RESUMO
Hepatitis C virus (HCV) is an infectious disease that often remains asymptotic and unrecognised until complications of the virus arise. These often include extrahepatic manifestations of the virus, which first bring patients into contact with the medical profession. First recognised in the 1990s several syndromes and conditions have now been linked to hepatitis C, while others are still emerging. In some patients, extrahepatic manifestations can be the dominant feature, while hepatic disease is mild. Some conditions have an established association with the virus with a proven pathophysiological and epidemiology, such as cryoglobulinaemia. Others have consistently been found to be seen in patients with HCV, but the underlying cause of these conditions is not clearly understood. These include porphyria cutanea tarda. Many other autoimmune conditions are commonly seen in the patients with HCV as well as nephropathies, but the exact interplay between virus and resulting clinical condition is not clear. Clinicians have to have a high index of suspicion and a knowledge of the extrahepatic manifestations of HCV in order to not only treat the manifestation but also in initiated timely therapies for the underlying HCV.
RESUMO
Despite its use widely as a therapeutic agent, and proposed use as vaccine adjuvant, the effect of IFNalpha on T cell function is poorly understood. As a pleiotropic innate cytokine produced rapidly in response to pathogens, it is well placed to impinge on specific immune responses. The aim of this study was to examine the impact of IFNalpha on the function of human memory CD4(+) T cells using the recall Ags purified protein derivative, tetanus toxoid, and hemagglutinin. IFNalpha administered either in vivo or added exogenously in vitro tended to enhance proliferative responses of purified protein derivative-specific T cells in marked contrast to the other cognate populations whose responses were often diminished. Purifying the memory CD4(+)CD45RO(+) T cells confirmed IFNalpha acted directly on these cells and not via an intermediate. The T cells could be divided into two broad categories depending on how IFNalpha effected their responses to cognate Ag: 1) enhanced proliferation and a striking increase in IFNgamma-production compared with smaller increases in IL-10 (increased ratio of IFNgamma:IL-10), and 2) neutral or diminished proliferation coupled with a smaller increase in IFNgamma relative to the increase in IL-10 (reduced IFNgamma:IL-10 ratio). IFNalpha has a role in modifying memory T cell responses when they are exposed to cognate Ag and may be important in vaccination strategies designed to augment particular Th memory responses.
