CHOP Deficiency Ameliorates ERK5 Inhibition-Mediated Exacerbation of Streptozotocin-Induced Hyperglycemia and Pancreatic β-Cell Apoptosis

Streptozotocin (STZ)-induced murine models of type 1 diabetes have been used to examine ER stress during pancreatic β-cell apoptosis, as this ER stress plays important roles in the pathogenesis and development of the disease. However, the mechanisms linking type 1 diabetes to the ER stress-modulatin...

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Published in	Molecules and cells Vol. 40; no. 7; pp. 457 - 465
Main Authors	Nam, Dae-Hwan, Han, Jung-Hwa, Lim, Jae Hyang, Park, Kwon Moo, Woo, Chang-Hoon
Format	Journal Article
Language	English
Published	United States Korean Society for Molecular and Cellular Biology 01.07.2017 한국분자세포생물학회
Subjects	Animals Apoptosis Cell Line, Tumor Disease Progression Endoplasmic Reticulum Stress - drug effects Hyperglycemia - metabolism Hyperglycemia - pathology Insulin-Secreting Cells - metabolism Insulin-Secreting Cells - pathology Male Mice, Inbred C57BL Mitogen-Activated Protein Kinase 7 - antagonists & inhibitors Mitogen-Activated Protein Kinase 7 - metabolism Protein Kinase Inhibitors - pharmacology Rats Streptozocin Transcription Factor CHOP - deficiency Transcription Factor CHOP - metabolism Unfolded Protein Response 생물학 ER stress CHOP apoptosis β-cell ERK5
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ISSN	1016-8478 0219-1032
DOI	10.14348/molcells.2017.2296

