Inhibition of fibrosis with multi-agent therapy in pulmonary fibrosis: Results of a drug library screening (original) (raw)
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Three recent clinical trials on the pharmacologic treatment of idiopathic pulmonary fibrosis (IPF) mark a new chapter in the management of patients suffering from this very severe fibrotic lung disease. This review article summarizes the published investigations on the preclinical studies of three novel IPF drugs, namely pirfenidone, nintedanib, and N-acetylcysteine (NAC). In addition, the study protocols, differences, and the main findings in the recent clinical trials of these pharmacological treatments are reviewed. The strategy for drug development and the timeline from the discovery to the clinical use have been very different in these regimens. Pirfenidone was discovered in 1976 but only recently received approval in most countries, and even now its exact mechanism of action is unknown. On the contrary, nintedanib (BIBF1120) was identified in large drug screening tests as a very specific inhibitor of certain tyrosine kinases, but no published data on preclinical tests existed until 2014. NAC, a mucolytic drug with an antioxidant mechanism of action was claimed to possess distinct antifibrotic properties in several experimental models but proved to be ineffective in a recent randomized placebo-controlled trial. At present, no curative treatment is available for IPF. A better understanding of the molecular mechanisms of IPF as well as relevant preclinical tests including animal models and in vitro experiments on human lung cells are needed to promote the development of therapeutic drugs.
American journal of respiratory and critical care medicine, 2015
Service study 19, daily doses of 450, 600, and 750 mg rifampin showed no difference in the incidence of hepatotoxicity (11). Studies evaluating higher-dose intermittent therapy with rifampin were associated with toxicity, however, and led to decreased interest in high-dose rifampin (11, 12). Although encouraging, the results from the study by Dorman and colleagues need to be interpreted cautiously. The absorption of rifapentine by administering the drug with a high-fat meal can enhance absorption by as much as 86%, but the need to administer rifapentine with a high-fat meal to increase the bioavailability will need to be accounted for in future studies and may limit the use of 4-month rifapentine-based regimens under programmatic conditions (13). Future phase 3 studies should also examine the use of therapeutic drug monitoring, given that there is variation in the area under the curve obtained in various populations (14). Last, although it is obvious that higher-dose rifamycins are well tolerated and lead to more rapid culture conversion rates at the end of the intensive phase of therapy, it is not clear which rifamycin is best. The long half-life of rifapentine is attractive, but its protein-bound state may limit its penetration into large pulmonary cavities with extensive caseous material. So, my dear Watson, it may just be that higher-dose rifampin and rifapentine have similar but distinct roles in various subpopulations. Future studies should take this into account, and adequate funding for trials looking at both drugs head to head will help us avoid missing the obvious because no one took the time to observe. n Author disclosures are available with the text of this article at www.atsjournals.org.
Core Evidence, 2016
The landscape of idiopathic pulmonary fibrosis (IPF) has changed. The significant progress regarding our knowledge on the pathogenesis of the disease together with the experience achieved after a series of negative trials has led to the development of two drugs for the treatment of IPF. Both pirfenidone and nintedanib can slow significantly the rate of disease progression. They are safe with side effects that can be either prevented by close collaboration between health care professionals and patients or treated successfully when they occur, rarely leading to treatment discontinuation. However, there are still few unanswered questions regarding the application of the beneficial results of pharmaceutical trials in the general population of IPF patients. Long-term "real-life" studies are being undertaken to answer these questions. In this article, we focus on the advances that have led to the development of the antifibrotic agents with particular focus on pirfenidone.
Drug, Healthcare and Patient Safety, 2020
Idiopathic Pulmonary Fibrosis (IPF) is a chronic fibrotic disease characterized by a progressive decline in lung function with a median survival of 3-5 years after diagnosis. The course of disease is highly variable and unpredictable, often punctuated by episodes of acute respiratory failure, known as acute exacerbations. The incidence of IPF is on the rise due to the aging population, as age is the most important risk factor for this disease. Pirfenidone and nintedanib are the two anti-fibrotic drugs approved for IPF which have shown reduction in lung function decline. This review will discuss the efficacy, safety and tolerability profile of pirfenidone from clinical trials and the real-world clinical experience. Pirfenidone reduces the decline in lung function and improves progression-free survival in patients with IPF. It is generally well tolerated with the most common side effects being gastrointestinal and phototoxicity.
