Jingwu Zhang1, George Hutton, Ying Zang. 1. Department of Neurology, Baylor College of Medicine, Houston, Texas 77030, USA. jzang@bcm.tmc.edu
Abstract
BACKGROUND: The development of immunomodulatory agents has represented a major advance in the treatment of multiple sclerosis (MS). To date, immunomodulatory agents approved for the treatment of relapsing MS in the United States include 3 forms of recombinant interferon (IFN) beta (2 formulations of IFN beta-1a and 1 of IFN beta-1b) and synthetic glatiramer acetate (GA). Recognition of how these agents work to regulate the immune system may lead to a better understanding of disease mechanisms, as well as to development of more effective therapies or combinations of therapy. OBJECTIVE: This article reviews the potential mechanisms of action of IFN beta products and GA in the context of their regulatory effects on autoimmune components that may be of importance in MS. METHODS: MEDLINE and Current Contents/Clinical Medicine were searched for articles published in English from 1993 to the present using the search terms interferon beta, glatiramer acetate, and multiple sclerosis. RESULTS: IFN beta products affect the disease process in MS through multiple potential mechanisms of action, including antiviral, antiproliferative, and anti-inflammatory effects. The mechanisms of action of GA are less clear, but may involve immune regulation induced by a gradual shift of T-cell phenotype from proinflammatory (type 1 T-helper cells) to anti-inflammatory (type 2 T-helper cells) and interference with antigen presentation. CONCLUSION: Understanding the mechanisms of action of IFN beta products and GA provides important insights into the disease processes involved in MS.
BACKGROUND: The development of immunomodulatory agents has represented a major advance in the treatment of multiple sclerosis (MS). To date, immunomodulatory agents approved for the treatment of relapsing MS in the United States include 3 forms of recombinant interferon (IFN) beta (2 formulations of IFN beta-1a and 1 of IFN beta-1b) and synthetic glatiramer acetate (GA). Recognition of how these agents work to regulate the immune system may lead to a better understanding of disease mechanisms, as well as to development of more effective therapies or combinations of therapy. OBJECTIVE: This article reviews the potential mechanisms of action of IFN beta products and GA in the context of their regulatory effects on autoimmune components that may be of importance in MS. METHODS: MEDLINE and Current Contents/Clinical Medicine were searched for articles published in English from 1993 to the present using the search terms interferon beta, glatiramer acetate, and multiple sclerosis. RESULTS:IFN beta products affect the disease process in MS through multiple potential mechanisms of action, including antiviral, antiproliferative, and anti-inflammatory effects. The mechanisms of action of GA are less clear, but may involve immune regulation induced by a gradual shift of T-cell phenotype from proinflammatory (type 1 T-helper cells) to anti-inflammatory (type 2 T-helper cells) and interference with antigen presentation. CONCLUSION: Understanding the mechanisms of action of IFN beta products and GA provides important insights into the disease processes involved in MS.
Authors: A D Goodman; H Rossman; A Bar-Or; A Miller; D H Miller; K Schmierer; F Lublin; O Khan; N M Bormann; M Yang; M A Panzara; A W Sandrock Journal: Neurology Date: 2009-03-03 Impact factor: 9.910
Authors: Paulus S Rommer; Ron Milo; May H Han; Sammita Satyanarayan; Johann Sellner; Larissa Hauer; Zsolt Illes; Clemens Warnke; Sarah Laurent; Martin S Weber; Yinan Zhang; Olaf Stuve Journal: Front Immunol Date: 2019-07-11 Impact factor: 7.561