Molecular and expression analysis of the farnesoid X receptor in the urochordate Halocynthia roretzi

Authors
Maeng, SejungLee, Jung HwanKim, Gil JungKim, Sung HunKwon, Hak CheolShin, Yun KyungSohn, Young Chang
Issue Date
2012-03
Publisher
ELSEVIER SCIENCE INC
Citation
COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY B-BIOCHEMISTRY & MOLECULAR BIOLOGY, v.161, no.3, pp.189 - 196
Abstract
The farnesoid X receptors (FXRs) are the major transcriptional regulators of bile salt synthesis in vertebrates. However, the structural conservation of invertebrate FXRs has only been studied for the major model organisms and studies on additional invertebrate FXRs are clearly required to obtain better resolution of FXR phylogeny and comparative developmental insights in chordates. In the present study, the cDNA encoding the farnesoid X receptor, HrFXR, was cloned from a marine invertebrate Halocynthia roretzi. The open reading frame of HrFXR encoded 688 amino acids including a longer N-terminal region and showed overall sequence identities of 28-41% to vertebrate and Ciona intestinalis FXRs. The N-terminal activation function 1 (AF-1) and hinge domains of HrFXR displayed relatively low identities (<20%), whereas the DNA-binding and ligand-binding domains showed relatively high (>73%) and intermediate (21-50%) identities, respectively. Based on a phylogenetic analysis, HrFXR belonged to a urochordate group, which was placed differently from vertebrate FXR alpha and FXR beta subgroups. Real-time quantitative PCR analysis revealed that the HrFXR mRNA originated maternally and was highly expressed in adult gonads. Additionally, HrFXR mRNA levels in the gills and hepatopancreas showed significantly higher values in animals with soft tunic syndrome compared to those of normal individuals. Furthermore, direct injection of cholic acid significantly increased HrFXR transcript levels in vivo, although an expression vector containing HrFXR cDNA did not show a significant transactivation function in response to a well-known ligand for vertebrate FXR, GW4064, in HepG2 cells. These results suggest that the tunicate FXR has different structural and expressional characteristics compared to those of vertebrate FXRs. (C) 2011 Elsevier Inc. All rights reserved.
Keywords
NUCLEAR HORMONE-RECEPTORS; SOFT TUNIC SYNDROME; BILE-ACIDS; GENE-EXPRESSION; EVOLUTION; GENOME; FXR; IDENTIFICATION; SUPERFAMILY; VERTEBRATES; NUCLEAR HORMONE-RECEPTORS; SOFT TUNIC SYNDROME; BILE-ACIDS; GENE-EXPRESSION; EVOLUTION; GENOME; FXR; IDENTIFICATION; SUPERFAMILY; VERTEBRATES; FXR; Embryo; Invertebrate; Ascidian; Soft tunic syndrome
ISSN
1096-4959
URI
https://pubs.kist.re.kr/handle/201004/129504
DOI
10.1016/j.cbpb.2011.11.004
Appears in Collections:
KIST Article > 2012
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