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Abstract(s)
Background: The secretin family is a pleotropic group of brain-gut peptides with affinity for class 2 G-protein coupled
receptors (secretin family GPCRs) proposed to have emerged early in the metazoan radiation via gene or genome
duplications. In human, 10 members exist and sequence and functional homologues and ligand-receptor pairs have
been characterised in representatives of most vertebrate classes. Secretin-like family GPCR homologues have also been
isolated in non-vertebrate genomes however their corresponding ligands have not been convincingly identified and
their evolution remains enigmatic.
Results: In silico sequence comparisons failed to retrieve a non-vertebrate (porifera, cnidaria, protostome and early
deuterostome) secretin family homologue. In contrast, secretin family members were identified in lamprey, several
teleosts and tetrapods and comparative studies revealed that sequence and structure is in general maintained.
Sequence comparisons and phylogenetic analysis revealed that PACAP, VIP and GCG are the most highly conserved
members and two major peptide subfamilies exist; i) PACAP-like which includes PACAP, PRP, VIP, PH, GHRH, SCT and ii)
GCG-like which includes GCG, GLP1, GLP2 and GIP. Conserved regions flanking secretin family members were
established by comparative analysis of the Takifugu, Xenopus, chicken and human genomes and gene homologues
were identified in nematode, Drosophila and Ciona genomes but no gene linkage occurred. However, in Drosophila and
nematode genes which flank vertebrate secretin family members were identified in the same chromosome.
Conclusions: Receptors of the secretin-like family GPCRs are present in protostomes but no sequence homologues of
the vertebrate cognate ligands have been identified. It has not been possible to determine when the ligands evolved
but it seems likely that it was after the protostome-deuterostome divergence from an exon that was part of an existing
gene or gene fragment by rounds of gene/genome duplication. The duplicate exon under different evolutionary
pressures originated the chordate PACAP-like and GCG-like subfamily groups. This event occurred after the emergence
of the metazoan secretin GPCRs and led to the establishment of novel peptide-receptor interactions that contributed
to the generation of novel physiological functions in the chordate lineage.
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Citation
João CR Cardoso, Florbela A Vieira, Ana S Gomes and Deborah M Power, "The serendipitous origin of chordate secretin peptide family members" in BMC Evolutionary Biology 2010, 10:135.
Publisher
BioMed Central