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Abstract	Streptozotocin (STZ)-induced murine models of type 1 diabetes have been used to examine ER stress during pancreatic β-cell apoptosis, as this ER stress plays important roles in the pathogenesis and development of the disease. However, the mechanisms linking type 1 diabetes to the ER stress-modulating anti-diabetic signaling pathway remain to be addressed, though it was recently established that ERK5 (Extracellular-signal-regulated kinase 5) contributes to the pathogeneses of diabetic complications. This study was undertaken to explore the mechanism whereby ERK5 inhibition instigates pancreatic β-cell apoptosis via an ER stress-dependent signaling pathway. STZ-induced diabetic WT and CHOP deficient mice were i.p. injected every 2 days for 6 days under BIX02189 (a specific ERK5 inhibitor) treatment in order to evaluate the role of ERK5. Hyperglycemia was exacerbated by co-treating C57BL/6J mice with STZ and BIX02189 as compared with mice administered with STZ alone. In addition, immunoblotting data revealed that ERK5 inhibition activated the unfolded protein response pathway accompanying apoptotic events, such as, PARP-1 and caspase-3 cleavage. Interestingly, ERK5 inhibition-induced exacerbation of pancreatic β-cell apoptosis was inhibited in CHOP deficient mice. Moreover, transduction of adenovirus encoding an active mutant form of MEK5α, an upstream kinase of ERK5, inhibited STZ-induced unfolded protein responses and β-cell apoptosis. These results suggest that ERK5 protects against STZ-induced pancreatic β-cell apoptosis and hyperglycemia by interrupting the ER stress-mediated apoptotic pathway.
AbstractList	Streptozotocin (STZ)-induced murine models of type 1 diabetes have been used to examine ER stress during pancreatic β-cell apoptosis, as this ER stress plays important roles in the pathogenesis and development of the disease. However, the mechanisms linking type 1 diabetes to the ER stress-modulating anti-diabetic signaling pathway remain to be addressed, though it was recently established that ERK5 (Extracellular-signal-regulated kinase 5) contributes to the pathogeneses of diabetic complications. This study was undertaken to explore the mechanism whereby ERK5 inhibition instigates pancreatic β-cell apoptosis via an ER stress-dependent signaling pathway. STZ-induced diabetic WT and CHOP deficient mice were i.p. injected every 2 days for 6 days under BIX02189 (a specific ERK5 inhibitor) treatment in order to evaluate the role of ERK5. Hyperglycemia was exacerbated by co-treating C57BL/6J mice with STZ and BIX02189 as compared with mice administered with STZ alone. In addition, immunoblotting data revealed that ERK5 inhibition activated the unfolded protein response pathway accompanying apoptotic events, such as, PARP-1 and caspase-3 cleavage. Interestingly, ERK5 inhibition-induced exacerbation of pancreatic β-cell apoptosis was inhibited in CHOP deficient mice. Moreover, transduction of adenovirus encoding an active mutant form of MEK5α, an upstream kinase of ERK5, inhibited STZ-induced unfolded protein responses and β-cell apoptosis. These results suggest that ERK5 protects against STZ-induced pancreatic β-cell apoptosis and hyperglycemia by interrupting the ER stress-mediated apoptotic pathway. Streptozotocin (STZ)-induced murine models of type 1 diabetes have been used to examine ER stress during pancreatic β-cell apoptosis, as this ER stress plays important roles in the pathogenesis and development of the disease. However, the mechanisms linking type 1 diabetes to the ER stress-modulating anti-diabetic signaling pathway remain to be addressed, though it was recently established that ERK5 (Extracellular-signal-regulated kinase 5) contributes to the pathogeneses of diabetic complications. This study was undertaken to explore the mechanism whereby ERK5 inhibition instigates pancreatic β-cell apoptosis via an ER stress-dependent signaling pathway. STZ-induced diabetic WT and CHOP deficient mice were i.p. injected every 2 days for 6 days under BIX02189 (a specific ERK5 inhibitor) treatment in order to evaluate the role of ERK5. Hyperglycemia was exacerbated by co-treating C57BL/6J mice with STZ and BIX02189 as compared with mice administered with STZ alone. In addition, immunoblotting data revealed that ERK5 inhibition activated the unfolded protein response pathway accompanying apoptotic events, such as, PARP-1 and caspase-3 cleavage. Interestingly, ERK5 inhibition-induced exacerbation of pancreatic β-cell apoptosis was inhibited in CHOP deficient mice. Moreover, transduction of adenovirus encoding an active mutant form of MEK5α, an upstream kinase of ERK5, inhibited STZ-induced unfolded protein responses and β-cell apoptosis. These results suggest that ERK5 protects against STZ-induced pancreatic β-cell apoptosis and hyperglycemia by interrupting the ER stress-mediated apoptotic pathway. KCI Citation Count: 10
Author	Han, Jung-Hwa Nam, Dae-Hwan Lim, Jae Hyang Woo, Chang-Hoon Park, Kwon Moo
AuthorAffiliation	3 Department of Microbiology, Ewha Womans University School of Medicine, Seoul 03760, Korea 1 Department of Pharmacology and Smart-aging Convergence Research Center, Yeungnam University College of Medicine, Daegu 42415, Korea 4 Department of Anatomy, Kyungpook National University School of Medicine, Daegu 41566, Korea 2 Predictive Model Research Center, Korea Institute of Toxicology, Korea Research Institute of Chemical Technology, Daejeon 34114, Korea
AuthorAffiliation_xml	– name: 2 Predictive Model Research Center, Korea Institute of Toxicology, Korea Research Institute of Chemical Technology, Daejeon 34114, Korea – name: 4 Department of Anatomy, Kyungpook National University School of Medicine, Daegu 41566, Korea – name: 1 Department of Pharmacology and Smart-aging Convergence Research Center, Yeungnam University College of Medicine, Daegu 42415, Korea – name: 3 Department of Microbiology, Ewha Womans University School of Medicine, Seoul 03760, Korea
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Snippet	Streptozotocin (STZ)-induced murine models of type 1 diabetes have been used to examine ER stress during pancreatic β-cell apoptosis, as this ER stress plays...
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SubjectTerms	Animals Apoptosis Cell Line, Tumor Disease Progression Endoplasmic Reticulum Stress - drug effects Hyperglycemia - metabolism Hyperglycemia - pathology Insulin-Secreting Cells - metabolism Insulin-Secreting Cells - pathology Male Mice, Inbred C57BL Mitogen-Activated Protein Kinase 7 - antagonists & inhibitors Mitogen-Activated Protein Kinase 7 - metabolism Protein Kinase Inhibitors - pharmacology Rats Streptozocin Transcription Factor CHOP - deficiency Transcription Factor CHOP - metabolism Unfolded Protein Response 생물학
Title	CHOP Deficiency Ameliorates ERK5 Inhibition-Mediated Exacerbation of Streptozotocin-Induced Hyperglycemia and Pancreatic β-Cell Apoptosis
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ispartofPNX	Molecules and Cells, 2017, 40(7), , pp.457-465
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