.
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