Verena Aumiller scite author profile

Idiopathic pulmonary fibrosis (IPF) is a lethal lung disease of unknown etiology. It is characterized by alterations of the alveolar epithelium, myofibroblast activation, and increased extracellular matrix deposition. Recently, reactivation of the developmental WNT/β-catenin pathway has been linked with pulmonary fibrosis. The cell-specific mechanisms and mediators of WNT/β-catenin signaling in the lung, however, remain elusive. Here, we applied an unbiased gene expression screen to identify epithelial cell-specific mediators of WNT/β-catenin signaling. We found the proinflammatory cytokine IL-1β to be one of the most up-regulated genes in primary murine alveolar epithelial Type II (ATII) cells after WNT3a treatment. Increased transcript and protein expression of IL-1β upon WNT3a treatment was further detected in primary ATII cells by quantitative RT-PCR (log fold change, 2.0 ± 0.5) and ELISA (1.8-fold increase). We observed significant up-regulation of IL-1β and IL-6 in bronchoalveolar lavage fluid (BALF) in bleomycin-induced lung fibrosis in vivo. Importantly, primary fibrotic ATII cells isolated from lungs subjected to bleomycin secreted enhanced IL-1β and IL-6 in vitro. Furthermore, the orotracheal application of recombinant WNT protein in the Tcf optimal promoter (TOP)-β-galactosidase reporter animals led to WNT/β-catenin activation in epithelial cells, along with significant increases in IL-1β and IL-6 in vivo (2.7-fold and 6.0-fold increases, respectively). Finally, we found increased WNT3a protein in fibrotic alveolar epithelia, accompanied by enhanced IL-1β and IL-6 concentrations in BALF from patients with IPF. Taken together, our findings reveal that the alveolar epithelium is a relevant source of proinflammatory cytokines induced by active WNT/β-catenin in pulmonary fibrosis. Thus, WNT/interleukin signaling represents a novel link between developmental pathway reactivation and inflammation in the development of pulmonary fibrosis.

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Comparative analysis of lysyl oxidase (like) family members in pulmonary fibrosis

Aumiller

Strobel

Romeike

et al. 2017

Sci Rep

107

101

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Extracellular matrix (ECM) composition and stiffness are major driving forces for the development and persistence of fibrotic diseases. Lysyl oxidase (LOX) and LOX-like (LOXL) proteins play crucial roles in ECM remodeling due to their collagen crosslinking and intracellular functions. Here, we systematically investigated LOX/L expression in primary fibroblasts and epithelial cells under fibrotic conditions, Bleomycin (BLM) induced lung fibrosis and in human IPF tissue. Basal expression of all LOX/L family members was detected in epithelial cells and at higher levels in fibroblasts. Various pro-fibrotic stimuli broadly induced LOX/L expression in fibroblasts, whereas specific induction of LOXL2 and partially LOX was observed in epithelial cells. Immunohistochemical analysis of lung tissue from 14 IPF patients and healthy donors revealed strong induction of LOX and LOXL2 in bronchial and alveolar epithelium as well as fibroblastic foci. Using siRNA experiments we observed that LOXL2 and LOXL3 were crucial for fibroblast-to-myofibroblast transition (FMT). As FMT could only be reconstituted with an enzymatically active LOXL2 variant, we conclude that LOXL2 enzymatic function is crucial for fibroblast transdifferentiation. In summary, our study provides a comprehensive analysis of the LOX/L family in fibrotic lung disease and indicates prominent roles for LOXL2/3 in fibroblast activation and LOX/LOXL2 in IPF.

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Drosophila Pur-α binds to trinucleotide-repeat containing cellular RNAs and translocates to the early oocyte

et al. 2012

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Roles of microRNAs beyond development — Metabolism and neural plasticity

Aumiller

Förstemann

2008

Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanism

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Therapeutic Small Interfering RNA Targeting Complement C3 in a Mouse Model of C3 Glomerulopathy

Zanchi

Locatelli

Cerullo

et al. 2022

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Alternative pathway complement dysregulation with abnormal glomerular C3 deposits and glomerular damage is a key mechanism of pathology in C3 glomerulopathy (C3G). No disease-specific treatments are currently available for C3G. Therapeutics inhibiting complement are emerging as a potential strategy for the treatment of C3G. In this study, we investigated the effects of N-acetylgalactosamine (GalNAc)–conjugated small interfering RNA (siRNA) targeting the C3 component of complement that inhibits liver C3 expression in the C3G model of mice with heterozygous deficiency of factor H (Cfh+/− mice). We showed a duration of action for GalNAc-conjugated C3 siRNA in reducing the liver C3 gene expression in Cfh+/− mice that were dosed s.c. once a month for up to 7 mo. C3 siRNA limited fluid-phase alternative pathway activation, reducing circulating C3 fragmentation and activation of factor B. Treatment with GalNAc-conjugated C3 siRNA reduced glomerular C3d deposits in Cfh+/− mice to levels similar to those of wild-type mice. Ultrastructural analysis further revealed the efficacy of the C3 siRNA in slowing the formation of mesangial and subendothelial electron-dense deposits. The present data indicate that RNA interference–mediated C3 silencing in the liver may be a relevant therapeutic strategy for treating patients with C3G associated with the haploinsufficiency of complement factor H.

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Verena Aumiller

WNT/β-Catenin Signaling Induces IL-1β Expression by Alveolar Epithelial Cells in Pulmonary Fibrosis

Comparative analysis of lysyl oxidase (like) family members in pulmonary fibrosis

Drosophila Pur-α binds to trinucleotide-repeat containing cellular RNAs and translocates to the early oocyte

Roles of microRNAs beyond development — Metabolism and neural plasticity

Therapeutic Small Interfering RNA Targeting Complement C3 in a Mouse Model of C3 Glomerulopathy

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