Consist ent with prediction that a lentiviral vector favors single site insertion into sites of active gene transcription, all integration occurred in regions with active gene expres sion. Based on MMLV derived vectors which randomly inte grate into the host chromosome, Inhibitors,Modulators,Libraries insertional mutagenesis was described as a high throughput forward genetics approach to inactivate and thus discover cellular genes. Using these vectors cellular genes were identified that are required for replication of HIV 1 and other viruses, but not for host cell survival. With a built in inducible promoter in GSV to drive transcript production from a host gene, our RHGP can also generate activation, often over expression, of genes in mammalian cells, depending on the location and direction of GSV insertion relative to the candidate gene.
Although not observed in our current selleck chemicals study, over expression of a subset of targets including the B cell CLL lymphoma 2 allowed MDCK cells to survive influenza infection during discovery of host genes against influenza virus infection. Since target expres sion is under control of the inducible promoter, the causal relationship between the phenotype and the perturbed gene can be confirmed by withdrawal of the inducer. By validating these targets within the same experiment, this feature markedly increases the efficiency of discovery of therapeutic candi dates. Indeed, all the targets from resistant clones were successfully confirmed in the subsequent siRNA studies with na ve cells.
Instead of transient knock down effects generated by conventional approaches, the RHGP phenotype is highly stable, which can allow mech anistic studies to continuously characterize the roles of these perturbed genes in HIV 1 replication. Increasing evidence suggests that the concept of host ori ented therapeutics may be particularly useful for selleckchem identify ing improved opportunities to combat HIV AIDS. To identify relevant host targets, recent siRNA or shRNA based genome wide studies have successfully identified host targets associated with HIV 1 infection. Unfortunately, siRNA is intrinsically limited by the need for strong and stable over expression of the siRNA. More over, the outcomes of some siRNA findings have been clouded by recent questions of whether the siRNAs might non specifically alter host defense mechanisms, which could be particularly problematic for applications of siRNA technology to therapies against viral diseases.
Any siRNA screen is likely to generate false positive and false negative data due to the potential off target effects along with variability both in siRNA efficacy and protein half lives. This variability will ultimately lead to different levels of protein knockdown. We believe RHGP could provide an alternative since it is not limited by these same constraints. Notably, the genes indentified herein are not included in the list discovered by the three recent siRNA based HIV 1 studies. We postulate this discrepancy may reflect that the different cell systems, viruses and approaches were used during screening coupled with con trasting experimental designs. Consistent with this postu lation, there was very limited overlap between the HIV dependency factors identified in these investigations. These earlier studies did not utilize CD4 T lymphocytes, a natural cell target for HIV infection.