F Jacquemotte scite author profile

Among the Chromatiaceae, the glutathione derivative ␥-L-glutamyl-L-cysteinylglycine amide, or glutathione amide, was reported to be present in facultative aerobic as well as in strictly anaerobic species. The gene (garB) encoding the central enzyme in glutathione amide cycling, glutathione amide reductase (GAR), has been isolated from Chromatium gracile, and its genomic organization has been examined. The garB gene is immediately preceded by an open reading frame encoding a novel 27.5-kDa chimeric enzyme composed of one Nterminal peroxiredoxin-like domain followed by a glutaredoxin-like C terminus. The 27.5-kDa enzyme was established in vitro to be a glutathione amide-dependent peroxidase, being the first example of a prokaryotic low molecular mass thiol-dependent peroxidase. Amino acid sequence alignment of GAR with the functionally homologous glutathione and trypanothione reductases emphasizes the conservation of the catalytically important redox-active disulfide and of regions involved in binding the FAD prosthetic group and the substrates glutathione amide disulfide and NADH. By establishing Michaelis constants of 97 and 13.2 M for glutathione amide disulfide and NADH, respectively (in contrast to K m values of 6.9 mM for glutathione disulfide and 1.98 mM for NADPH), the exclusive substrate specificities of GAR have been documented. Specificity for the amidated disulfide cofactor partly can be explained by the substitution of Arg-37, shown by x-ray crystallographic data of the human glutathione reductase to hydrogen-bond one of the glutathione glycyl carboxylates, by the negatively charged Glu-21. On the other hand, the preference for the unusual electron donor, to some extent, has to rely on the substitution of the basic residues Arg-218, His-219, and Arg-224, which have been shown to interact in the human enzyme with the NADPH 2-phosphate group, by Leu-197, Glu-198, and Phe-203. We suggest GAR to be the newest member of the class I flavoprotein disulfide reductase family of oxidoreductases.

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Regulatory function of the P295-T311 motif of the estrogen receptor α - does proteasomal degradation of the receptor induce emergence of peptides implicated in estrogenic responses?

Gallo

Haddad²,

Laurent

et al. 2008

Nucl Recept Signal

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The way in which estrogen receptor α (ERα) mediates gene transcription and hormone-dependent cancer cell proliferation is now being largely reconsidered in view of several recent discoveries. ERα-mediated transcription appears to be a cyclic and transient process where the proteasome -and thus receptor degradation -plays a pivotal role. In view of our recent investigations, which demonstrate the estrogenic activity of a synthetic peptide corresponding to a regulatory motif of the receptor (ERα17p), we propose that ERα proteasomal degradation could induce the emergence of regulatory peptide(s). The latter would function as a signal and contribute to the ERα activation process, amplifying the initial hormonal stimulation and giving rise to sustained estrogenic response.

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F Jacquemotte

Calmodulin-independent, agonistic properties of a peptide containing the calmodulin binding site of estrogen receptor α

Molecular Basis of Agonistic Activity of ERα17p, a Synthetic Peptide Corresponding to a Sequence Located at the N-Terminal Part of the Estrogen Receptor αLigand Binding Domain

Trophic effect in MCF-7 cells of ERα17p, a peptide corresponding to a platform regulatory motif of the estrogen receptor α—Underlying mechanisms

Characterization of Glutathione Amide Reductase from Chromatium gracile

Regulatory function of the P295-T311 motif of the estrogen receptor α - does proteasomal degradation of the receptor induce emergence of peptides implicated in estrogenic responses?

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F Jacquemotte

Calmodulin-independent, agonistic properties of a peptide containing the calmodulin binding site of estrogen receptor α

Molecular Basis of Agonistic Activity of ER&#945;17p, a Synthetic Peptide Corresponding to a Sequence Located at the N-Terminal Part of the Estrogen Receptor &#945;Ligand Binding Domain

Trophic effect in MCF-7 cells of ERα17p, a peptide corresponding to a platform regulatory motif of the estrogen receptor α—Underlying mechanisms

Characterization of Glutathione Amide Reductase from Chromatium gracile

Regulatory function of the P295-T311 motif of the estrogen receptor α - does proteasomal degradation of the receptor induce emergence of peptides implicated in estrogenic responses?

Contact Info

Product

Resources

About

Molecular Basis of Agonistic Activity of ERα17p, a Synthetic Peptide Corresponding to a Sequence Located at the N-Terminal Part of the Estrogen Receptor αLigand Binding Domain