Ragini Vittal scite author profile

The NADPH oxidase (NOX) family of enzymes, which catalyze the reduction of O2 to form reactive oxygen species (ROS), have increased in number during eukaryotic evolution1,2. Seven isoforms of the NOX gene family have been identified in mammals; however, specific roles of NOX enzymes in mammalian physiology and pathophysiology have not been fully elucidated3,4. The best established physiological role of NOX enzymes is in host defense against pathogen invasion in diverse species, including plants5,6. The prototypical member of this family, NOX2 (gp91phox), is expressed in phagocytic cells and mediates microbicidal activities7,8. Here, we report a role for the NOX4 isoform in tissue repair functions of myofibroblasts and fibrogenesis. Transforming growth factor-β1 (TGF-β1) induces NOX4 expression in lung mesenchymal cells by a SMAD3-dependent mechanism. NOX4-dependent generation of hydrogen peroxide (H2O2) is required for TGF-β1-induced myofibroblast differentiation, extracellular matrix (ECM) production, and contractility. NOX4 is upregulated in lungs of mice subjected to non-infectious injury and in human idiopathic pulmonary fibrosis (IPF). Genetic or pharmacologic targeting of NOX4 abrogates fibrogenesis in two different murine models of lung injury. These studies support a novel function for NOX4 in tissue fibrogenesis and provide proof-of-concept for therapeutic targeting of NOX4 in recalcitrant fibrotic disorders.

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Combinatorial activation of FAK and AKT by transforming growth factor-β1 confers an anoikis-resistant phenotype to myofibroblasts

Horowitz

Rogers

Sharma

et al. 2007

Cellular Signalling

224

177

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Transforming growth factor-β (TGF-β) is a prototypical tumour-suppressor cytokine with cytostatic and pro-apoptotic effects on most target cells; however, mechanisms of its pro-survival/antiapoptotic signalling in certain cell types and contexts remain unclear. In human lung fibroblasts, TGF-β1 is known to induce myofibroblast differentiation in association with the delayed activation of focal adhesion kinase (FAK) and protein kinase B (PKB/AKT). Here, we demonstrate that FAK and AKT are independently regulated by early activation of SMAD3 and p38 MAPK, respectively. Pharmacologic or genetic approaches that disrupt SMAD3 signalling block TGF-β1-induced activation of FAK, but not AKT; in contrast, disruption of early p38 MAPK signalling abrogates AKT activation, but does not alter FAK activation. TGF-β1 is able to activate AKT in cells expressing mutant FAK or in cells treated with an RGD-containing peptide that interferes with integrin signalling, inhibits FAK activation and induces anoikis (apoptosis induced by loss of adhesion signalling). TGF-β1 protects myofibroblasts from anoikis, in part, by activation of the PI3K-AKT pathway. Thus, TGF-β1 co-ordinately and independently activates the FAK and AKT protein kinase pathways to confer an anoikis-resistant phenotype to myofibroblasts. Activation of these prosurvival/anti-anoikis pathways in myofibroblasts likely contributes to essential roles of TGF-β1 in tissue fibrosis and tumour-promotion.

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Neutralizing IL-17 Prevents Obliterative Bronchiolitis in Murine Orthotopic Lung Transplantation

Fan

Benson

Vittal

et al. 2011

American Journal of Transplantation

137

141

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Obliterative bronchiolitis (OB) is the key impediment to the long-term survival of lung transplant recipients and the lack of a robust preclinical model precludes examining OB immunopathogenesis. In the current study, lungs from C57BL/10 H-2 b mice that are MHC compatible, but minor histocompatability antigen incompatible, were transplanted into C57BL/6 mice. Histological features and cytokine profiles of OB were assessed. Moderate rejection (grade A3) developed by day 14, with evidence of OB at that time point. At 21 days, OB was present in 55% of grafts and moderate to severe rejection (grade A3-A4) was present in all mice. At 28 days, OB was present in 44% of mice and severe rejection (grade A4) was present in all. IL-17A, but not IL-17F, splenic mRNA transcripts and serum protein levels were increased only in mice that developed OB, whereas IL-10 transcripts and protein were increased only in non-OB mice. Neutralizing IL-17 prevented OB, down regulated acute rejection, and upregulated systemic IL-10. Collectively, these data show that transplantation of minor histoincompatible lungs from C57BL/10 mice into C57BL/6 mice results in a highly reproducible preclinical model of OB. In addition, these data indicate that neutralizing IL-17A or augmenting IL-10 could be therapeutic interventions to prevent OB.

