Hepatitis B virus(HBV),a major cause of human liver disease worldwide,encodes three envelope proteins needed for the attachment and entry of the virus into susceptible host cells.A second virus,hepatitis delta virus,w...Hepatitis B virus(HBV),a major cause of human liver disease worldwide,encodes three envelope proteins needed for the attachment and entry of the virus into susceptible host cells.A second virus,hepatitis delta virus,which is known to enhance liver disease in HBV infected patients,diverts the same HBV envelope proteins to achieve its own assembly and infection.In the lab,lentiviral vectors based on human immunodeficiency virus type 1 can be assembled using the HBV envelope proteins,and will similarly infect susceptible cells.This article provides a partial review and some personal reflections of how these three viruses infect and of how recipient cells become susceptible,along with some consideration of questions that remain to be answered.展开更多
Recent reports show that many cellular RNAs are processed to form circular species that are relatively abundant and resistant to host nucleases.In some cases,such circles actually bind host microRNAs.Such depletion of...Recent reports show that many cellular RNAs are processed to form circular species that are relatively abundant and resistant to host nucleases.In some cases,such circles actually bind host microRNAs.Such depletion of available microRNAs appears to have biological roles;for instance,in homeostasis and disease.These findings regarding host RNA circles support a speculative reappraisal of the origin and mode of replication of hepatitis delta virus,hepatitis delta virus(HDV),an agent with a small circular RNA genome;specifically,it is proposed that in hepatocytes infected with hepatitis B virus(HBV),some viral RNA species are processed to circular forms,which by a series of chance events lead to an RNA that can be both replicated by host enzymes and assembled,using HBV envelope proteins,to form particles some of which are infectious.Such a model also may provide some new insights into the potential pathogenic potential of HDV infections.In return,new insights into HDV might provide information leading to a better understanding of the roles of the host RNA circles.展开更多
文摘Hepatitis B virus(HBV),a major cause of human liver disease worldwide,encodes three envelope proteins needed for the attachment and entry of the virus into susceptible host cells.A second virus,hepatitis delta virus,which is known to enhance liver disease in HBV infected patients,diverts the same HBV envelope proteins to achieve its own assembly and infection.In the lab,lentiviral vectors based on human immunodeficiency virus type 1 can be assembled using the HBV envelope proteins,and will similarly infect susceptible cells.This article provides a partial review and some personal reflections of how these three viruses infect and of how recipient cells become susceptible,along with some consideration of questions that remain to be answered.
文摘Recent reports show that many cellular RNAs are processed to form circular species that are relatively abundant and resistant to host nucleases.In some cases,such circles actually bind host microRNAs.Such depletion of available microRNAs appears to have biological roles;for instance,in homeostasis and disease.These findings regarding host RNA circles support a speculative reappraisal of the origin and mode of replication of hepatitis delta virus,hepatitis delta virus(HDV),an agent with a small circular RNA genome;specifically,it is proposed that in hepatocytes infected with hepatitis B virus(HBV),some viral RNA species are processed to circular forms,which by a series of chance events lead to an RNA that can be both replicated by host enzymes and assembled,using HBV envelope proteins,to form particles some of which are infectious.Such a model also may provide some new insights into the potential pathogenic potential of HDV infections.In return,new insights into HDV might provide information leading to a better understanding of the roles of the host RNA circles.