Hepatitis C superinfection in hepatitis C virus (HCV)-infected patients transplanted with an HCV-infected kidney

Hepatitis C virus (HCV) genotypes, determined by polymerase chain reaction with type-specific primers, were studied in 5 already HCV-infected patients receiving kidneys from HCV-infected cadaver donors. Three patients were investigated retrospectively using stored pre- and posttransplantation sera and followed 18-28 months after transplantation. Two recipients with HCV genotype 2b infection had received kidneys from 1 genotype 3a-infected donor. In 1 recipient, HCV 2b was replaced by the donor's type; in the other recipient, a prolonged mixed infection of 3a and 2b occurred. Persistent alanine aminotransferase (ALT) elevation (3- to 5-fold) appeared in both patients. The third patient, also HCV 2b infected when transplanted with an HCV 3a-infected kidney, remained infected with HCV 2b only. Two patients, one with HCV genotype 1b and the other with genotype 3a, were followed prospectively with frequent bleeds (initially biweekly) and genotyping over 14 months after they had received kidneys from 1 HCV genotype 1a-infected donor. The HCV 1b-infected recipient remained infected with 1b only and had minimal biochemical signs of liver injury. In the other recipient, mixed infection of 3a and 1a appeared at week 3 and persisted for several weeks, until only genotype 1a could be detected. This patient had elevated ALT levels before transplantation. After onset of mixed infection, ALT levels increased further for several weeks, and returned to pretransplantation levels when only HCV 1a was found. HCV-infected kidneys transplanted into HCV-infected recipients gave 3 different virus patterns. Most patients benefitted in the short term, but some super-infected patients experienced increased liver damage

High Resistance of Human Parainfluenza Type 2 Virus Protein-Expressing Cells to the Antiviral and Anti-Cell Proliferative Activities of Alpha/Beta Interferons: Cysteine-Rich V-Specific Domain Is Required for High Resistance to the Interferons

Human parainfluenza type 2 virus (hPIV-2)-infected HeLa (HeLa-CA) cells and hPIV-2 V-expressing HeLa (HeLa-V) cells show high resistance to alpha/beta interferons (IFN-α/β) irrespective of whether vesicular stomatitis virus or Sindbis virus is used as a challenge virus. When Sindbis virus is used, these cells show high susceptibility to human IFN-γ. Furthermore, the multiplication of HeLa-V cells is not inhibited by IFN-α/β. HeLa cells expressing the N-terminally truncated V protein show resistance to IFN-α/β, showing that the IFN resistance determinant maps to the cysteine-rich V-specific domain. A complete defect of Stat2 is found in HeLa-CA and HeLa-V cells, whereas the levels of Stat1 expression are not significantly different among HeLa, HeLa-CA, HeLa-P, and HeLa-V cells, indicating that IFN-α/β resistance of HeLa-CA and HeLa-V cells is due to a defect of Stat2. HeLa-SV41V cells show high resistance to all IFNs, and no expression of Stat1 can be detected. Stat2 mRNA is fully detected in HeLa-V cells. Stat2 was scarcely pulse-labeled in the HeLa-V cells, indicating that synthesis of Stat2 is suppressed or Stat2 is very rapidly degraded in HeLa-V cells. The V protein suppresses the in vitro translation of Stat2 mRNA more extensively than that of Stat1 mRNA. An extremely small amount of Stat2 can be detected in HeLa-V cells treated with proteasome inhibitors. The half-life of Stat2 is approximately 3.5 and 2 h in uninfected and hPIV-2-infected HeLa cells, respectively. This study shows that synthesis of Stat2 may be suppressed and Stat2 degradation is also enhanced in hPIV-2-infected HeLa and HeLa-V cells