Abstract
The accumulation of unfolded proteins in the endoplasmic reticulum (ER) is caused by many disease-relevant conditions, inducing conserved signaling events collectively known as the unfolded protein response. When ER stress is excessive or prolonged, cell death (usually occurring by apoptosis) is triggered. We undertook a chemical biology approach for investigating mechanisms of ER stress-induced cell death. Using a cell-based high throughput screening assay to identify compounds that rescued a neuronal cell line from thapsigargin-induced cell death, we identified benzodiazepinones that selectively inhibit cell death caused by inducers of ER stress (thapsigargin and tunicamycin) but not by inducers of extrinsic (tumor necrosis factor) or intrinsic (mitochondrial) cell death pathways. The compounds displayed activity in several cell lines and primary cultured neurons. Mechanism of action studies revealed that these compounds inhibit ER stress-induced activation of p38 MAPK and kinases responsible for c-Jun phosphorylation. Active benzodiazepinones suppressed cell death at the level of apoptotic signal kinase-1 (ASK1) within the IRE1 pathway but without directly inhibiting the kinase activity of ASK1 or >400 other kinases tested. Rather, active compounds enhanced phosphorylation of serine 967 of ASK1, promoting ASK1 binding to 14-3-3, an event associated with suppression of ASK1 function. Reducing ASK1 protein expression using small interfering RNA also protected cells from ER stress-induced apoptosis, confirming the importance of this protein kinase. Taken together, these findings demonstrate an essential role for ASK1 in cell death induced by ER stress. The compounds identified may prove useful for revealing endogenous mechanisms that regulate inhibitory phosphorylation of ASK1.
Highlights
Among these three major unfolded protein response” (UPR) signal transduction pathways, the Ire1␣ pathway has been most clearly connected to cell death, because it leads siRNA, small interfering RNA; CHX, cycloheximide; GST, glutathione S-transferase; TG, thapsigargin; Phosphate-buffered saline (PBS), phosphate-buffered saline; FBS, fetal bovine serum; DMEM, Dulbecco’s modified Eagle’s medium; RNAi, RNA interference; HA, hemagglutinin; FITC, fluorescein isothiocyanate; STS, staurosporine; G-protein-coupled receptors (GPCRs), G-protein-coupled receptor; transporter protein of mammalian cells” (TSPO), transporter protein of mammalian cells; PBR, peripheral benzodiazepine receptor; PPase, protein phosphatase; MAPK, mitogen-activated protein kinase; apoptotic signaling kinase-1 (ASK1), apoptotic signal kinase-1; PI, propidium iodide
We describe the identification by high throughput screening (HTS) of benzodiazepinone derivatives that selectively suppress cell death induced by endoplasmic reticulum (ER) stress, without impacting other cell death pathways
Cell-based Screen for Inhibitors of ER Stress-induced Cell Death—Because cell death linked to ER stress is a prominent feature of several neurological diseases, we focused on developing a primary HTS assay utilizing neuronal cells
Summary
Com- sus ER-selective or thapsigargin-specific inhibitors, we compound CID-2891837 was the most potent (EC50 ϭ 7.1 M) of pared their cytoprotective activity when CSM14.1 cells were the 11 benzodiazepinones (Fig. 1B and Table 1) An example of flow cells, the 11 active benzodiazepinone compounds inhibited cytometry analysis of FITC-annexin V staining is shown in Fig. Cellular ATP content was measured for staurosporine and TNF/CHX samples, normalizing data relative to cells treated with DMSO alone and presented as percentage of control (mean Ϯ S.D., n ϭ 3).
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