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IRE1α kinase-IN-1 is a highly selective IRE1α (ERN1) inhibitor, with an IC50 of 77 nM. IRE1α kinase-IN-1 displays 100-fold selectivity for IRE1α over the IRE1β isoform. IRE1α kinase-IN-1 inhibits ER stress-induced IRE1α oligomerization and autophosphorylation, and also inhibits IRE1α RNase activity (IC50=80 nM) [1].
IRE1α kinase-IN-2 is a potent IRE1α kinase inhibitor, with an EC50 of 0.82 μM. IRE1α kinase-IN-2 inhibits IRE1α kinase autophosphorylation (IC50=3.12 μM). IRE1α kinase-IN-2 inhibits XBP1 mRNA splicing in the WT cell lines [1].
IRE1α kinase-IN-8, a benzoheterocyclecarboxaldehyde derivative, is a potent IRE-1α inhibitor. IRE1α kinase-IN-8 can be used for research in diseases associated with the unfolded protein response or with regulated IRE1-dependent decay (RIDD) [1].
IRE1α kinase-IN-9 (compound 2) is a potent IRE-1α inhibitor,exhibits an average IC50 value of <0.1 μM. IRE1α kinase-IN-9 can be used for research in diseases associated with the unfolded protein response or with regulated IRE1-dependent decay (RIDD) [1].
IRE1α kinase-IN-7 (compound 4) is an IRE1α kinase inhibitor. IRE1α kinase-IN-7 can be used for research of endoplasmic reticulum stress-related diseases [1].
IRE1α kinase-IN-10 (GP29) is an IRE1α kinase inhibitor. IRE1α kinase-IN-10 can be used for the research of endoplasmic reticulum stress-related diseases [1].
IXA4 is a highly selective, non-toxic IRE1/XBP1s activator. IXA4 activates IRE1/XBP1s signaling without globally activating the unfolded protein response (UPR) or other stress-responsive signaling pathways (e.g., the heat shock response or oxidative stress response). IXA4 reduces secretion of APP through IRE1 activation [1].
KIRA9 is a potent IRE1 inhibitor (IC50=4.8 μM in INS-1 cells). KIRA9 is able to fully engage the ATP-binding site of IRE1α. KIRA9 can block ER-localized mRNA decay and apoptosis[1].
BDM44768 is an inhibitior of IDE. BDM44768 exacerbates ER stress-induced IRE1 activation and promotes lipid accumulation in hepatocytes. BDM44768 potentiates activation of the IRE1 pathway in the liver and exacerbates liver lipid accumulation in an acute mice model of ER stress [1].
STF-083010 is a specific IRE1α inhibitor. STF-083010 inhibits Ire1 endonuclease activity, without affecting its kinase activity, after endoplasmic reticulum stress.
MKC8866, a salicylaldehyde analog, is a potent, selective IRE1 RNase inhibitor with an IC50 of 0.29 μM in human vitro. MKC8866 strongly inhibits Dithiothreitol-induced X-box-binding protein 1-spliced (XBP1s) expression with an EC50 of 0.52 μM and unstresses RPMI 8226 cells with an IC50 of 0.14 μM [1]. MKC8866 inhibits IRE1 RNase in breast cancer cells leading to the decreased production of pro-tumorigenic factors and it can inhibits prostate cancer (PCa) tumor growth .
G-5758 is an orally available IRE1α inhibitor with an IC50 of 38 nM for XBP1s. G-5758 is well tolerated in multiple myeloma models (KMS-11) at oral doses up to 500 mg/kg in rats. G-5758 exhibits pharmacodynamics comparable to that of induced IRE1 knockdown [1].
Z4P is a BBB-permeable IRE1 inhibitor (IC50: 1.11 μM). Z4P inhibits Glioblastoma cell growth. Z4P prevents glioblastoma relapse when administered together with Temozolomide (HY-17364) [1].
3,6-DMAD hydrochloride, an acridine derivative, is a potent IRE1α-XBP1s pathway inhibitor. 3,6-DMAD hydrochloride promotes IL-6 secretion via the IRE1α-XBP1s pathway. 3,6-DMAD hydrochloride inhibits IRE1α oligomerization and endoribonuclease (RNase) activity. 3,6-DMAD hydrochloride can be used for research of cancer [1] .
3,6-DMAD dihydrochloride, an acridine derivative, is a potent IRE1α-XBP1s pathway inhibitor. 3,6-DMAD dihydrochloride promotes IL-6 secretion via the IRE1α-XBP1s pathway. 3,6-DMAD dihydrochloride inhibits IRE1α oligomerization and endoribonuclease (RNase) activity. 3,6-DMAD dihydrochloride can be used for research of cancer [1] .
PAIR2 is a potent and selective partial antagonist of IRE1α RNase. PAIR2 can completely occupy IRE1α’s ATP-binding site in cells and block the ability of a potent KIRA to inhibit XBP1 splicing [1].
APY29, an ATP-competitive inhibitor, is an allosteric modulator of IRE1α which inhibits IRE1α autophosphorylation by binding to the ATP-binding pocket with IC50 of 280 nM. APY29 acts as a ligand that allosterically activates IRE1α adjacent RNase domain [1].
Kira8 Hydrochloride (AMG-18 Hydrochloride) is a mono-selective IRE1α inhibitor that allosterically attenuates IRE1α RNase activity with an IC50 of 5.9 nM [1].
