Silencing Mitogen-activated Protein 4 Kinase 4 (MAP4K4) Protects Beta Cells from Tumor Necrosis Factor-α-induced Decrease of IRS-2 and Inhibition of Glucose-stimulated Insulin Secretion

Bouzakri, Karim; Ribaux, Pascale; Halban, Philippe A.

doi:10.1074/jbc.m109.048058

Cited by 52 publications

(59 citation statements)

References 53 publications

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“…silencing has reproduced that reported earlier in rat primary ␤-cells (30). MafA is a highly phosphorylated protein and tightly controlled by the coordinated action of multiple kinase pathways (36 -39).…”

Section: Discussionsupporting

confidence: 67%

“…Of interest, knockdown of MAP4K4 by siRNA prevented the inhibitory effect of TNF-␣ on IRS2 expression in Min6 cells (Fig. 6C), an observation consistent with a previous study in rat primary islets (30). Taken together, the data presented here demonstrated unequivocally that MAP4K4 negatively regulates insulin gene transcription and signaling and that silencing of MAP4K4 essentially mimicked miR-30d-targeted down-regulation of MAP4K4 in protecting ␤-cells from TNF-␣-induced inhibition.…”

Section: Tnf-␣-induced Map4k4 Inhibits Insulin Genesupporting

confidence: 75%

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MicroRNA-30d Induces Insulin Transcription Factor MafA and Insulin Production by Targeting Mitogen-activated Protein 4 Kinase 4 (MAP4K4) in Pancreatic β-Cells

Zhao

Mohan

Özcan

et al. 2012

Journal of Biological Chemistry

120

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Section: Discussionsupporting

confidence: 67%

Section: Tnf-␣-induced Map4k4 Inhibits Insulin Genesupporting

confidence: 75%

MicroRNA-30d Induces Insulin Transcription Factor MafA and Insulin Production by Targeting Mitogen-activated Protein 4 Kinase 4 (MAP4K4) in Pancreatic β-Cells

Zhao

Mohan

Özcan

et al. 2012

Journal of Biological Chemistry

120

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“…Other studies have shown that Akt activity can be inhibited by proinflammatory cytokines (42,43). We therefore examined whether TRB3 knockdown attenuated the ability of cytokines to inhibit Akt Ser 473 phosphorylation (Fig.…”

Section: Figure 2 Mlk-dependent Induction Of Proapoptotic Markers Inmentioning

confidence: 99%

Mixed Lineage Kinase-3 Stabilizes and Functionally Cooperates with TRIBBLES-3 to Compromise Mitochondrial Integrity in Cytokine-induced Death of Pancreatic Beta Cells

