Transactivation function, nuclear hormone

In another recent example, Hashimoto reported photoaffinity experiments on retinoic acid receptors (RAR). Retinoic acid plays a critical role in cell proliferation and differentiation. RARs belong to the superfamily of nuclear/ thyroid hormone receptors. They consist of six transmembrane domains (A-F) which is a general feature of these receptors. The A/B domains have an autonomous transactivation function while the C-domain contains the Zn-finger, which binds to DNA. The large E-domain participates in ligand binding, dimerization, and ligand dependent transactivation. Finally, D- and F-domains help the orientation and stabilization of the E-domain. 

Nuclear receptors exert their different transcriptional functions through interactions with and the recruitment of co-factors to responsive promoters. Co-factors are either positive or negative regulatory proteins and are classified as co-activators, which promote, or co-repressors, which attenuate the activity of nuclear hormone receptors [46]. The molecular mechanisms that regulate the mutually exclusive interactions of the nuclear receptor with either class of co-factors have been analysed by crystallographic studies. Functional and structural studies have shown that co-activators interact with the transactivation function (AF) of nuclear hormone receptors via short, leucine-rich motifs (LXXLL) termed NR boxes , thereby transducing hormonal signals to the basal transcription machinery [47]. 

The Ugand binding domain (section E in fig. 4.5) of the nuclear receptors harbors several functions. Apart from the specific binding site for the hormone, one finds further structural elements in this domain which mediates dimerization of the receptors as well as structural elements important for the ligand-mediated transactivation. 

Details of the activation and transport into the nucleus remain unknown. Additional proteins like RAP46 have been identified that function in cooperation with the chaperones and participate in nuclear transport and also activation of the receptor. After dissociation of the heat shock proteins, the hormone-receptor complex is capable of specific binding on the HRE and of transactivation. 

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