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Elucidating the Molecular Pathways and Therapeutic Interventions of Gaseous Mediators in the Context of Fibrosis
by
Li, Qian
, Wang, Qianqian
, Wu, Siyuan
, Li, Aohan
, Chen, Yingqing
in
Apoptosis
/ Carbon monoxide
/ Development and progression
/ Extracellular matrix
/ Fibroblasts
/ Fibrosis
/ gaseous mediators
/ Health aspects
/ Homeostasis
/ Hydrogen
/ Hydrogen sulfide
/ Inflammation
/ Inflammatory diseases
/ Liver cirrhosis
/ Medical research
/ Molecular modelling
/ Mortality
/ myofibroblasts
/ Nitric oxide
/ Nitrogen dioxide
/ Oxidative stress
/ Pathogenesis
/ Pulmonary fibrosis
/ Roles
/ Senescence
/ Smooth muscle
/ Sulfur dioxide
/ Therapeutic applications
/ therapeutics
2024
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Elucidating the Molecular Pathways and Therapeutic Interventions of Gaseous Mediators in the Context of Fibrosis
by
Li, Qian
, Wang, Qianqian
, Wu, Siyuan
, Li, Aohan
, Chen, Yingqing
in
Apoptosis
/ Carbon monoxide
/ Development and progression
/ Extracellular matrix
/ Fibroblasts
/ Fibrosis
/ gaseous mediators
/ Health aspects
/ Homeostasis
/ Hydrogen
/ Hydrogen sulfide
/ Inflammation
/ Inflammatory diseases
/ Liver cirrhosis
/ Medical research
/ Molecular modelling
/ Mortality
/ myofibroblasts
/ Nitric oxide
/ Nitrogen dioxide
/ Oxidative stress
/ Pathogenesis
/ Pulmonary fibrosis
/ Roles
/ Senescence
/ Smooth muscle
/ Sulfur dioxide
/ Therapeutic applications
/ therapeutics
2024
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Elucidating the Molecular Pathways and Therapeutic Interventions of Gaseous Mediators in the Context of Fibrosis
by
Li, Qian
, Wang, Qianqian
, Wu, Siyuan
, Li, Aohan
, Chen, Yingqing
in
Apoptosis
/ Carbon monoxide
/ Development and progression
/ Extracellular matrix
/ Fibroblasts
/ Fibrosis
/ gaseous mediators
/ Health aspects
/ Homeostasis
/ Hydrogen
/ Hydrogen sulfide
/ Inflammation
/ Inflammatory diseases
/ Liver cirrhosis
/ Medical research
/ Molecular modelling
/ Mortality
/ myofibroblasts
/ Nitric oxide
/ Nitrogen dioxide
/ Oxidative stress
/ Pathogenesis
/ Pulmonary fibrosis
/ Roles
/ Senescence
/ Smooth muscle
/ Sulfur dioxide
/ Therapeutic applications
/ therapeutics
2024
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Elucidating the Molecular Pathways and Therapeutic Interventions of Gaseous Mediators in the Context of Fibrosis
Journal Article
Elucidating the Molecular Pathways and Therapeutic Interventions of Gaseous Mediators in the Context of Fibrosis
2024
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Overview
Fibrosis, a pathological alteration of the repair response, involves continuous organ damage, scar formation, and eventual functional failure in various chronic inflammatory disorders. Unfortunately, clinical practice offers limited treatment strategies, leading to high mortality rates in chronic diseases. As part of investigations into gaseous mediators, or gasotransmitters, including nitric oxide (NO), carbon monoxide (CO), and hydrogen sulfide (H2S), numerous studies have confirmed their beneficial roles in attenuating fibrosis. Their therapeutic mechanisms, which involve inhibiting oxidative stress, inflammation, apoptosis, and proliferation, have been increasingly elucidated. Additionally, novel gasotransmitters like hydrogen (H2) and sulfur dioxide (SO2) have emerged as promising options for fibrosis treatment. In this review, we primarily demonstrate and summarize the protective and therapeutic effects of gaseous mediators in the process of fibrosis, with a focus on elucidating the underlying molecular mechanisms involved in combating fibrosis.
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