Humphrey

Newcomb

et al. 2010

Journal of Biological Chemistry

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Mixed lineage kinases (MLKs) have been implicated in cytokine signaling as well as in cell death pathways. Our studies show that MLK3 is activated in leukocyte-infiltrated islets of nonobese diabetic mice and that MLK3 activation compromises mitochondrial integrity and induces apoptosis of beta cells. Using an ex vivo model of islet-splenocyte co-culture, we show that MLK3 mediates its effects via the pseudokinase TRB3, a mammalian homolog of Drosophila Tribbles. TRB3 expression strongly coincided with conformational change and mitochondrial translocation of BAX. Mechanistically, MLK3 directly interacted with and stabilized TRB3, resulting in inhibition of Akt, a strong suppressor of BAX translocation and mitochondrial membrane permeabilization. Accordingly, attenuation of MLK3 or TRB3 expression each prevented cytokine-induced BAX conformational change and attenuated the progression to apoptosis. We conclude that MLKs compromise mitochondrial integrity and suppress cellular survival mechanisms via TRB3-dependent inhibition of Akt.In type 1 diabetes, the autoimmune destruction of pancreatic beta cells is driven by leukocyte infiltration and the damaging effects of locally secreted cytokines. Cytokines activate MAPKs 3 JNK and p38, via signaling modules that involve the sequential activation of a MAP3K, MAP2K, and MAPK, all scaffolded by a single protein (1). The existence of several families of MAP3Ks raises the possibility that each MAP3K may be activated by specific classes of stimuli. The serine-threonine MAP3K mixed lineage kinase-3 (MLK3) is activated by cytokines (2, 3) and assembles a signaling module consisting of MKK7, JNK, and the scaffold protein JIP1 (4, 5). Fibroblasts with a targeted deletion of either MKK7 or MLK3 are attenuated in their response to cytokines (6, 7). Elevation of MLK3 has been linked to induction of apoptosis in neurons (8 -10), and inhibition of MLKs can delay progression of neurodegenerative diseases (reviewed in Ref. 11 and studies quoted therein). The striking parallels between the beta cell and neuronal phenotypes, coupled with the ability of cytokines to activate MLK3, prompted us to examine whether MLKs participate in cytokine-induced beta cell death.Here we show that MLK3 is markedly elevated in leukocyteinfiltrated islets of the non-obese type 1 diabetic (NOD) mouse. To investigate the potential role of MLK3 in beta cell death, we devised an ex vivo system for co-culture of primary islets with immune-activated splenocytes. Compared with static culture with purified cytokines, this system is likely to be more representative of the milieu encountered by islets in autoimmune diabetes. We observed rapid activation of MLK3, and MLK3 was required for cytokine-mediated apoptosis via BAX, a proapoptotic member of the BCL-2 protein family. MLK3 mediated its effects via the pseudokinase TRB3 (TRIBBLES homolog 3), originally identified as an inducible factor in neuronal cell death (12) and subsequently shown to be a potent negative regulator of the prosurvival kinase Akt (13). We fo...

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“…M itogen-activated protein kinase kinase kinase kinase 4 (MAP4K4, or HGK), and its homologues Misshapen and MIG-15 have been shown to regulate a multitude of biological processes, including embryonic development, 1,2 metabolism, 3,4 inflammation, 5 neural regeneration, 6 angiogenesis, 7 and cancer. 8,9 Given its diverse roles in these processes, we became interested in the therapeutic potential of MAP4K4 inhibition and began an endeavor to identify an inhibitor that would function in vivo.…”

mentioning

confidence: 99%

Structure-Based Design of GNE-495, a Potent and Selective MAP4K4 Inhibitor with Efficacy in Retinal Angiogenesis

Ndubaku¹,

Crawford²,

Chen³

et al. 2015

ACS Med. Chem. Lett.

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Diverse biological roles for mitogen-activated protein kinase kinase kinase kinase 4 (MAP4K4) have necessitated the identification of potent inhibitors in order to study its function in various disease contexts. In particular, compounds that can be used to carry out such studies in vivo would be critical for elucidating the potential for therapeutic intervention. A structurebased design effort coupled with property-guided optimization directed at minimizing the ability of the inhibitors to cross into the CNS led to an advanced compound 13 (GNE-495) that showed excellent potency and good PK and was used to demonstrate in vivo efficacy in a retinal angiogenesis model recapitulating effects that were observed in the inducible Map4k4 knockout mice.

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Silencing Mitogen-activated Protein 4 Kinase 4 (MAP4K4) Protects Beta Cells from Tumor Necrosis Factor-α-induced Decrease of IRS-2 and Inhibition of Glucose-stimulated Insulin Secretion

Cited by 52 publications

References 53 publications

MicroRNA-30d Induces Insulin Transcription Factor MafA and Insulin Production by Targeting Mitogen-activated Protein 4 Kinase 4 (MAP4K4) in Pancreatic β-Cells

MicroRNA-30d Induces Insulin Transcription Factor MafA and Insulin Production by Targeting Mitogen-activated Protein 4 Kinase 4 (MAP4K4) in Pancreatic β-Cells

Mixed Lineage Kinase-3 Stabilizes and Functionally Cooperates with TRIBBLES-3 to Compromise Mitochondrial Integrity in Cytokine-induced Death of Pancreatic Beta Cells

Structure-Based Design of GNE-495, a Potent and Selective MAP4K4 Inhibitor with Efficacy in Retinal Angiogenesis

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