Distinct Cytoplasmic and Nuclear Functions of the Stress Induced Protein DDIT3/CHOP/GADD153

Jauhiainen, Alexandra; Thomsen, Christer; Strömbom, Linda; Grundevik, Pernilla; Andersson, Christian X.; Danielsson, Anna; Andersson, Mattias K.; Nerman, Olle; Rörkvist, Linda; Ståhlberg, Anders; Åman, Pierre

doi:10.1371/journal.pone.0033208

Cited by 98 publications

(69 citation statements)

References 58 publications

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“…However, GADD153 can also display a cytoplasmic location, in which case it regulates the expression of distinct gene sets (Jauhiainen, 2012). Nonetheless, the splicing of XBP-1 that gives rise to a prosurvival transcription factor, occurred also (and only)…”

Section: Unfolded Protein Responsementioning

confidence: 99%

Voltage-gated calcium channel blockers deregulate macroautophagy in cardiomyocytes

Pushparaj

Das

Purroy

et al. 2015

The International Journal of Biochemistry & Cell Biology

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Section: Unfolded Protein Responsementioning

confidence: 99%

Voltage-gated calcium channel blockers deregulate macroautophagy in cardiomyocytes

Pushparaj

Das

Purroy

et al. 2015

The International Journal of Biochemistry & Cell Biology

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“…CHOP is a well-known inhibitor of gene transcription and functions primarily through dimerization with and negative regulation of other leucine zipper transcription factors of the C/EBP and CREB families. Overexpression of CHOP leads to growth arrest and apoptosis (22). Thus, induction of CHOP indicates that ER-initiated apoptosis is induced (23) and our previous study revealed that CHOP plays a role in renal injury (18).…”

Section: Discussionmentioning

confidence: 88%

C/EBP homologous protein induces mesangial cell apoptosis under hyperglycemia

Zhao

et al. 2012

Molecular Medicine Reports

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Abstract. Diabetes mellitus is known to cause kidney impairment; however, the mechanism remains elusive. The aim of this study was to investigate the role of C/EBP homologous protein (CHOP), an important protein in endoplasmic reticulum stress-mediated mesangial cell apoptosis in hyperglycemia. Mesangial cells were cultured in normal (control group) and high glucose medium (high glucose group). TUNEL staining was performed to assess apoptotic cells in the groups. The expression of CHOP and caspase-3 was also assayed by immunohistochemistry and western blot analysis. Following 24 h culture in high glucose medium, TUNEL-positive cells were observed to be significantly increased (P<0.01). The expression of CHOP and caspase-3 in mesangial cells was also found to be significantly enhanced under high glucose conditions compared with the normal group (P<0.01). The results indicate that CHOP mediates apoptosis in mesangial cells under hyperglycemia and may play a role in the development of diabetic nephropathy.

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“…DDIT3 induction is required for hypoxia-mediated downregulation of the adaptive UPR Since DDIT3 can act as a negative transcriptional regulator [35,36] and its expression was lowered by JNK inhibition (Fig. 6f), we examined the influence of DDIT3 in the hypoxia-mediated changes in the adaptive UPR.…”

Section: Ipkmentioning

confidence: 99%

Hypoxia reduces ER-to-Golgi protein trafficking and increases cell death by inhibiting the adaptive unfolded protein response in mouse beta cells

et al. 2016

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Aims/hypothesis Hypoxia may contribute to beta cell failure in type 2 diabetes and islet transplantation. The adaptive unfolded protein response (UPR) is required for endoplasmic reticulum (ER) homeostasis. Here we investigated whether or not hypoxia regulates the UPR in beta cells and the role the adaptive UPR plays during hypoxic stress. Methods Mouse islets and MIN6 cells were exposed to various oxygen (O 2 ) tensions. DNA-damage inducible transcript 3 (DDIT3), hypoxia-inducible transcription factor (HIF)1α and HSPA5 were knocked down using small interfering (si)RNA; Hspa5 was also overexpressed. db/db mice were used. Results Hypoxia-response genes were upregulated in vivo in the islets of diabetic, but not prediabetic, db/db mice. In isolated mouse islets and MIN6 cells, O 2 deprivation (1-5% vs 20%; 4-24 h) markedly reduced the expression of adaptive UPR genes, including Hspa5, Hsp90b1, Fkbp11 and spliced Xbp1. Coatomer protein complex genes (Copa, Cope, Copg [also known as Copg1], Copz1 and Copz2) and ER-to-Golgi protein trafficking were also reduced, whereas apoptotic genes (Ddit3, Atf3 and Trb3 [also known as Trib3]), c-Jun N-terminal kinase (JNK) phosphorylation and cell death were increased. Inhibition of JNK, but not HIF1α, restored adaptive UPR gene expression and ER-to-Golgi protein trafficking while protecting against apoptotic genes and cell death following hypoxia. DDIT3 knockdown delayed the loss of the adaptive UPR and partially protected against hypoxia-induced cell death. The latter response was prevented by HSPA5 knockdown. Finally, Hspa5 overexpression significantly protected against hypoxia-induced cell death. Conclusions/interpretation Hypoxia inhibits the adaptive UPR in beta cells via JNK and DDIT3 activation, but independently of HIF1α. Downregulation of the adaptive UPR contributes to reduced ER-to-Golgi protein trafficking and increased beta cell death during hypoxic stress.

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Distinct Cytoplasmic and Nuclear Functions of the Stress Induced Protein DDIT3/CHOP/GADD153

Cited by 98 publications

References 58 publications

Voltage-gated calcium channel blockers deregulate macroautophagy in cardiomyocytes

Voltage-gated calcium channel blockers deregulate macroautophagy in cardiomyocytes

C/EBP homologous protein induces mesangial cell apoptosis under hyperglycemia

Hypoxia reduces ER-to-Golgi protein trafficking and increases cell death by inhibiting the adaptive unfolded protein response in mouse beta cells

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