SiRNA Induced Transcriptional Silencing Of HIV-1: Elucidating The Mechanisms And Exploring Options For Delivery
Funder
National Health and Medical Research Council
Funding Amount
$512,631.00
Summary
Current drug therapy for HIV is for life We have discovered a set of molecules that will turn off the ability of HIV to reproduce itself. These molecules are from a new family of RNA molecules . A single dose of these molecules suppress the ability of the virus to reproduce itself for more than a month. Further we have found ways of extending this supressive ability to greater than one year. These studies will tell us how these molecules work and how they might be effectively administered.
In the past few years, an expanding number of small RNAs (ribonucleic acids) have been discovered that play a critical part in regulating multiple steps involved in the development of human tumors. One of the genes critically implicated in the development several human cancers (including breast, lung, brain, prostate and colon) is the epidermal growth factor receptor (EGFR). As a consequence, the EGFR is a key target for new biological therapies designed to reduce signaling through the EGFR path ....In the past few years, an expanding number of small RNAs (ribonucleic acids) have been discovered that play a critical part in regulating multiple steps involved in the development of human tumors. One of the genes critically implicated in the development several human cancers (including breast, lung, brain, prostate and colon) is the epidermal growth factor receptor (EGFR). As a consequence, the EGFR is a key target for new biological therapies designed to reduce signaling through the EGFR pathway resulting in reduced growth. Using a computer-based algorithm, we have recently discovered that one of these small RNAs (or microRNAs) is a master regulator of EGFR levels in human breast and lung cancer. When we add the specific microRNA to cancer cells with excess EGFRs and low levels of microRNA, we can abolish EGFR expression almost completely, associated with cell death. From our studies, it appears that the level of this microRNA in tissues relates inversely to the level of EGFR. As the major site of expression of this microRNA is in the brain, we were intrigued to demonstrate that the normally high level of the microRNA is lost in brain cancers (or gliomas) which are associated with high levels of EGFR. Thus, the loss of microRNA may enable the tumor to develop, suggesting that the microRNA may act as a tumor-suppressor . In this project, we will investigate the functional role of this microRNA in a range of human tumors, determine if it can work synergistically with other new biological therapies targeting the EGFR signaling pathway, identify some of its binding partners and determine the levels of EGFR and the microRNA prospectively in a cohort of gliomas. These studies will determine the functional role of the microRNA and form the foundation for further studies to consider strategies to deliver the microRNA for therapeutics.Read moreRead less
Molecular Analyses Of Flavivirus RNA Replication, Encapsidation, And Complementation
Funder
National Health and Medical Research Council
Funding Amount
$602,545.00
Summary
Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue. Hepatitis C virus is a member of the same virus family. Using Australian flavivirus Kunjin as a model and advanced techniques in molecular biology, biochemistry and electron micriscopy, the Flavivirus Research Unit at SASVRC has established itself as an international leader in the area of flavivirus RNA replication and ultrastructure of virus-infected cells. The objectives of this application are ....Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue. Hepatitis C virus is a member of the same virus family. Using Australian flavivirus Kunjin as a model and advanced techniques in molecular biology, biochemistry and electron micriscopy, the Flavivirus Research Unit at SASVRC has established itself as an international leader in the area of flavivirus RNA replication and ultrastructure of virus-infected cells. The objectives of this application are to advance further our understanding of how the flavivirus RNA replication complex is assembled, how it synthesizes RNA and how this RNA is specifically packaged to produce infectious virus. To achieve these goals we will employ state-of-the-art molecular biology techniques based on manipulations with infectious complementary DNA copy of Kunjin virus RNA. The intimate understanding of these mechanisms in flavivirus replication should facilitate the design of efficient antiviral drugs by specifically targeting unique events in RNA replication and-or packaging. This may assist in the development of antiviral drugs for treatment of infections caused by other higly pathogenic flaviviruses in Australia, such as dengue, Japanese encephalitis and Murray Valley encephalitis, as well as of the related heptitis C virus.Read moreRead less