ABSTRACT
Idiopathic pulmonary fibrosis (IPF) is a progressive and ultimately fatal chronic interstitial lung disease characterized by a progressive decline in lung function, and current treatment options are limited. cAMP is one of the most important second messengers and plays a key role in relaxing airway smooth muscle cells and reducing inflammation. Phosphodiesterase (PDE) is a superfamily of enzymes, and PDE4 enzymes dominate 11 PDE superfamily enzymes, available in four isoforms-PDE4A, PDE4B, PDE4C and PDE4D, which selectively decompose cAMP, while PDE4 inhibitors increase cAMP levels by preventing cAMP from breaking down, thereby exerting anti-inflammatory, anti-remodeling effects and providing an attractive drug target for the treatment of IPF. This review summarizes knowledge about the association of pulmonary fibrosis with PKE4, as well as emerging preclinical studies and clinical trials regarding PDE4 inhibitors.
ABSTRACT
IPF is a chronic progressive interstitial lung disease of unknown etiology and poor prognosis, and despite receive treatment, most patients consideration are likely to progress or worsen. Integrins are heterodimer cell surface proteins that are promising therapeutic targets for intervention in pulmonary fibrosis. Alphav integrins are central to the development of fibrosis because they activate latent TGF-β, a known pro-fibrosis cytokine. The alphav subunit may form heterodimers with the β1, β3, β5, β6, or β8 subunits, one or more of which are essential for the development of pulmonary fibrosis, but their relative importance is unclear. This review summarizes the knowledge of the association of pulmonary fibrosis with alpha-val-integrins, as well as emerging preclinical studies and clinical trials of alpha-fibrosis inhibitors.
ABSTRACT
Idiopathic pulmonary fibrosis (IPF) is a chronic progressive disease with unknown etiology, which is characterized by scarring of lung parenchyma, leading to reduced quality of life and premature death. At present, some studies have confirmed that hypothyroidism (HT) may play a role in the development of fibrosis. Many animal experiments have proved that thyroid hormone (TH) can inhibit pulmonary fibrosis by regulating glucose metabolism, improving mitochondrial function and inhibiting inflammation. This paper summarizes the correlation between TH and IPF, and deeply understands the relationship between TH and IPF, in order to have new treatment strategies for IPF in the future.