Multiple sclerosis(MS)is a chronic autoimmune disease of the central nervous system(CNS)characterized by coexisting processes of inflammation,demyelination,axonal neurodegeneration,and gliosis.It is the most commo...Multiple sclerosis(MS)is a chronic autoimmune disease of the central nervous system(CNS)characterized by coexisting processes of inflammation,demyelination,axonal neurodegeneration,and gliosis.It is the most common disabling neurological disease in young adulthood.展开更多
Chronic hepatitis C virus(HCV) infection can cause liver cirrhosis and hepatocellular carcinoma(HCC). Several studies have demonstrated that the eradication of HCV reduces the occurrence of HCC. In Japan, as many peop...Chronic hepatitis C virus(HCV) infection can cause liver cirrhosis and hepatocellular carcinoma(HCC). Several studies have demonstrated that the eradication of HCV reduces the occurrence of HCC. In Japan, as many people live to an advanced age, HCV-infected patients are also getting older, and the age at HCC diagnosis has also increased. Although older HCV-infected patients have a risk of developing HCC, the treatment response to peginterferon-alpha plus ribavirin therapy is relatively poor in these patients because of drop-out or discontinuation of this treatment due to adverse events. It is established that the mechanism of action between interferon-alpha and interferon-beta is slightly different. Short-term natural interferon-beta monotherapy is effective for patients with acute hepatitis C and patients infected with HCV genotype 2 and low viral loads. Natural interferon-beta plus ribavirin for 48 wk or for 24 wk are also effective for some patients with HCV genotype 1 or HCV genotype 2. Natural interferon-beta plus ribavirin has been used for certain "difficult-totreat" HCV-infected patients. In the era of direct-acting anti-virals, natural interferon-beta plus ribavirin may be one of the therapeutic options for special groups of HCV-infected patients. In the near future, signal transduction pathways of interferon-beta will inform further directions.展开更多
The treatment of chronic hepatitis C (CHC) is still far from optimal, particularly for those subpopulations that do not respond to the standard combination therapy with Interferon-α (IFNα) plus ribavirin. Althou...The treatment of chronic hepatitis C (CHC) is still far from optimal, particularly for those subpopulations that do not respond to the standard combination therapy with Interferon-α (IFNα) plus ribavirin. Although in some cases the use of higher doses or longer treatment periods may be effective, these approaches are generally associated with a higher incidence of adverse events, which may either lead to a reduction in patient compliance or require drug withdrawal. IFNβ could represent an interesting alternative for treating CHC patients. Controversial data about IFNβ efficacy in CHC exist, the main reason being that many results stem from pilot studies with small cohorts of patients. However, promising results have been obtained in some subgroups of patients that fail to respond to IFNα. Additionally, the good tolerability of IFNβ represents an important advantage of the drug. The rates of dropouts in controlled clinical trials, as well as the need for dose reductions or treatment discontinuation are very low. It might be worth assessing the value of IFNβ plus ribavirin in randomized studies with a larger cohort of patients, not eligible or not tolerating standard therapy, and for non-responders.展开更多
Ischemic brain injury triggers an inflammatory response. tissue but can also exacerbate brain injury. Microglia are This response is necessary to clear damaged brain the innate immune cells of the brain that execute t...Ischemic brain injury triggers an inflammatory response. tissue but can also exacerbate brain injury. Microglia are This response is necessary to clear damaged brain the innate immune cells of the brain that execute this critical function. In healthy brain, microglia perform a housekeeping function, pruning unused syn- apses between neurons. However, microglia become activated to an inflammatory phenotype upon brain injury. Interferon regulatory factors modulate microglial activation and their production of inflammatory cytokines. This review briefly discusses recent findings pertaining to these regulatory mechanisms in the context of stroke recovery.展开更多