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Modulation of Prosurvival Signaling in Fibroblasts by a Protein Kinase Inhibitor Protects against Fibrotic Tissue Injury

Vittal

Horowitz

Moore

et al. 2005

The American Journal of Pathology

116

112

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IL-17 induces type V collagen overexpression and EMT via TGF-β-dependent pathways in obliterative bronchiolitis

Vittal¹,

Fan²,

Greenspan³

et al. 2013

American Journal of Physiology-Lung Cellular and Molecular Phys

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erative bronchiolitis (OB), a fibrotic airway lesion, is the leading cause of death after lung transplantation. Type V collagen [col(V)] overexpression and IL-17-mediated anti-col(V) immunity are key contributors to OB pathogenesis. Here, we report a previously undefined role of IL-17 in inducing col(V) overexpression, leading to epithelial mesenchymal transition (EMT) and subsequent OB. We observed IL-17-mediated induction of col(V) ␣1 chains [␣1 (V)] in normal airway epithelial cells in vitro and detected ␣1 (V)-specific antibodies in bronchoalveolar lavage fluid of lung transplant patients. Overexpression of IL-17 and col(V) was detected in OB lesions in patient lung biopsies and in a murine OB model. IL-17 is shown to induce EMT, TGF-␤ mRNA expression, and SMAD3 activation, whereas downregulating SMAD7 expression in vitro. Pharmacological inhibition of TGF-␤RI tyrosine kinase, p38 MAPK, or focal adhesion kinase prevented col(V) overexpression and EMT. In murine orthotopic lung transplants, neutralizing IL-17 significantly decreased TGF-␤ mRNA and protein expression and prevented epithelial repair/ OB. Our findings highlight a feed-forward loop between IL-17 and TGF-␤, leading to induction of col(V) and associated epithelial repair, thus providing one possible link between autoimmunity and OB after lung transplantation. autoimmunity; p38 MAPK; focal adhesion kinase; small-airway epithelial cells; RLE-6TN; mouse transplant model; epithelial-mesenchymal transition OBLITERATIVE BRONCHIOLITIS (OB) is characterized by extensive peribronchiolar fibrosis with plugs of granulation tissues (fibroblasts and collagen) that occlude small airways. OB is the key reason that the 5-yr survival of lung transplant recipients is only 50%, the worst of all major solid organ transplants (42,48).Aberrant epithelial repair is a key event in the transplanted lung (1, 9) in which bronchioles lose resident epithelial cells and become occluded by granulation tissue. Abnormal epithelial repair eventually causes an epithelial-to-mesenchymal transition (EMT), a functional and phenotypic change of epithelial cells into spindle-shaped, migratory (43) and matrix-component-secreting mesenchymal cells (10, 41), and a process associated with lung fibrosis (15,27). However, the direct connection between EMT and the in vivo phenomena of fibrosis and fibro-obliterative disease remains controversial.We and others previously reported that OB is associated with dysregulation of two types of collagen: 1) marked increase in type V collagen [col(V)], a quantitatively minor lung collagen (8,14,40), and 2) a decrease in the major lung collagen type I [col(I)] (2, 53). We have shown that prospective monitoring of patients with human lung transplant revealed a critical role of col(V)-specific cellular immunity in OB pathogenesis (14,40). Although overexpression of col(V), an otherwise quantitatively minor collagen, is involved in OB pathology, mechanisms leading to col(V) overexpression are unknown. Thus a mechanistic understanding of the triggers of col(V)...

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Ragini Vittal

NADPH oxidase-4 mediates myofibroblast activation and fibrogenic responses to lung injury

Combinatorial activation of FAK and AKT by transforming growth factor-β1 confers an anoikis-resistant phenotype to myofibroblasts

Neutralizing IL-17 Prevents Obliterative Bronchiolitis in Murine Orthotopic Lung Transplantation

Modulation of Prosurvival Signaling in Fibroblasts by a Protein Kinase Inhibitor Protects against Fibrotic Tissue Injury

IL-17 induces type V collagen overexpression and EMT via TGF-β-dependent pathways in obliterative bronchiolitis

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