Alejandro Lopez-Hurtado, Diego A Peraza, Pilar Cercos, Laura Lagartera, Paz Gonzalez, Xose M Dopazo, Rosario Herranz, Teresa Gonzalez, Mercedes Martin-Martinez, Britt Mellström, Jose R Naranjo, Carmen Valenzuela, Marta Gutierrez-Rodriguez
Scientific reports 2019 May 13DREAM, a neuronal calcium sensor protein, has multiple cellular roles including the regulation of Ca2+ and protein homeostasis. We recently showed that reduced DREAM expression or blockade of DREAM activity by repaglinide is neuroprotective in Huntington's disease (HD). Here we used structure-based drug design to guide the identification of IQM-PC330, which was more potent and had longer lasting effects than repaglinide to inhibit DREAM in cellular and in vivo HD models. We disclosed and validated an unexplored ligand binding site, showing Tyr118 and Tyr130 as critical residues for binding and modulation of DREAM activity. IQM-PC330 binding de-repressed c-fos gene expression, silenced the DREAM effect on KV4.3 channel gating and blocked the ATF6/DREAM interaction. Our results validate DREAM as a valuable target and propose more effective molecules for HD treatment.
Alejandro Lopez-Hurtado, Diego A Peraza, Pilar Cercos, Laura Lagartera, Paz Gonzalez, Xose M Dopazo, Rosario Herranz, Teresa Gonzalez, Mercedes Martin-Martinez, Britt Mellström, Jose R Naranjo, Carmen Valenzuela, Marta Gutierrez-Rodriguez. Targeting the neuronal calcium sensor DREAM with small-molecules for Huntington's disease treatment. Scientific reports. 2019 May 13;9(1):7260
PMID: 31086218
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