The effects of a maintenance therapy with peg-interferon alpha-2a on liver fibrosis in HIV/HCV co-infected patients: a randomized controlled trial

Ongoing Clinical Trials in Aging-Related Tissue Fibrosis and New Findings Related to AhR Pathways

Fibrosis is a pathological manifestation of wound healing that replaces dead/damaged tissue with collagen-rich scar tissue to maintain homeostasis, and complications from fibrosis contribute to nearly half of all deaths in the industrialized world. Ageing is closely associated with a progressive decline in organ function, and the prevalence of tissue fibrosis dramatically increases with age. Despite the heavy clinical and economic burden of organ fibrosis as the population ages, to date, there is a paucity of therapeutic strategies that are specifically designed to slow fibrosis. Aryl hydrocarbon receptor (AhR) is an environment-sensing transcription factor that exacerbates aging phenotypes in different tissues that has been brought back into the spotlight again with economic development since AhR could interact with persistent organic pollutants derived from incomplete waste combustion. In addition, gut microbiota dysbiosis plays a pivotal role in the pathogenesis of numerous diseases, and microbiota-associated tryptophan metabolites are dedicated contributors to fibrogenesis by acting as AhR ligands. Therefore, a better understanding of the effects of tryptophan metabolites on fibrosis modulation through AhR may facilitate the exploitation of new therapeutic avenues for patients with organ fibrosis. In this review, we primarily focus on how tryptophan-derived metabolites are involved in renal fibrosis, idiopathic pulmonary fibrosis, hepatic fibrosis and cardiac fibrosis. Moreover, a series of ongoing clinical trials are highlighted.

Hepatitis C in human immunodeficiency virus co-infected individuals: Is this still a "special population"?

A substantial proportion of individuals with chronic hepatitis C virus (HCV) are co-infected with human immunodeficiency virus (HIV). Co-infected individuals are traditionally considered as one of the "special populations" amongst those with chronic HCV, mainly because of faster progression to end-stage liver disease and suboptimal responses to treatment with pegylated interferon alpha and ribavirin, the benefits of which are often outweighed by toxicity. The advent of the newer direct acting antivirals (DAAs) has given hope that the majority of co-infected individuals can clear HCV. However the "special population" designation may prove an obstacle for those with co-infection to gain access to the new agents, in terms of requirement for separate pre-licensing clinical trials and extensive drug-drug interaction studies. We review the global epidemiology, natural history and pathogenesis of chronic hepatitis C in HIV co-infection. The accelerated course of chronic hepatitis C in HIV co-infection is not adequately offset by successful combination antiretroviral therapy. We also review the treatment trials of chronic hepatitis C in HIV co-infected individuals with DAAs and compare them to trials in the HCV mono-infected. There is convincing evidence that HIV co-infection no longer diminishes the response to treatment against HCV in the new era of DAA-based therapy. The management of HCV co-infection should therefore become a priority in the care of HIV infected individuals, along with public health efforts to prevent new HCV infections, focusing particularly on specific patient groups at risk, such as men who have sex with men and injecting drug users.

Therapeutic alpha-interferons protein: structure, production, and biosimilar

In 2007, the world solemnized the golden jubilee of the discovery of interferon (IFN). Interferon is a small protein messenger called a pluripotent cytokine, produced by several cells of the host in response to various biological as well as synthetic stimuli. There are three major classes of interferons in humans: IFN-alpha, IFN-beta, and IFN-gamma. As a treatment option, interferon-alpha (IFN-α) is the most effective one. IFN-α has proved to be effective as an antiviral therapy and tumor-fighting drug in the past two decades. Meanwhile, great progress has been achieved in establishing IFN-α as the first choice of antiviral therapy for chronic hepatitis C virus (HCV) patients. Recently, novel pegylated IFN-α2 products with extended in vivo half-lives and consensus interferon, an artificially engineered type I interferon, have been developed to substantially improve treatment regimes for HCV patients. Undesirable acute and chronic side effects in addition to immunogenicity of therapeutic IFN products remain constraints to conquer for further improvements in clinical applications of IFN. It is certainly expected that more research will be conducted in the future, not only to face these challenges but also to extend the range of IFN products and their clinical targets. The objective herein is to review the current therapeutic alpha-interferons production, formulation technologies, and prospective future for the original entity and its biogeneric version.

After the cure: management of HCV after achievement of SVR

Co-infection with HIV and HCV is associated with accelerated progression of liver disease and increased complications compared with HCV infection alone. Treatment of HCV and achievement of a sustained virologic response (SVR) can improve outcomes in these patients. Even after clearance of the hepatitis C virus, however, patients remain at risk, albeit diminished, for the complications of chronic liver disease. As such, longitudinal monitoring of treated patients remains important for clinicians caring for this population. This article summarizes the benefits and persistent risks after attaining SVR. It reviews the natural history of fibrosis and addresses the monitoring and management of progressive liver disease.