Peptide 612–627 of thyrotropin receptor and its modified analogs as regulators of adenylyl cyclase in rat thyroid gland

Abstract

The specific activity of the thyroid gland is regulated by thyroid-stimulating hormone (TSH) via TSH receptor (TSHR). This receptor is coupled with various types of G proteins, including Gs proteins, through which TSH stimulates activity of enzyme adenylyl cyclase (AC). Since the use of TSH in medicine is restricted, selective regulators of TSHR with activity of agonists and antagonists are being developed. One approach to their creation is development of peptides corresponding to the functionally important TSHR regions that are located in its cytoplasmic loops and are involved in binding and activation of G proteins. We synthesized peptide corresponding to the C-terminal region 612–627 of the third cytoplasmic loop of TSHR and its derivatives modified by residues of palmitic acid (from the N- or C-termini) or by polylysine dendrimer (from the N-terminus) and we studied their effect on the basal and TSH-stimulated AC activity in membrane fractions isolated from the rat thyroid gland. The most active was peptide 612–627-K(Pal)A modified by palmitate from the C-terminus, where the hydrophobic transmembrane region is located in TSHR. At the micromolar concentrations, it increased AC activity and reduced the AC-stimulating TSH effect. The action of 612–627-K(Pal)A was directed to its homologous TSHR, which is indicated by the following facts: the ingibition of Gs proteins, the transductory component of the AC system, by treatment of the membranes with cholera toxin blocked the AC effect of peptide and this effect was not revealed in the tissues where TSHR are absent, the peptide did not influence the stimulating AC effects of hormones acting via other receptors. The unmodified peptide and the peptide with N-terminal dendrimer had a much lower ability to activate AC in the thyroid gland than 612–627-K(Pal)A, whereas the peptide modified by palmitate from the N-terminus was inactive. At the same time, the peptide modified by dendrimer was comparable with 612–627-K(Pal)A by the ability to inhibit the AC action of TSH, but it also decreased (although to the lesser degree) the AC effects of other hormones, which indicates its low receptor specificity. Thereby, the obtained data indicate the high efficiency of the peptide 612–627-K(Pal)A as a regulator of TSHR and the possibilities of creation of drugs on its basis for regulation of thyroid-gland functions in the case of pathology.