AIM To establish the hepatoma cell specific expression of human interferon gene mediated by retroviral vectors. METHODS Human interferon α and interforon β complementary DNA (IFNs cDNA) were cloned into polyli...AIM To establish the hepatoma cell specific expression of human interferon gene mediated by retroviral vectors. METHODS Human interferon α and interforon β complementary DNA (IFNs cDNA) were cloned into polylinker site of pMNSM retroviral vector to construct recombinant retroviral vector pMNSIFNA and pMNSIFNB, where the transcription of IFN gene was driven by SV40 early region promoter, and pMNAIFNA, pAMNSIFNA and pMNAIFNB, where the transcription of IFN gene was driven by SV40 early region promoter regulated by α fetoprotein enhancer. The retroviral constructs were respectively introduced into retroviral amphotropic packaging cells by means of lipofectamine mediated gene transfer procedure. The plasmids transfection rate was (4~40)×10 3 colonies/μg DNA/10 6 PA317 cells. The retrovirus infection rate was (5~500)×10 4 colony forming units (CFU)/ml. The recombinant retroviruses were used to infect human hepatoma cells, renal carcinoma cells and melanoma cell lines in the presence of 4mg/L polybrene. RESULTS Northern and Dot hybridization of total RNA from the neomycin resistant colonies and interferon expression assay indicated that human α fetoprotein enhancer induced efficient and apecific transcription and expression of IFNs gene driven by the promoter of different origin in human hepatoma cells by which α fetoprotein was highly produced. CONCLUSION Cis active element of α fetoprotein gene can drive specific expression of IFNs gene in human hepatoma cells, which provides some valuable data for the hepatoma specific immune gene therapy.展开更多
AIM:To investigate the therapeutic efficacy of short- term, multiple daily dosing of intravenous interferon (IFN) in patients with hepatitis B e antigen (HBeAg)-positive chronic hepatitis B. METHODS:IFN-β was intrave...AIM:To investigate the therapeutic efficacy of short- term, multiple daily dosing of intravenous interferon (IFN) in patients with hepatitis B e antigen (HBeAg)-positive chronic hepatitis B. METHODS:IFN-β was intravenously administered at a total dose of 102 million international units (MIU) over a period of 28 d in 26 patients positive for HBeAg and HBV-DNA. IFN-beta was administered at doses of 2 MIU and 1 MIU on d 1, 3 MIU twice daily from d 2 to d 7, and 1 MIU thrice daily from d 8 to d 28. Patients were followed up for 24 wk after the end of treatment. RESULTS:Six months after the end of the treatment, loss of HBV-DNA occurred in 13 (50.0%) of the 26 patients, loss of HBeAg in 9 (34.6%), development of anti-HBe in 10 (38.5%), HBeAg seroconversion in 8 (30.8%), and normalization of alanine aminotransferase (ALT) levels in 11 (42.0%). CONCLUSION:This 4-wk long IFN-β therapy, which was much shorter than conventional therapy lasting 12 wk or even more than 1 year, produced therapeutic effects similar to those achieved by IFN-α or pegylated- IFN-α (peg-IFN). Fewer adverse effects, greater efficacy, and a shorter treatment period led to an improvement in patients’ quality of life. IFN-β is administered intravenously, whereas IFN-α is administered intramuscularly or subcutaneously. Because both interferons are known to bind to an identical receptor and exert antiviral effects through intracellular signal transduction, the excellent results of IFN-β found in this study may be attributed to the multiple doses allowed by the intravenous route.展开更多
AIM To assess the effects of hepatitis E virus(HEV) on the production of type Ⅰ interferons(IFNs) and determine the underlying mechanisms.METHODS We measured the production of interferon(IFN)-alpha and-beta(-α/β) i...AIM To assess the effects of hepatitis E virus(HEV) on the production of type Ⅰ interferons(IFNs) and determine the underlying mechanisms.METHODS We measured the production of interferon(IFN)-alpha and-beta(-α/β) in genotype 3 HEV-infected C3 A cells at different time points(0, 8, 12, 24, 48, 72 and 120 h) by enzyme-linked immunosorbent assay(ELISA). The expression levels of IFN-stimulated gene(ISG)15 in HEVinfected C3A cells at different time points were tested by western blotting. The plasmid-expressing open reading frame 3(ORF3) or control plasmids(green fluorescent protein-expressing) were transfected into C3A cells, and the levels of IFN-α/β and ISG15 were evaluated, respectively. Furthermore, the plasmid-expressing ISG15 or small interfering RNA-inhibiting ISG15 was transfected into infected C3A cells. Then, the production of IFN-α/β was also measured by ELISA.RESULTS We showed that genotype 3 HEV could enhance the production of IFN-α/β and induce elevation of ISG15 in C3A cells. HEV ORF3 protein could enhance the production of IFN-α/β and the expression of ISG15. Additionally, ISG15 silencing enhanced the production of IFN-α/β. Overexpression of ISG15 resulted in the reduction of IFN-α/β.CONCLUSION HEV may promote production of IFN-α/β and expression of ISG15 via ORF3 in the early stages, and increased ISG15 subsequently inhibited the production of IFN-α/β.展开更多
基金Dr.Mao-Draayer has served as a consultant and/or received grant support from:Acorda,Bayer Pharmaceutical,Biogen Idec,EMD Serono,Genzyme,Novartis,Questor,Teva Neuroscience and Chugai PharmaDr.Mao-Draayeris currently supported by grants from NIH NIAID Autoimmune Center of Excellence:UM1-AI110557+1 种基金NIH NINDS R01-NS080821the University of Michigan Neurology Department
文摘Multiple sclerosis(MS)is a chronic autoimmune disease of the central nervous system(CNS)characterized by coexisting processes of inflammation,demyelination,axonal neurodegeneration,and gliosis.It is the most common disabling neurological disease in young adulthood.
