First published online August 31, 2007
Journal of Experimental Biology 210, 3245-3254 (2007)
Published by The Company of Biologists 2007
doi: 10.1242/jeb.007740
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
Sung Gu Lee1,
Brandon D. Bader1,
Ernest S. Chang2 and
Donald L. Mykles1,*
1 Department of Biology, Colorado State University, Fort Collins, CO 80523,
USA
2 Bodega Marine Laboratory, University of California-Davis, Bodega Bay, CA
94923, USA
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Fig. 1. Effects of eyestalk ablation on guanylyl cyclase expression in land crab
Gecarcinus lateralis tissues. Total RNA from intact and ES-ablated
animals was DNase-treated, reverse-transcribed, and PCR-amplified using
sequence-specific primers (see Materials and methods). PCR products after 35
cycles were resolved on 2% agarose gels (for Gl-GC-Iß, Gl-GC-III and
Gl-EF2) or 10% polyacrylamide gels (for Gl-GC-II), stained with Ethidium
Bromide, and quantified by scanning densitometry. (A) Reversed images of gels.
(B) Quantitative analysis from triplicate measurements for each tissue and
condition (mean ±1 s.e.m., N=3). Both Gl-GC-1ß ( 0N
and 32N isoforms were not distinguished; primers were directed to a
common sequence in the C terminus) and Gl-GC-III were expressed at high levels
in ES ganglia (EG), gill (Gi), ovary (Ov) and testis (Ts) from intact animals.
Tissues from intact animals differed in relative expression of the three
Gl-GC-II isoforms. Gl-GC-II(+9) was expressed at varying levels in all tissues
and was the dominant isoform in Y-organ (YO), gill, hepatopancreas (HP) and
gonad (Ov and Ts). Gl-GC-II(+18) was expressed at highest levels in heart
(Ht), claw muscle (CM) and thoracic muscle (TM). Gl-GC-II(+0) was expressed at
low levels in most tissues except ES ganglia, in which it was the major
isoform. ES ablation had no significant effect on Gl-GC-Iß (GC1),
Gl-GC-II (GC2) and Gl-GC-III (GC3) expression in most tissues (B). The only
exception was the increased expression of the Gl-GC-II(+18) isoform in claw
muscles from 3 days and 7 days post-ESA animals. Gl-EF2 was expressed at
similar levels in all tissues. Significant differences between means were
determined by one-way ANOVA post-hoc test (Fisher's PLSD); P
values are indicated with brackets (a, P<0.034; b,
P<0.013; c, P<0.023).
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Fig. 2. Regression analysis of Gl-GC-II(+18) isoform expression in striated muscles
as a function of ecdysteroid concentration in ES-ablated land crabs.
Gl-GC-II(+18) was significantly correlated with hemolymph ecdysteroid
concentration in claw muscle, but not in thoracic muscle or heart.
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Fig. 3. Effects of eyestalk ablation (ESA) on guanylyl cyclase and ecdysone
receptor expression in the Y-organ of land crabs. Total RNA from intact and
ES-ablated animals was DNase-treated, reverse-transcribed and PCR-amplified
using sequence-specific primers (see Materials and methods). (A) PCR products
after 35 cycles were resolved on a 2% agarose gel (for Gl-GC-Iß,
Gl-GC-III and Gl-EF2) or a 10% polyacrylamide gel (for Gl-GC-II) and stained
with Ethidium Bromide (reversed images). ESA increased mRNA levels of the two
Gl-GC-Iß isoforms (0N and 32N) and Gl-GC-III, but had no
effect on mRNA levels of Gl-GC-II(+9), Gl-GC-II(+0) and Gl-EF2. (B) Real-time
RT-PCR quantification of Gl-GC-1ß, Gl-GC-II, Gl-GC-III and EcR normalized
to Gl-EF2. The Gl-EF2 transcript copy numbers were 3.58x108
at Day 0, 2.15x108 at Day 1, 1.81x108 at Day
3 and 1.56x108 at Day 7 (The amount of cDNA from intact
animals was doubled in the PCR to compensate for low mRNA levels of
Gl-GC-Iß and Gl-GC-III; see Materials and methods). The data are
presented as the fold difference with respect to transcript levels in YOs from
intact animals (0 day post-ESA). The transcript copy numbers in intact YOs
before normalization were 1.01x1010 for Gl-GC-Iß,
1.30x108 for Gl-GC-II, 3.47x1010 for GC-III
and 5.00x105 for Gl-EcR. Gl-GC-Iß, Gl-GC-III and Gl-EcR
mRNA levels increased  tenfold, fourfold and twofold,
respectively, by 7 days post-ESA, whereas Gl-GC-II level was not significantly
correlated with days post-ESA.
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Fig. 4. Effect of 20-hydroxyecdysone (20E) injection on hemolymph ecdysteroid
concentration. Intact land crabs were injected with 20E or vehicle (10%
ethanol) and sampled at 4 h, 8 h, 12 h and 24 h after injection. Ecdysteroid
was quantified with radioimmunoassay. 20E caused a large, transient increase
in ecdysteroid concentration in the hemolymph (values are mean ± 1
s.e.m., N=10).
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Fig. 5. Effects of 20-hydroxyecdysone (20E) injection on expression of guanylyl
cyclases in hepatopancreas, testis, claw muscle and thoracic muscle. Intact
land crabs were injected with 20E or vehicle (10% ethanol) and tissues
collected at 4 h, 8 h and 12 h after injection. Total RNA was DNase-treated,
reverse-transcribed and PCR-amplified using sequence-specific primers (see
Materials and methods). PCR products after 35 cycles were resolved on 2%
agarose gels (for Gl-GC-Iß, Gl-GC-III and Gl-EF2) or 10% polyacrylamide
gels (for Gl-GC-II), stained with Ethidium Bromide, and quantified by scanning
densitometry. GC expression was normalized to Gl-EF2 (values are mean ±
1 s.e.m., N=3). Significant differences between means, obtained by
one-way ANOVA post-hoc test (Bonferroni–Dunn), are indicated
with brackets (a, P<0.05; b, P<0.01; c,
P<0.002).
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© The Company of Biologists Ltd 2007
