Rôle de la petite protéine de choc thermique alphaB crystallin dans la fibrogénèse pulmonaire et son implication dans la voie de signalisation du transforming growth factor - béta1 / Role of the small heat shock protein alphaB-crystallin in pulmonary fibrosis and its implication in the signaling pathway of the Transforming Growth Factor béta1

Bellaye, Pierre-Simon

15 November 2013

La fibrose pulmonaire idiopathique (FPI) est de pronostic sombre et sans traitement efficace. Elle est caractérisée par un début sous pleural et la présence de myofibroblastes responsables de la synthèse excessive de la matrice extracellulaire. La voie de signalisation du Transforming Growth Factor (TGF)-β1, facteur clé de la genèse de la fibrose et sa progression, passe par les Smads, notamment Smad4. Le TGF-β1 induit la différenciation des fibroblastes pulmonaires et des cellules épithéliales et mésothéliales en myofibroblastes. AB-crystallin est une protéine de choc thermique surexprimée dans la fibrose du foie, du rein et la fibrose vasculaire. Elle peut être induite par le TGF-β1. Dans ce travail, nous avons étudié le rôle d’αB-crystallin dans la fibrose pleurale et pulmonaire. Nous montrons qu’αB-crystallin est surexprimée dans les poumons et la plèvre de patients atteints de FPI. In vivo, dans trois modèles de fibrose pulmonaire (bléomycine, surexpression de TGF-β1 ou d’IL-1β) les souris KO pour αB-crystallin sont protégées de la fibrose avec une inhibition de la voie du TGF-β. In vitro, dans les cellules épithéliales, mésothéliales ou les fibroblastes, αB-crystallin augmente la localisation nucléaire de Smad4. En interagissant avec TIF1γ, responsable de l’export nucléaire de Smad4, elle favorise la séquestration nucléaire de Smad4 et son activité pro-fibrosante. Au contraire, son inhibition permet la formation du complexe Smad4/TIF1γ et l’export nucléaire de Smad4 inhibant son activité. Ce travail montre l’importance d’αB-crystallin dans la fibrose pleuro-pulmonaire et son rôle sur la voie du TGF-. AB-crystallin pourrait être une cible thérapeutique de la FPI. / Idiopathic pulmonary fibrosis (IPF) has no effective current treatment. It is characterized by a sub-pleural onset and the presence of myofibroblasts, responsible for the excessive extracellular matrix synthesis. Transforming Growth Factor (TGF)-β1 is considered as the major profibrotic cytokine. Its signaling pathway occurs through the Smads proteins, including Smad4. TGF-β1 allows the differentiation of lung fibroblasts and epithelial and mesothelial cells into myofibroblasts. AB-crystallin is a small heat shock protein overexpressed in liver, renal and vascular fibrosis and can be induced by TGF-β1. In this study, we assessed the role of αB-crystallin in pleural and pulmonary fibrosis. We show that αB-crystallin is overexpressed in the lung and the pleura of IPF patients. In vivo, in three pulmonary fibrosis models (bleomycin, TGF-β1 or IL-1β overexpression) αB-crystallin KO mice are protected from fibrosis with an inhibition of the TGF-β pathway. In vitro, in epithelial and mesothelial cells or fibroblasts, αB-crystallin increases Smad4 nuclear localization. Interacting with TIF1γ, responsible for the nuclear export of Smad4, it promotes the nuclear sequestration of Smad4 and thus its profibrotic activity. Instead, αB-crystallin inhibition allows the formation of the Smad4/TIF1γ complex and promotes Smad4 nuclear export an profibrotic activity. This work shows the importance of αB-crystallin in pleuro-pulmonary fibrosis and its role on the TGF-β1 pathway. AB-crystallin appears as a putative therapeutic target for IPF.

Fibrose pulmonaire idiopathique

ΑB-crystallin

Transforming Growth Factor-β1

Transition épithélio-mésenchymateuse

Plèvre

Fibrose pleurale

Idiopathic pulmonary fibrosis

ΑB-crystallin

Transforming Growth Factor-β1

Epithelial-Mesenchymal transition

Pleura

Pleural fibrosis

571.6

572

612.2

Distribution of transpulmonary pressure during one-lung ventilation in pigs at different body positions

Wittenstein, Jakob, Scharffenberg, Martin, Yang, Xiuli, Bluth, Thomas, Kiss, Thomas, Schultz, Marcus J., Rocco, Patricia R. M., Pelosi, Paolo, De Abreu, Marcelo Gama, Huhle, Robert

05 August 2024

Background: Global and regional transpulmonary pressure (PL) during one-lung ventilation (OLV) is poorly characterized. We hypothesized that global and regional PL and driving PL (ΔPL) increase during protective low tidal volume OLV compared to two-lung ventilation (TLV), and vary with body position. Methods: In sixteen anesthetized juvenile pigs, intra-pleural pressure sensors were placed in ventral, dorsal, and caudal zones of the left hemithorax by video-assisted thoracoscopy. A right thoracotomy was performed and lipopolysaccharide administered intravenously to mimic the inflammatory response due to thoracic surgery. Animals were ventilated in a volume-controlled mode with a tidal volume (VT) of 6 mL kg⁻¹ during TLV and of 5 mL kg⁻¹ during OLV and a positive end-expiratory pressure (PEEP) of 5 cmH₂O. Global and local transpulmonary pressures were calculated. Lung instability was defined as end-expiratory PL<2.9 cmH₂O according to previous investigations. Variables were acquired during TLV (TLVsupine), left lung ventilation in supine (OLVsupine), semilateral (OLVsemilateral), lateral (OLVlateral) and prone (OLVprone) positions randomized according to Latin-square sequence. Effects of position were tested using repeated measures ANOVA. Results: End-expiratory PL and ΔPL were higher during OLVsupine than TLVsupine. During OLV, regional end-inspiratory PL and ΔPL did not differ significantly among body positions. Yet, end-expiratory PL was lower in semilateral (ventral: 4.8 ± 2.9 cmH₂O; caudal: 3.1 ± 2.6 cmH₂O) and lateral (ventral: 1.9 ± 3.3 cmH₂O; caudal: 2.7 ± 1.7 cmH₂O) compared to supine (ventral: 4.8 ± 2.9 cmH₂O; caudal: 3.1 ± 2.6 cmH2O) and prone position (ventral: 1.7 ± 2.5 cmH₂O; caudal: 3.3 ± 1.6 cmH₂O), mainly in ventral (p ≤ 0.001) and caudal (p = 0.007) regions. Lung instability was detected more often in semilateral (26 out of 48 measurements; p = 0.012) and lateral (29 out of 48 measurements, p < 0.001) as compared to supine position (15 out of 48 measurements), and more often in lateral as compared to prone position (19 out of 48 measurements, p = 0.027). Conclusion: Compared to TLV, OLV increased lung stress. Body position did not affect stress of the ventilated lung during OLV, but lung stability was lowest in semilateral and lateral decubitus position.

info:eu-repo/classification/ddc/610

ddc:610

Evidence for a dual origin of insect wings via cross-wiring of ancestral tergal and pleural gene regulatory networks

Deem, Kevin David

06 April 2022

No description available.

Biology

Evolution and Development

Developmental Biology

Entomology

evo-devo

evolutionary developmental biology

wing origin

tergal

pleural

dual

enhancer reporter assay

enhancers

insects

FAIRE-seq

open chromatin

Drosophila

Tribolium

gene regulatory networks

GRNs

Gal4-UAS

PhiC31

insect transgenic

insect reporter assay

cross species reporter assay

vestigial

cross-wiring