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Evolution of the extracellular matrix in deuterostomes and the influence of calcitropic hormones
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Advisor(s)
Abstract(s)
The extracellular matrix (ECM) is an essential component of all multicellular organisms. The
present thesis characterized calcified tissue and its homeostasis considering ECM proteins and
endocrine factors. From an evolutionary perspective homologues of mammalian calcified
ECM genes were identified in teleost fish and aquatic bivalves (Crassostrea gigas and
Laternula elliptica). Transcripts for collagens, fibronectin and thrombospondins and some
factors with a possible role in calcium homeostasis and shell formation, e.g. calmodulin, bone
morphogenetic protein (BMP) and calcitonin receptor-like (CLR) were identified in the
bivalves. In the teleosts, sea bream (Sparus aurata) and sea bass (Dicentrarchus labrax) ECM
constituents, like collagens and adhesive proteins were identified as well as homologues of
genes involved in human skeletal metabolism and 3 CLR were identified. The role of CLR in
fish is ambiguous and in silico promoter analysis was used to infer possible function and
suggested teleost CLR1 is most linked to the skeleton and CLR2 to reproduction.
Experimental models to explore calcified tissue homeostasis included vertebra, jaws, and
branchial arches. Treatment of sea bream with the Selective Estrogen-Receptor Modulator
(SERM), raloxifene caused down-regulation of skeletal related transcripts (Alkaline
Phosphatase (ALP), Core binding factor alpha 1(Cbfa1) and Cartilage Intermediate Layer
protein (CILP)) in the branchial arches but not in vertebra and jaws. Regeneration of the
integument (skin and scales) was studied with a sea bream oligo array. The wound rapidly
repaired and within 3 days re-epithelization had occurred and the scale pocket was sealed and
7 days after scale removal a thin regenerated scale was visible. Major alterations of the
transcriptome occurred at day 3 after scale removal and it had almost returned to basal levels
by day 7. Global transcriptome changes during regeneration grouped under biological
processes like cell cycle, tissue morphogenesis and immune physiology. Overall, the results
provide knowledge to guide future functional studies of calcified tissue homeostasis in
invertebrates and vertebrates.
Description
Tese de dout., Biologia (Biologia Molecular), Faculdade de Ciências e Tecnologia, Univ. do Algarve, 2010
Keywords
Biologia molecular Análise comparativa Evolução Matrix extracelular Regeneração