GSK2850163 is a novel inhibitor of inositol-requiring enzyme-1 alpha (IRE1α) which can inhibit IRE1α kinase activity and RNase activity with IC50s of 20 and 200 nM, respectively.
GSK2850163 hydrochloride is a novel inhibitor of inositol-requiring enzyme-1 alpha (IRE1α) which can inhibit IRE1α kinase activity and RNase activity with IC50s of 20 and 200 nM, respectively.
Toyocamycin (Vengicide) is an adenosine analog produced by Streptomyces diastatochromogenes, acts as an XBP1 inhibitor. Toyocamycin blocks RNA synthesis and ribosome function, and induces apoptosis. Toyocamycin affects IRE1α-XBP1 pathway, and inhibits XBP1 mRNA cleavage with an IC50 value of 80 nM with affecting IRE1α auto-phosphorylation. Toyocamycin specifically inhibits CDK9 with an IC50 value of 79 nM [1] .
6-Bromo-2-hydroxy-3-methoxybenzaldehyde (NSC95682) is an IRE-1α inhibitor with an IC50 of 0.08 μM, extracted from patent WO 2008154484 A1, IRE-lα inhibitor compound 3-5.
KIRA-7, an imidazopyrazine compound, binds the IRE1α kinase (IC50 of 110 nM) to allosterically inhibit its RNase activity. KIRA-7 has an anti-fibrotic effect [1].
Bufotalin is a steroid lactone isolated from Venenum Bufonis with potently antitumor activities. Bufotalin induces cancer cell apoptosis and also induces endoplasmic reticulum (ER) stress activation [1] .
Sunitinib (SU 11248) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively [1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation .
Sunitinib Malate (SU 11248 Malate) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively [1]. Sunitinib Malate, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation .
Sunitinib-d10 is a deuterium labeled Sunitinib. Sunitinib is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively[1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation[2].
Sunitinib-d4 is the deuterium labeled Sunitinib. Sunitinib (SU 11248) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively[1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation[2].
Sunitinib (Standard) is the analytical standard of Sunitinib. This product is intended for research and analytical applications. Sunitinib (SU 11248) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively [1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation .
Sunitinib (Malate) (Standard) is the analytical standard of Sunitinib (Malate). This product is intended for research and analytical applications. Sunitinib Malate (SU 11248 Malate) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively [1]. Sunitinib Malate, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation .
Endoplasmic reticulum (ER) contributes to the production and folding of approximately one third of cellular proteins, and is thus inextricably linked to the maintenance of cellular homeostasis and the fine balance between health and disease. However, some adverse factors negatively impact ER functions and protein synthesis, resulting in the activation of Endoplasmic reticulum stress (ER stress, ERS) and unfolded protein response (UPR) signaling pathways. The UPR is triggered when ER protein folding capacity is overwhelmed by cellular demand and the UPR initially aims to restore ER homeostasis and normal cellular functions. However, if this fails, then the UPR triggers cell death. Chronic ER stress and defects in UPR signaling are emerging as key contributors to a growing list of human diseases, including diabetes, neurodegeneration and cancer.
MCE Endoplasmic Reticulum Stress Compound Library contains 227 ER stress-related compounds that mainly target PERK, IRE1, ATF6, etc. MCE ER stress library is a useful tool for researching ER stress and related diseases.
Toyocamycin (Vengicide) is an adenosine analog produced by Streptomyces diastatochromogenes, acts as an XBP1 inhibitor. Toyocamycin blocks RNA synthesis and ribosome function, and induces apoptosis. Toyocamycin affects IRE1α-XBP1 pathway, and inhibits XBP1 mRNA cleavage with an IC50 value of 80 nM with affecting IRE1α auto-phosphorylation. Toyocamycin specifically inhibits CDK9 with an IC50 value of 79 nM [1] .
Bufotalin is a steroid lactone isolated from Venenum Bufonis with potently antitumor activities. Bufotalin induces cancer cell apoptosis and also induces endoplasmic reticulum (ER) stress activation [1] .
IRE1 is a key serine/threonine protein kinase and endoribonuclease essential for sensing the unfolded protein response (UPR) in the endoplasmic reticulum. In cellular homeostasis, it remains monomeric by binding to HSPA5/BiP. IRE1 Protein, Human (sf9) is the recombinant human-derived IRE1 protein, expressed by Sf9 insect cells , with tag free.
IRE1 is a key serine/threonine protein kinase and endoribonuclease essential for sensing the unfolded protein response (UPR) in the endoplasmic reticulum. In cellular homeostasis, it remains monomeric by binding to HSPA5/BiP. IRE1 Protein, Human (sf9, His-GST) is the recombinant human-derived IRE1 protein, expressed by Sf9 insect cells , with N-His, N-GST labeled tag.
Sunitinib-d10 is a deuterium labeled Sunitinib. Sunitinib is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively[1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation[2].
Sunitinib-d4 is the deuterium labeled Sunitinib. Sunitinib (SU 11248) is a multi-targeted receptor tyrosine kinase inhibitor with IC50s of 80 nM and 2 nM for VEGFR2 and PDGFRβ, respectively[1]. Sunitinib, an ATP-competitive inhibitor, effectively inhibits autophosphorylation of Ire1α by inhibiting autophosphorylation and consequent RNase activation[2].
Phospho-IRE1 (Ser724) Antibody is a non-conjugated and Rabbit origined monoclonal antibody about 110 kDa, targeting to Phospho-IRE1 (Ser724). It can be used for WB,IP assays with tag free, in the background of Human.
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