Please use this identifier to cite or link to this item: https://doi.org/10.1016/S0167-4889(99)00128-7
Title: Temperature dependence of estrogen binding: Importance of a subzone in the ligand binding domain of a novel piscine estrogen receptor
Authors: Tan, N.S. 
Frecer, V. 
Lam, T.J. 
Ding, J.L. 
Keywords: Beta-3 subzone
Estrogen receptor
Oreochromis aureus
Piscine
Temperature-dependent ligand binding
Transient transfection
Issue Date: 11-Nov-1999
Citation: Tan, N.S., Frecer, V., Lam, T.J., Ding, J.L. (1999-11-11). Temperature dependence of estrogen binding: Importance of a subzone in the ligand binding domain of a novel piscine estrogen receptor. Biochimica et Biophysica Acta - Molecular Cell Research 1452 (2) : 103-120. ScholarBank@NUS Repository. https://doi.org/10.1016/S0167-4889(99)00128-7
Abstract: The full length estrogen receptor from Oreochromis aureus (OaER) was cloned and expressed in vitro and in vivo as a functional transcription factor. Amino acid residues involved in the thermal stability of the receptor are located at/near subzones β1 and β3, which are highly conserved in other non-piscine species but not in OaER. Hormone binding studies, however, indicate that OaER is thermally stable but exhibited a ~3-fold reduced affinity for estrogen at elevated temperatures. Transfection of OaER into various cell lines cultured at different temperatures displayed a significant estrogen dose-response shift compared with that of chicken ER (cER). At 37°C, OaER requires ~80-fold more estrogen to achieve half-maximal stimulation of CAT. Lowering of the incubation temperature from 37°C to 25°C or 20°C resulted in a 4-fold increase in its affinity for estrogen. The thermally deficient transactivation of OaER at temperatures above 25°C was fully prevented by high levels of estrogen. Thus, compared to cER, the OaER exhibits reduced affinity for estrogen at elevated temperature as reflected in its deficient transactivation capability. Amino acid replacements of OaER β3 subzones with corresponding amino acids from cER could partially rescue this temperature sensitivity. The three-dimensional structure of the OaER ligand binding domain (LBD) was modelled based on conformational similarity and sequence homology with human RXRα apo, RARγ holo and ERα LBDs. Unliganded and 17β-estradiol-liganded OaER LBD retained the overall folding pattern of the nuclear receptor LBDs. The residues at/near the subzone β3 of the LBD constitute the central core of OaER structure. Thus, amino acid alteration at this region potentially alters the structure and consequently its temperature-dependent ligand binding properties.
Source Title: Biochimica et Biophysica Acta - Molecular Cell Research
URI: http://scholarbank.nus.edu.sg/handle/10635/101837
ISSN: 01674889
DOI: 10.1016/S0167-4889(99)00128-7
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