Acute Lung Injury Clinical Trial
Official title:
the Change of R-spondin Proteins Plasma Concentration Level Caused by Mechanical Ventilation and Its Effect on Mechanical Ventilation Induced Lung Injury
As novel agonists of Wnt/β-catenin signaling pathway, R-spondin proteins constitute a class of ligands, including R-spondin 1/2/3/4, functioning through their receptors leucine-rich repeat-containing G-protein coupled receptor (LGR)4/5/6 to enhance Wnt/β-catenin activity. Since Wnt signaling plays pivotal roles in the regulation of many life processes involved in embryogenesis and adulthood, R-spondin proteins also take part in cell proliferation, differentiation and morphogenesis.For example, in the formation of respiratory system,R-spondin 2 is required for normal laryngeal-tracheal and lung morphogenesis,and the lack of R-spondin 1 expression results in the absence of duct side-branching development and subsequent alveolar formation. In addition, R-spondins show protective effect in tissue injury and diseases. R-spondin 1 and R-spondin 3 have been reported to prevent chemotherapy- or radiotherapy-induced mucous membrane lesion. R-spondin 1 attenuates oral mucositis contributed by radiotherapy in mouse models and R-spondin 3 potentiates intestinal regeneration elicited via gastrointestinal toxic effect of chemoradiotherapy treatment. However, whether R-spondin proteins exert salient influence on acute lung injury especially induced by mechanical ventilation is deficient. Therefore, this study aims to ascertain the implication of R-spondin proteins in the pathology of mechanical ventilation induced lung injury through detecting human plasma concentration change of R-spondin 1/2/3/4 after mechanical ventilation and interference effects in mouse model, which is helpful for prevention and treatment of ventilation induced lung injury.
Mechanical ventilation is a critical intervention for patients with acute respiratory
failure. However, lung overdistension induced by mechanical ventilation also causes pulmonary
endothelial dysfunction. The injurious effect of mechanical stretch on pulmonary endothelium
has been implicated in the development of ventilator-induced lung injury, which is
characterized by pulmonary inflammation and particularly increased vascular permeability. In
addition, the investigators and others have previously shown that mechanical stretch
increases cultured lung endothelial monolayer permeability in vitro and promotes lung
vascular permeability in mice Thus, elucidating the mechanisms underlying the mechanical
stretch-induced lung endothelial barrier dysfunction may provide a novel clinical therapeutic
target against ventilator-induced lung injury.
As novel agonists of Wnt/β-catenin signaling pathway, R-spondin proteins constitute a class
of ligands, including R-spondin 1/2/3/4, functioning through their receptors leucine-rich
repeat-containing G-protein coupled receptor (LGR)4/5/6 to enhance Wnt/β-catenin activity.
Since Wnt signaling plays pivotal roles in the regulation of many life processes involved in
embryogenesis and adulthood, R-spondin proteins also take part in cell proliferation,
differentiation and morphogenesis. For example, in the formation of respiratory
system,R-spondin 2 is required for normal laryngeal-tracheal and lung morphogenesis,and the
lack of R-spondin 1 expression results in the absence of duct side-branching development and
subsequent alveolar formation. In addition, R-spondins show protective effect in tissue
injury and diseases. R-spondin 1 and R-spondin 3 have been reported to prevent chemotherapy-
or radiotherapy-induced mucous membrane lesion. R-spondin 1 attenuates oral mucositis
contributed by radiotherapy in mouse models and R-spondin 3 potentiates intestinal
regeneration elicited via gastrointestinal toxic effect of chemoradiotherapy treatment.
However, whether R-spondin proteins exert salient influence on acute lung injury especially
induced by mechanical ventilation is deficient. Therefore, this study aims to ascertain the
implication of R-spondin proteins in the pathology of mechanical ventilation induced lung
injury through detecting human plasma concentration change of R-spondin 1/2/3/4 after
mechanical ventilation and interference effects in mouse model, which is helpful for
prevention and treatment of ventilation induced lung injury.
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