Calcification in Scleractinian Corals: The Role of Carbonic Anhydrase skeletal secretion...
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Calcification in Scleractinian Corals: The Role of Carbonic Anhydrase skeletal secretion
Scleractinian corals secrete a calcium carbonate skeleton (aragonite) soon after settlement on suitable substrate
Newly settled Favia fragum. Szmant
Brief Anatomy of a Scleractinian coral
Allemand et al. 2004
Moya, A. et al. 2006
Calcification rates are increased during daylight and are reduced at night.
Light enhanced calcification in the coral Stylophora pistillata. Is enhancement due to photosynthesis?
Proposed calcification mechanisms:
Calcium ion pathway in coral calcification has been well studied. Ca2+ ions are transported from the calicoblastic epithelial cells and into the subcalicoblastic area (site of calcification) via Ca2+ ATPases.
Allemand et al, 2002
Calcium ATPases localized to calicoblastic epithelium
Zoccola et al, 2004
Carbonic Anhydrase in the Scleractinian Coral Stylophora pistillata
Aurelie Moya et al. The Journal of Biological Chemistry. 2008
Goals of Study:•Confirm identity of new gene STPCA
I. Amplification of full mRNA sequenceII. Phylogenetic map
•Characterize function of protein encoded by STPCA
I. Amino acid sequence alignmentII. ImmunolocalizationIII. Biochemical CharacterizationIV. Gene expression assay
Underlying question: How does CA fit into the mechanism of coral calcification? Sciencedaily.com
Phylogenetic relationships of vertebrates and invertebratesα-CA sequences inferred
from ML and Bayesian analyses
Groups with two other Anthozoan species. One is also a Scleractinian and the other is a Actinaria (non-calcifying, non-symbiotic, anemone)
Second Anthozoan CA grouping. Cytosolic form of Carbonic Anhydrase
STPCA groups with other Cnidarian CA sequences. Important because of symbiotic relationship and because of host of organisms that live within scleractinian skeletons
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
Alignment of α-CA sequences from S. pistillata (STPCA), F. scutaria (FCAa), N. vectensis, Homo sapiens CAVI, XIV, I, II, A. elegantissima, and R. pachyptila
•Signal Peptide present in STPCA sequence.•No GPI anchor in sequence•No evidence of trans-membrane regions (no hydrophobic regions in sequence).
At the subcellular level, where are these enzymes found?
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
Immunolocalization of α-STPCA on the tissue slide of S. pistillata with carbonic anhydrase-specific antibody (anti-STPCA) or preimmune serum
•SW: saltwater•OT: oral tissue•AT: aboral tissue•AE: aboral endoderm•CE: calicoblastic ectoderm•Co: coelenteron•Sk: skeleton
•A and B: DAPI, blue stain for nuclei. Anti-STPCA, orange dye•C: Control. DAPI and Preimmune serum
STPCA shown to be localized to calicoblastic epithelium cells, adjacent to the skeleton. Little to no staining seen in other tissue types, especially the oral endoderm where much of the symbiotic algae resides.
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
Western blot showing that A/STPCA protein is glycosylated
Chimeric STPCA with polyhistidine tail attached to the C-terminus, and a normal STPCA gene treated with N-glycanase and run on a western blot. Results in both cases suggest glycosylation.
Only anti-phosphoserine binds to enzyme in Western Blot. Results suggest serine and not threonine or tyrosine residues are site of phosphorylation. Amino Acid sequence analysis also shows predicted phosphorylation sites mostly on serine residues.
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
Isozyme Activity level
kcat kcat/Km K1 (acetazola
mide)
s–1 m–1.s–1 nm
hCA I Moderate 2.0.105 5.0.107 250
hCA II Very high 1.4.106 1.5.108 12
hCA III Very low 1.0.104 3.0.105 300,000
hCA VA Low 2.9.105 2.9.107 63
hCA VB High 9.5.105 9.8.107 54
hCA VI Moderate 3.4.105 4.9.107 11
hCA IX High 3.8.105 5.5.107 25
hCA XII Moderate 4.2.105 3.5.107 5.7
STPCA Moderate 3.1.105 4.6.107 16
Kinetic parameters for carbon dioxide hydration reaction. STPCA activity is similar to secreted forms of human alpha carbonic anhydrase
CA isoforms with similar kinetic parameters. All three are secreted forms of alpha carbonic anyhdrase
Mitochondrial isoformsTrans-membrane domain isoforms
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
STPCA gene expression significantly higher at night than during the day.
•Corals kept in seawater system with a 12:12 hr light dark regime•Lighting provided by flourescent bulbs•Corals collected 12 hours apart, once during the day and once at night
•Calcification rates are 2.6 times higher during the day than at night.•2x upregulation of STPCA at night than during the day.
Summary of Findings:
Goals of Study:•Confirm identity of new gene STPCA
I. Amplification of full mRNA sequenceI. RACE amplification, BLAST confirm gene ID
II. Phylogenetic map I. STPCA clustered with other cnidarian (secreted) CA isoforms
•Characterize function of protein encoded by STPCAI. Amino acid sequence alignment
I. No GPI anchor, sequence contains signal peptide, no hydrophobic regions found.
II. ImmunolocalizationI. STPCA localized to areas involved with calcification (calicoblastic epithelium)
III. Biochemical CharacterizationI. Enzyme is glycosylated and only serine residues are phosphorylated.
IV. Gene expression assayI. STPCA upregulated at night
Underlying question: How does CA fit into the mechanisms of coral calcification? Photosynthesis?
Schematic model proposed for the function of CA in the calcification process
•Carbon dioxide is major carbon source for calcification. CO2 diffuses across CE membrane and into sub-calicoblastic epithelium where CA converts it into carbonic acid. •CA up-regulated at night to deal with decreased pH environment (low pH inhibits calcium carbonate reaction rate.
Moya A et al. J. Biol. Chem. 2008;283:25475-25484
Critique:
STPCA role in light enhanced calcification.• Is night time up-regulation a biologically meaningful response to increased pH in
the CE or indicative of a lag time between transcription and translation?
Work done in Galaxea fascicularis, showing decreased night time pH levels in both the subcalicoblastic area and coelenteron. (Al-Horani et al, 2003)
Model fits well with calcification mechanism proposed by Allemand et al, 2004
DIC reservoir is carbon dioxide from CE cell mitochondria. Major difference is they proposed CA functioned in cytosol and carbonic acid transported to sub-calicoblastic region via a transport channel.
Work done by Allemand et al, 2004 suggesting role of Carbonic Anhydrase in coral calcification. EZ is CA inhibitor. DIDS is a anion channel inhibitor.
Critique:
STPCA only functions in calcification and plays no role in photosynthesis.• Similar gene found in non-calcifying and non-symbiotic coral• Is lack of staining in other tissue layers a response to STPCA function of time
of day? When were the corals used for staining collected?
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