Macrophage skewing by Phd2 haplodeficiency prevents ischaemia by inducing arteriogenesis

Takeda, Yukiji; Costa, Sandra; Delamarre, Estelle; Roncal, Carmen; Oliveira, Rodrigo Leite de; Squadrito, Mario Leonardo; Finisguerra, Veronica; Deschoemaeker, Sofie; Bruyère, Françoise; Wenes, Mathias; Hamm, Alexander; Serneels, Jens; Magat, Julie; Bhattacharyya, Tapan; Anisimov, Andrey; Jordan, Bénédicte F.; Alitalo, Kari; Maxwell, Patrick H.; Gallez, Bernard; Zhuang, Zhen W.; Saito, Yoshihiko; Simons, Michael; Palma, Michele De; Mazzone, Massimiliano

doi:10.1038/nature10507

Cited by 259 publications

(257 citation statements)

References 34 publications

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“…While our understanding of the role of HIF hydroxylases in the regulation of immune cell function is far from complete, recent studies investigating individual HIF hydroxylase isoforms in discreet immune and epithelial cell subtypes have identified isoform-specific roles (80)(81)(82)(83)(84)(85)(86)(87)(88)(89). Notably, these phenotypes are not fully accounted for by downstream HIF-dependent effects, further supporting the existence of alternative hydroxylase-regulated pathways such as NF-κB in immune cells.…”

Section: Regulation Of Immune Cell Function By Phdsmentioning

confidence: 99%

Hypoxia-dependent regulation of inflammatory pathways in immune cells

Taylor¹,

Doherty²,

Fallon³

et al. 2016

Journal of Clinical Investigation

154

119

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Section: Regulation Of Immune Cell Function By Phdsmentioning

confidence: 99%

Hypoxia-dependent regulation of inflammatory pathways in immune cells

Taylor¹,

Doherty²,

Fallon³

et al. 2016

Journal of Clinical Investigation

154

119

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“…4A, 4B). However, it has still remained controversial regarding the role of NF-kB in macrophage differentiation, as someone supported the M1-prone effect of NF-kB, whereas others argued that NF-kB was equally important in priming M1 or M2 gene transcription or even had a negative effect on M1 macrophage development (32)(33)(34). We thus turned to other major signaling pathways such as MAPKs, which prove to play an essential role in mediating inflammatory response upon TLR engagement.…”

Section: Jnk Is Selectively Induced By Mir-127 To Skew the Macrophagementioning

confidence: 99%

MiR-127 Modulates Macrophage Polarization and Promotes Lung Inflammation and Injury by Activating the JNK Pathway

Ying

Kang

Zhang

et al. 2015

The Journal of Immunology

171

113

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A polarized macrophage response is presumed to have a pivotal role in a variety of immunological pathophysiology. However, the molecular mechanism underlying macrophage functional shaping remains largely unknown. In this study, we reveal a pivotal role of miR-127 in macrophage development and thereby the pathogenesis of inflammation and lung injury. In particular, miR-127 was demonstrated to be prominently induced upon TLR engagement and repressed by the M2-prone cytokines. Enforced expression of miR-127 in macrophages resulted in significantly increased production of proinflammatory cytokines, whereas deletion of miR-127 impaired M1 gene expression and led to a M2-biased response. Accordingly, intratracheal administration of miR-127 resulted in an exaggerated pulmonary inflammation and injury. Conversely, antagonizing of miR-127 suppressed production of the proinflammatory cytokines and rendered the mice more refractory to the inflammation-associated pathology. Mechanistically, miR-127 demonstrated to target B cell lymphoma 6 (Bcl6) and remarkably downregulated its expression and subsequently dual specificity phosphatase 1 (Dusp1), which in turn enhanced the activation of JNK kinase and hence the development of proinflammatory macrophages. Thereby, reconstitution with the expression of Bcl6 or Dusp1 or inhibition of JNK activity impaired miR-127–mediated skewing of M1 proinflammatory macrophages, whereas interference of Bcl6 or Dusp1 expression abrogated the anti-inflammatory property of anti–miR-127. Together, these data establish miR-127 as a molecular switch during macrophage development and as a potential target for treatment of inflammatory diseases.

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“…Subsequent studies revealed that the mechanism by which hypoxia leads to activation of NF-kB is also largely dependent upon altered HIF-hydroxylase activity. [57][58][59] Hydroxylase Inhibitors in Models of IBD As outlined above, hydroxylases are key oxygen sensors, which confer hypoxic sensitivity to transcriptional regulators including HIF and NF-kB, both of which are protective against colitis when activated in intestinal epithelial cells. As HIF and NF-kB are key regulators of both immune and inflammatory processes 35,37 it was initially proposed that pharmacologic hydroxylase inhibition, leading to enhanced HIF and NF-kB activity may be of therapeutic benefit in chronic inflammatory conditions such as IBD.…”

Section: Hydroxylases As Intracellular Oxygen Sensorsmentioning

confidence: 99%

Hydroxylases as therapeutic targets in inflammatory bowel disease

Cummins

Doherty

Taylor

2013

Laboratory Investigation

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Inflammatory bowel disease (IBD) is a common and debilitating clinical disorder comprising ulcerative colitis and Crohn's disease. IBD occurs when inappropriate immunological activity in the intestinal mucosa results in epithelial barrier dysfunction leading to exposure of the mucosal immune system to luminal antigenic material. This in turn results in the cycles of inflammation and further barrier dysfunction which underlie disease progression. Although significant therapeutic advances have been made over the last decade, current immunosuppressive and anti-inflammatory treatments for IBD have significant limitations due to lack of treatment response in some patients and adverse effects, including increased risk of infection and malignancy. Recent studies using experimental models of IBD have identified that intracellular hydroxylases, a group of enzymes responsible for oxygen sensing and activation of adaptive transcriptional responses to hypoxia may represent a new class of therapeutic targets in IBD. Hydroxylase inhibitors are effective in ameliorating symptoms of colitis at least in part through the promotion of intestinal epithelial barrier function. The mechanism of this protection is due to activation of hypoxia-sensitive transcription factors, including the hypoxiainducible factor (HIF) and nuclear factor kappa-B (NF-kB), which activate specific epithelial barrier-protective transcriptional programs. In this review, the mechanism(s) of action and the therapeutic potential of small molecule hydroxylase inhibitors for the treatment of IBD will be discussed.

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Macrophage skewing by Phd2 haplodeficiency prevents ischaemia by inducing arteriogenesis

Cited by 259 publications

References 34 publications

Hypoxia-dependent regulation of inflammatory pathways in immune cells

Hypoxia-dependent regulation of inflammatory pathways in immune cells

MiR-127 Modulates Macrophage Polarization and Promotes Lung Inflammation and Injury by Activating the JNK Pathway

Hydroxylases as therapeutic targets in inflammatory bowel disease

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