文摘Chronic hepatitis C virus(HCV) infection can cause liver cirrhosis and hepatocellular carcinoma(HCC). Several studies have demonstrated that the eradication of HCV reduces the occurrence of HCC. In Japan, as many people live to an advanced age, HCV-infected patients are also getting older, and the age at HCC diagnosis has also increased. Although older HCV-infected patients have a risk of developing HCC, the treatment response to peginterferon-alpha plus ribavirin therapy is relatively poor in these patients because of drop-out or discontinuation of this treatment due to adverse events. It is established that the mechanism of action between interferon-alpha and interferon-beta is slightly different. Short-term natural interferon-beta monotherapy is effective for patients with acute hepatitis C and patients infected with HCV genotype 2 and low viral loads. Natural interferon-beta plus ribavirin for 48 wk or for 24 wk are also effective for some patients with HCV genotype 1 or HCV genotype 2. Natural interferon-beta plus ribavirin has been used for certain "difficult-totreat" HCV-infected patients. In the era of direct-acting anti-virals, natural interferon-beta plus ribavirin may be one of the therapeutic options for special groups of HCV-infected patients. In the near future, signal transduction pathways of interferon-beta will inform further directions.
基金Supported by grants C 03/02 from Institute de Salud Carlos III and SAF 2001-1414 from Ministerio de Ciencia y Tecnologia
文摘The treatment of chronic hepatitis C (CHC) is still far from optimal, particularly for those subpopulations that do not respond to the standard combination therapy with Interferon-α (IFNα) plus ribavirin. Although in some cases the use of higher doses or longer treatment periods may be effective, these approaches are generally associated with a higher incidence of adverse events, which may either lead to a reduction in patient compliance or require drug withdrawal. IFNβ could represent an interesting alternative for treating CHC patients. Controversial data about IFNβ efficacy in CHC exist, the main reason being that many results stem from pilot studies with small cohorts of patients. However, promising results have been obtained in some subgroups of patients that fail to respond to IFNα. Additionally, the good tolerability of IFNβ represents an important advantage of the drug. The rates of dropouts in controlled clinical trials, as well as the need for dose reductions or treatment discontinuation are very low. It might be worth assessing the value of IFNβ plus ribavirin in randomized studies with a larger cohort of patients, not eligible or not tolerating standard therapy, and for non-responders.
基金supported by a grant from the Heart and Stroke Foundation of Canada(HHC,AFRS)a grant from the Natural Science&Engineering Research Council of Canada(HHC,AFRS)a Mid-Career Investigator Award from the Heart and Stroke Foundation of Ontario,Canada(HHC)
文摘Ischemic brain injury triggers an inflammatory response. tissue but can also exacerbate brain injury. Microglia are This response is necessary to clear damaged brain the innate immune cells of the brain that execute this critical function. In healthy brain, microglia perform a housekeeping function, pruning unused syn- apses between neurons. However, microglia become activated to an inflammatory phenotype upon brain injury. Interferon regulatory factors modulate microglial activation and their production of inflammatory cytokines. This review briefly discusses recent findings pertaining to these regulatory mechanisms in the context of stroke recovery.
