Interleukin-1β Causes Acute Lung Injury via αvβ5 and αvβ6 Integrin–Dependent Mechanisms

Ganter, Michael T.; Roux, Jérémie; Miyazawa, Byron; Howard, Marybeth; Frank, James A.; Su, George; Sheppard, Dean; Violette, Shelia M.; Weinreb, Paul H.; Horan, Gerald; Matthay, Michael A.; Pittet, Jean–François

doi:10.1161/circresaha.107.161067

Cited by 204 publications

(141 citation statements)

References 31 publications

(34 reference statements)

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“…84 Several excellent recent reviews have addressed integrin-mediated activation of TGF-␤ in the lung. 85,86 In mouse models of lung injury using ␤6 integrin subunit-null mice, ␣v␤6 integrin-mediated TGF-␤ activation has been implicated in lung permeability changes (high tidal volume, 68 bleomycin, LPS, 87 and interleukin [IL]-1␤-induced 88 ), surfactant homeostasis, 80 and fibrosis (bleomycin-and radiation-induced 27 ). Mechanisms involving alveolar/endothelial cell junction formation in lung permeability or epithelial mesenchymal transition in fibrosis have been proposed (Figure 2).…”

Section: Lungmentioning

confidence: 99%

“…Mechanisms involving alveolar/endothelial cell junction formation in lung permeability or epithelial mesenchymal transition in fibrosis have been proposed (Figure 2). 88,89 Less is know of the role of the integrin ␣v␤6 in the airway. In vitro, integrin ␣v␤6-mediated TGF-␤ activation may play a role in promoting squamous metaplasia of airway epithelial cells.…”

Section: Lungmentioning

confidence: 99%

“…Complete loss of ␤6 in knockout mice results in increased expression of MMP-12 by alveolar macrophages, which causes age-dependent airspace enlargement 81 and also increases susceptibility to pulmonary edema by increasing alveolar and endothelial permeability. 88 Increased expression of ␣v␤6 is associated with pulmonary inflammation and fibrotic lung disorders, and deficiency of ␤6 or antibody neutralization of ␣v␤6 in bleomycin or radiation-treated mice can decrease pulmonary fibrosis, 27,50,83 an effect that may in part be due to a role for ␣v␤6-mediated TGF-␤ activation in epithelial mesenchymal transition (EMT). 89 1366 Nishimura AJP October 2009, Vol.…”

Section: Lungmentioning

confidence: 99%

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Integrin-Mediated Transforming Growth Factor-β Activation, a Potential Therapeutic Target in Fibrogenic Disorders

Nishimura

2009

The American Journal of Pathology

133

122

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Section: Lungmentioning

confidence: 99%

Section: Lungmentioning

confidence: 99%

Section: Lungmentioning

confidence: 99%

See 1 more Smart Citation

Integrin-Mediated Transforming Growth Factor-β Activation, a Potential Therapeutic Target in Fibrogenic Disorders

Nishimura

2009

The American Journal of Pathology

133

122

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“…The cytokine interleukin-1␤ (IL-1␤) has been identified as a central mediator of epithelial permeability, ALI, and pulmonary fibrosis (23)(24)(25)(26)(27)(28)(29). Given that IL-1␤ and HER2 activation have both been implicated in the pathogenesis of lung injury, an interaction between the two signaling pathways is possible.…”

mentioning

confidence: 99%

Neuregulin-1-Human Epidermal Receptor-2 Signaling Is a Central Regulator of Pulmonary Epithelial Permeability and Acute Lung Injury

Finigan

Faress

Wilkinson

et al. 2011

Journal of Biological Chemistry

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The mechanisms behind the loss of epithelial barrier function leading to alveolar flooding in acute lung injury (ALI) are incompletely understood. We hypothesized that the tyrosine kinase receptor human epidermal growth factor receptor-2 (HER2) would be activated in an inflammatory setting and participate in ALI. Interleukin-1␤ (IL-1␤) exposure resulted in HER2 activation in human epithelial cells and markedly increased conductance across a monolayer of airway epithelial cells. Upon HER2 blockade, conductance changes were significantly decreased. Mechanistic studies revealed that HER2 trans-activation by IL-1␤ required a disintegrin and metalloprotease 17 (ADAM17)-dependent shedding of the ligand neuregulin-1 (NRG-1). In murine models of ALI, NRG-1-HER2 signaling was activated, and ADAM17 blockade resulted in decreased NRG-1 shedding, HER2 activation, and lung injury in vivo. Finally, NRG-1 was detectable and elevated in pulmonary edema fluid from patients with ALI. These results suggest that the ADAM17-NRG-1-HER2 axis modulates the alveolar epithelial barrier and contributes to the pathophysiology of ALI. Acute lung injury (ALI)3 is a severe clinical disorder with an annual incidence of ϳ200,000 and a mortality of 40% in the United States (1). Most commonly seen in the setting of sepsis (2-4), ALI is marked by disruption of the alveolar barrier, leukocyte activation, release of inflammatory cytokines, and hypercoagulability. The net effect is an increase in alveolar epithelial permeability, resulting in alveolar flooding with proteinrich edema and life-threatening hypoxemia (5). An intact epithelial barrier is essential to maintaining normal pulmonary fluid balance. Indeed, damage to the endothelium alone is insufficient to cause pulmonary edema, whereas epithelial injury results in severe lung injury (6 -8). The epithelium provides a greater resistance to proteins and fluid than the capillary endothelium and is responsible for the active ion transport-dependent removal of edema fluid from the distal air spaces of the lung (9 -11).The tyrosine kinase receptor human epidermal growth factor receptor-2 (HER2) is expressed by pulmonary bronchial epithelial cells and is involved in multiple physiologic processes, including cell proliferation and wound repair. The HER receptor family consists of four type 1, membrane-bound tyrosine kinase receptors: HER1 or epidermal growth factor receptor (EGFR), HER2, HER3, and HER4 (12). HER2 has no known ligand and requires partnering with another HER family member for activation. HER2 and 3 are highly expressed in pulmonary bronchial epithelial cells (compared with HER1 and 4) (13). HER3 is the receptor for the ligand neuregulin-1 (NRG-1), but HER3 has no intrinsic signaling properties (14). Upon NRG-1 binding, HER3 heterodimerizes with HER2, resulting in activation of the HER2 tyrosine kinase domain, HER2 autophosphorylation, and initiation of downstream intracellular signaling cascades (13). NRG-1 is expressed in bronchial epithelial cells (13,15,16) and is shed from the cell ...

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“…Recently, Ganter et al demonstrated a complete inhibition of pulmonary edema using anti-αvβ6 integrin and anti-TGF-antibodies in IL-1 instilled ALI model. 21 …”

Section: Alveolar Epithelial Integrin Receptors: Pulmonary Edemamentioning

confidence: 99%

Targeted Delivery of Surface Modified Nanoparticles: Modulation of Inflammation for Acute Lung Injury

Desu¹

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Interleukin-1β Causes Acute Lung Injury via αvβ5 and αvβ6 Integrin–Dependent Mechanisms

Cited by 204 publications

References 31 publications

Integrin-Mediated Transforming Growth Factor-β Activation, a Potential Therapeutic Target in Fibrogenic Disorders

Integrin-Mediated Transforming Growth Factor-β Activation, a Potential Therapeutic Target in Fibrogenic Disorders

Neuregulin-1-Human Epidermal Receptor-2 Signaling Is a Central Regulator of Pulmonary Epithelial Permeability and Acute Lung Injury

Targeted Delivery of Surface Modified Nanoparticles: Modulation of Inflammation for Acute Lung Injury

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