SUMOylation protects against IL-1β-induced apoptosis in INS-1 832/13 cells and human islets

Hajmrle, Catherine; Ferdaoussi, Mourad; Plummer, Gregory; Spigelman, Aliya F; Lai, Krista; Fox, Jocelyn E. Manning; MacDonald, Patrick E.

doi:10.1152/ajpendo.00168.2014

Cited by 19 publications

(22 citation statements)

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“…These observations are in line with what my laboratory [14,18,19] and others [12,20] have shown using complementary models, including in human islets. We know, for example, that increasing SUMOylation blunts glucose-stimulated insulin secretion by directly inhibiting insulin exocytosis [14,21], and that islet Senp1 knockout results in glucose intolerance without affecting islet mass or insulin content [18].…”

Section: Sumoylation and The Isletsupporting

confidence: 92%

“…Indeed, consistent with the findings of He et al, many studies suggest that SUMOylation is protective [26], although this also may be cell-type or context specific [27]. In islets, SUMOylation protects against IL-1β-induced death and dysfunction by preventing IL-1β-induced caspase 3 cleavage, NFκB translocation and induction of inducible nitric oxide synthase (iNOS) [19]. The capacity of beta cells to handle nitrosative and oxidative stress is regulated in part by nuclear factor erythroid 2-related factor 2 (NRF2) [28], a transcription factor that controls the expression of antioxidant genes (particularly those related to the glutathione pathway).…”

Section: Downstream Sumo-dependent Mechanisms In Isletssupporting

confidence: 62%

“…Conversely, upregulating Senp1 causes impaired insulin secretion while inducing beta cell apoptosis and sensitising to IL-1β-induced islet dysfunction and death [19]. In this study, increasing SUMOylation either by SENP1 knockdown or Sumo1 overexpression protected islets from IL-1β-induced apoptosis [19]. Thus, the overall level of SUMOylation in beta cells is important for determining the balance between cell survival and secretory function (Fig.…”

Section: Sumoylation and The Isletmentioning

confidence: 64%

“…We know, for example, that increasing SUMOylation blunts glucose-stimulated insulin secretion by directly inhibiting insulin exocytosis [14,21], and that islet Senp1 knockout results in glucose intolerance without affecting islet mass or insulin content [18]. Conversely, upregulating Senp1 causes impaired insulin secretion while inducing beta cell apoptosis and sensitising to IL-1β-induced islet dysfunction and death [19]. In this study, increasing SUMOylation either by SENP1 knockdown or Sumo1 overexpression protected islets from IL-1β-induced apoptosis [19].…”

Section: Sumoylation and The Isletmentioning

confidence: 99%

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A post-translational balancing act: the good and the bad of SUMOylation in pancreatic islets

MacDonald

2018

Diabetologia

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Post-translational modification of proteins contributes to the control of cell function and survival. The balance of these in insulin-producing pancreatic beta cells is important for the maintenance of glucose homeostasis. Protection from the damaging effects of reactive oxygen species is required for beta cell survival, but if this happens at the expense of insulin secretory function then the ability of islets to respond to changing metabolic conditions may be compromised. In this issue of Diabetologia, He et al (https://doi.org/10.1007/s00125-017-4523-9) show that post-translational attachment of small ubiquitin-like modifier (SUMO) to target lysine residues (SUMOylation) strikes an important balance between the protection of beta cells from oxidative stress and the maintenance of insulin secretory function. They show that SUMOylation is required to stabilise nuclear factor erythroid 2-related factor 2 (NRF2) and increase antioxidant gene expression. Decreasing SUMOylation in beta cells impairs their antioxidant capacity, causes cell death, hyperglycaemia, and increased sensitivity to streptozotocin-induced diabetes, while increasing SUMOylation is protective. However, this protection from overt diabetes occurs in concert with glucose intolerance due to impaired beta cell function. A possible role for SUMOylation as a key factor balancing beta cell protection vs beta cell responsiveness to metabolic cues is discussed in this Commentary.

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Section: Sumoylation and The Isletsupporting

confidence: 92%

Section: Downstream Sumo-dependent Mechanisms In Isletssupporting

confidence: 62%

Section: Sumoylation and The Isletmentioning

confidence: 64%

Section: Sumoylation and The Isletmentioning

confidence: 99%

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A post-translational balancing act: the good and the bad of SUMOylation in pancreatic islets

MacDonald

2018

Diabetologia

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“…Indeed, SENP1 alone can enhance insulin exocytosis, but this action is blocked under oxidizing conditions (32). SUMOylation may play diverse roles in pancreatic islet biology (33), having recently been implicated in metabolism (34), incretin receptor signaling (35), excitability (36), and survival (37). Importantly, the role for SENP1 in insulin secretion and in vivo glucose homeostasis remains to be resolved.…”

Section: The Glucose-dependent Amplification Of Exocytosis In Human βmentioning

confidence: 99%

Isocitrate-to-SENP1 signaling amplifies insulin secretion and rescues dysfunctional β cells

Ferdaoussi

Dai

Jensen

et al. 2015

Journal of Clinical Investigation

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Sumoylation Modulates the Susceptibility to Type 1 Diabetes

Zhang

Chen

Zhou

et al. 2017

Advances in Experimental Medicine and Biology

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Susceptibility to type 1 diabetes (T1D) is determined by interactions of multiple genes with environmental triggers. Thus far, more than 50 T1D susceptibility regions have been suggested from genetic studies by employing either genome-wide or candidate gene approaches. Because the lack of a linear correlation between the presence of risk genes and the onset of disease, the exact susceptible genes encoded in these regions remain largely elusive. In 2004, we first reported the cloning of a novel small ubiquitin -like modifier (SUMO) gene, SUMO4, in the IDDM5 region on chromosome 6q25, and presented strong genetic and functional evidence suggesting that SUMO4 could be a novel T1D susceptibility gene. Follow up studies have consistently confirmed this association in multiple Asian populations despite controversial observations in Caucasians, which could be caused by genetic heterogeneity. In this chapter, we will summarize and validate genetic data for SUMO4 association studies in type 1 diabetes. The functional properties and possible molecular mechanisms by which altered sumoylation function modulates the development of type 1 diabetes will be also discussed based on published data.

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SUMOylation protects against IL-1β-induced apoptosis in INS-1 832/13 cells and human islets

Cited by 19 publications

References 50 publications

A post-translational balancing act: the good and the bad of SUMOylation in pancreatic islets

A post-translational balancing act: the good and the bad of SUMOylation in pancreatic islets

Isocitrate-to-SENP1 signaling amplifies insulin secretion and rescues dysfunctional β cells

Sumoylation Modulates the Susceptibility to Type 1 Diabetes

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