T. jake liang, m.d. principal investigators nih intramural research program electricity projects for 4th graders


Infection with hepatitis B and C viruses affects more than 10 percent of the world population and is the most common etiology of chronic liver disease and hepatocellular carcinoma, which is the fourth leading cause of death from cancer in the world. Current therapies for both viruses are less than optimal. While an effective vaccine for HBV is available, the prospect for gas jobs crna a HCV vaccine remains elusive. Given the magnitude and severity of both viral infections as a global public health problem, it is imperative to develop and implement effective prophylactic vaccines and better therapeutic regimens. To achieve this goal, we must understand at the molecular, cellular and genetic levels the viral life cycle, viral mechanisms for productive and persistent infection bp gas prices akron ohio, virus-host interactions, and host immune responses. The thematic effort of my laboratory focuses on these topics.

While many gaps in our knowledge of HCV exist, great strides have been made in characterizing the virus and functions of viral genes as well as in unraveling the replication pathway and immunologic mechanisms of liver injury. HCV, like many other viruses, exploit host cellular machinery for productive infection. However, unlike other RNA viruses, HCV has a high propensity to cause persistent infection despite an active host immune response. Thus, it possesses unique emoji gas station mechanisms to counteract the various host defenses. HCV gene products have been shown to interact with many host factors and to induce cellular alterations vital for viral replication, persistence and pathogenesis. Earlier progress in HCV research has been hampered by a lack of robust infectious and replicating gas city indiana post office cell culture systems and convenient small animal models. The development of in vitro systems including infectious cell cultures affords the opportunity to fully characterize viral replication and virus-cell interactions. By applying the technology of induced pluripotent stem cells and hepatocyte differentiation, we have established useful cell model systems to study viral replication and virus-cell interaction. SCID/uPA mice transplanted with human hepatocytes susceptible to HCV infection and transgenic mouse models have been useful as small animal models. We have taken three approaches to study HCV infection and pathogenesis.

For HBV, the replication and virus-host interactions gas x strips review have been studied in great detail and many of the pathways have been elucidated. The availability of culture systems and small animal models has greatly facilitated the elucidation of fundamental knowledge la gas prices 2016 of the virus and the evaluation of vaccine and therapeutic candidates. While the various virological functions in replication are well-known, the roles of interacting cellular factors remain largely undefined. In addition, the viral and host functions for productive and persistent infection in vivo are poorly understood. Among the viral gene products, the accessory proteins HBeAg and HBX are not essential for replication in vitro but appear to be important for viral infection in vivo. The HBX has multifarious effects and appears to function through several pathways including signal transduction, transcriptional activation/DNA repair, and/or cellular proteolysis. These mechanisms may not be mutually exclusive and can be concurrently operative in contributing to the pleiotropic effect electricity font generator of HBX. Despite the uncertainty about the mechanism of HBX functions, it has been generally accepted that this gene product is required for the establishment of HBV infection in vivo. We have been focusing on understanding the functions of HBX and developing therapeutic strategy targeting at this important viral function. We have established various infectious HBV cell culture systems that are suitable to study HBV electricity laws physics infection, spread, virus-cell interaction and antiviral testing. We are also applying a similar overall approach in functional genomics and genome-wide screens described above for HCV to studying HBV-host interactions electricity magnetism and electromagnetism.

Finally, we have established an active research program on the increasingly important problem of hepatocellular carcinoma in the context of chronic viral hepatitis. We are developing various in vitro and in vivo models to identify and study potentially important procarcinogenic pathways that are triggered by HBV or HCV infection. By leveraging this knowledge, we hope to uncover novel strategies for preventive and therapeutic interventions of this deadly cancer.