文摘AIM To establish the hepatoma cell specific expression of human interferon gene mediated by retroviral vectors. METHODS Human interferon α and interforon β complementary DNA (IFNs cDNA) were cloned into polylinker site of pMNSM retroviral vector to construct recombinant retroviral vector pMNSIFNA and pMNSIFNB, where the transcription of IFN gene was driven by SV40 early region promoter, and pMNAIFNA, pAMNSIFNA and pMNAIFNB, where the transcription of IFN gene was driven by SV40 early region promoter regulated by α fetoprotein enhancer. The retroviral constructs were respectively introduced into retroviral amphotropic packaging cells by means of lipofectamine mediated gene transfer procedure. The plasmids transfection rate was (4~40)×10 3 colonies/μg DNA/10 6 PA317 cells. The retrovirus infection rate was (5~500)×10 4 colony forming units (CFU)/ml. The recombinant retroviruses were used to infect human hepatoma cells, renal carcinoma cells and melanoma cell lines in the presence of 4mg/L polybrene. RESULTS Northern and Dot hybridization of total RNA from the neomycin resistant colonies and interferon expression assay indicated that human α fetoprotein enhancer induced efficient and apecific transcription and expression of IFNs gene driven by the promoter of different origin in human hepatoma cells by which α fetoprotein was highly produced. CONCLUSION Cis active element of α fetoprotein gene can drive specific expression of IFNs gene in human hepatoma cells, which provides some valuable data for the hepatoma specific immune gene therapy.
文摘AIM:To investigate the therapeutic efficacy of short- term, multiple daily dosing of intravenous interferon (IFN) in patients with hepatitis B e antigen (HBeAg)-positive chronic hepatitis B. METHODS:IFN-β was intravenously administered at a total dose of 102 million international units (MIU) over a period of 28 d in 26 patients positive for HBeAg and HBV-DNA. IFN-beta was administered at doses of 2 MIU and 1 MIU on d 1, 3 MIU twice daily from d 2 to d 7, and 1 MIU thrice daily from d 8 to d 28. Patients were followed up for 24 wk after the end of treatment. RESULTS:Six months after the end of the treatment, loss of HBV-DNA occurred in 13 (50.0%) of the 26 patients, loss of HBeAg in 9 (34.6%), development of anti-HBe in 10 (38.5%), HBeAg seroconversion in 8 (30.8%), and normalization of alanine aminotransferase (ALT) levels in 11 (42.0%). CONCLUSION:This 4-wk long IFN-β therapy, which was much shorter than conventional therapy lasting 12 wk or even more than 1 year, produced therapeutic effects similar to those achieved by IFN-α or pegylated- IFN-α (peg-IFN). Fewer adverse effects, greater efficacy, and a shorter treatment period led to an improvement in patients’ quality of life. IFN-β is administered intravenously, whereas IFN-α is administered intramuscularly or subcutaneously. Because both interferons are known to bind to an identical receptor and exert antiviral effects through intracellular signal transduction, the excellent results of IFN-β found in this study may be attributed to the multiple doses allowed by the intravenous route.
基金Supported by the National Natural Science Foundation of China,No.81570540
文摘AIM To assess the effects of hepatitis E virus(HEV) on the production of type Ⅰ interferons(IFNs) and determine the underlying mechanisms.METHODS We measured the production of interferon(IFN)-alpha and-beta(-α/β) in genotype 3 HEV-infected C3 A cells at different time points(0, 8, 12, 24, 48, 72 and 120 h) by enzyme-linked immunosorbent assay(ELISA). The expression levels of IFN-stimulated gene(ISG)15 in HEVinfected C3A cells at different time points were tested by western blotting. The plasmid-expressing open reading frame 3(ORF3) or control plasmids(green fluorescent protein-expressing) were transfected into C3A cells, and the levels of IFN-α/β and ISG15 were evaluated, respectively. Furthermore, the plasmid-expressing ISG15 or small interfering RNA-inhibiting ISG15 was transfected into infected C3A cells. Then, the production of IFN-α/β was also measured by ELISA.RESULTS We showed that genotype 3 HEV could enhance the production of IFN-α/β and induce elevation of ISG15 in C3A cells. HEV ORF3 protein could enhance the production of IFN-α/β and the expression of ISG15. Additionally, ISG15 silencing enhanced the production of IFN-α/β. Overexpression of ISG15 resulted in the reduction of IFN-α/β.CONCLUSION HEV may promote production of IFN-α/β and expression of ISG15 via ORF3 in the early stages, and increased ISG15 subsequently inhibited the production of IFN-α/β.