Indian Journal of Pharmacy and Pharmacology, 2023
Idiopathic aspiratory fibrosis (IPF) is the most well-known sort of idiopathic interstitial pneumonia (IIP). IIPs are precipitously shappening (idiopathic) diffuse parenchymal lung illnesses. IPF is characterized as a precipitouly happening (idiopathic) explicit type of persistent fibrosing interstitial pneumonia restricted to the lung and related with an example of Usual Interstitial Pneumonia (UIP) on imaging or histology. Pleasant rules for the analysis of Interstitial Lung Disease (ILD), preceding thought for against fibrotic treatment, specify that the conclusion of ILD has been made by a multidisciplinary group (MDT). Keywords: IPF, Pirfenidone, Nintedanib, NAC, Antifibrotics
Respiratory Research, 2018
Background: Idiopathic pulmonary fibrosis (IPF) is a fatal interstitial lung disease. Repetitive injury and reprogramming of the lung epithelium are thought to be critical drivers of disease progression, contributing to fibroblast activation, extracellular matrix remodeling, and subsequently loss of lung architecture and function. To date, Pirfenidone and Nintedanib are the only approved drugs known to decelerate disease progression, however, if and how these drugs affect lung epithelial cell function, remains largely unexplored. Methods: We treated murine and human 3D ex vivo lung tissue cultures (3D-LTCs; generated from precision cut lung slices (PCLS)) as well as primary murine alveolar epithelial type II (pmATII) cells with Pirfenidone or Nintedanib. Murine 3D-LTCs or pmATII cells were derived from the bleomycin model of fibrosis. Early fibrotic changes were induced in human 3D-LTCs by a mixture of profibrotic factors. Epithelial and mesenchymal cell function was determined by qPCR, Western blotting, Immunofluorescent staining, and ELISA. Results: Low μM concentrations of Nintedanib (1 μM) and mM concentrations of Pirfenidone (2.5 mM) reduced fibrotic gene expression including Collagen 1a1 and Fibronectin in murine and human 3D-LTCs as well as pmATII cells. Notably, Nintedanib stabilized expression of distal lung epithelial cell markers, especially Surfactant Protein C in pmATII cells as well as in murine and human 3D-LTCs. Conclusions: Pirfenidone and Nintedanib exhibit distinct effects on murine and human epithelial cells, which might contribute to their anti-fibrotic action. Human 3D-LTCs represent a valuable tool to assess anti-fibrotic mechanisms of potential drugs for the treatment of IPF patients.
Pirfenidone for Idiopathic Pulmonary Fibrosis and Beyond
Cardiac failure review, 2022
Pirfenidone (PFD) slows the progression of idiopathic pulmonary fibrosis (IPF) by inhibiting the exaggerated fibrotic response and possibly through additional mechanisms, such as anti-inflammatory effects. PFD has also been evaluated in other fibrosing lung diseases. Myocardial fibrosis is a common feature of several heart diseases and the progressive deposition of extracellular matrix due to a persistent injury to cardiomyocytes may trigger a vicious cycle that leads to persistent structural and functional alterations of the myocardium. No primarily antifibrotic medications are used to treat patients with heart failure. There is some evidence that PFD has antifibrotic actions in various animal models of cardiac disease and a phase II trial on patients with heart failure and preserved ejection fraction has yielded positive results. This review summarises the evidence about the possible mechanisms of IPF and modulation by PFD, the main results about IPF or non-IPF interstitial pneumonias and also data about PFD as a potential protective cardiac drug.
Pharmacological treatment of idiopathic pulmonary fibrosis: from the past to the future
European Respiratory Review, 2013
During the past decade important progress has been made regarding the pathogenesis of idiopathic pulmonary fibrosis (IPF), which is the most devastating form of idiopathic interstitial pneumonia with a median survival of 3 years. The knowledge gained has been used to design multicentre, randomised, placebo-controlled trials in order to investigate agents with different mechanisms of action. Encouraging results have led to licensing of the first IPF-specific drug, pirfenidone. However, the road to successful treatment is still long. The main aim for the future should be the careful design of clinical trials, by choosing the most clinically meaningful end-point and keeping in mind that combination of various agents may be more effective. This approach has been used in the treatment of lung cancer with which IPF presents many similarities.
Treatment of Idiopathic Pulmonary Fibrosis with a New Antifibrotic Agent, Pirfenidone
American Journal of Respiratory and Critical Care Medicine, 1999
Idiopathic pulmonary fibrosis (IPF) is a progressive clinical syndrome of unknown etiology and fatal outcome. Currently available therapies are ineffective and associated with significant adverse effects. Pirfenidone, a new, investigational antifibrotic agent, was evaluated for its tolerability and usefulness in terminally ill patients with advanced IPF. Consecutive patients with IPF and deterioration despite conventional therapy or who were unable to tolerate or unwilling to try conventional therapy were treated with oral pirfenidone. Treatment was administered on a compassionate basis (open-label). Fifty-four patients were followed for mortality, change in lung function, and adverse effects. Their mean age was 62, mean duration of symptoms 4.6 yr, and time since lung biopsy was 3.2 yr. Conventional therapy was discontinued in 38 of 46 patients; the other eight were able to decrease their prednisone dosage and eight had no previous conventional treatment. One-and 2-yr survival was 78% (95% CI 66%, 89%) and 63% (95% CI 50%, 76%), respectively. Patients whose lung functions had deteriorated prior to enrollment appeared to stabilize after beginning treatment. Adverse effects were relatively minor. The results of this study are encouraging. Pirfenidone is a promising new treatment for IPF that is well tolerated. Raghu G, Johnson WC, Lockhart D, Mageto Y. Treatment of idiopathic pulmonary fibrosis with a new antifibrotic agent, pirfenidone: results of a prospective, open-label phase II study.
Pirfenidone: significant treatment effects in idiopathic pulmonary fibrosis
The clinical respiratory journal, 2012
Pirfenidone has been shown in three recently published trials to slow down the progression of the devastating interstitial lung disease, idiopathic pulmonary fibrosis (IPF). The precise mechanisms that initiate and perpetuate the histopathological process leading to lung fibrosis in IPF are still uncertain, but increased concentrations of reactive oxidative species and fibrogenetic factors have been observed in the pulmonary tissue of patients. Although the exact mechanisms of its action are unknown, pirfenidone is a small molecule with antifibrotic and some hydroxyl scavenger properties that has recently been approved in Europe and elsewhere for the treatment of IPF. Along with the new ATS/ERS/JRS/ALAT 2011 statement for 'Evidence Based Guidelines for Diagnosis and Management', there is now a more profound basis for offering IPF patients an evidence-based evaluation and treatment. This review summarizes the background to the recommended use of pirfenidone for the treatment ...