Assessment Of Development Of Resistance To Neuraminidase Inhibitors In A (H5N1) Influenza Viruses Using A Ferret Model
Funder
National Health and Medical Research Council
Funding Amount
$165,546.00
Summary
The neuraminidase (NA) inhibitors are considered the most effective anti-influenza drugs available for both prevention and treatment of influenza virus infection including A(H5N1) viruses. The drugs are effective against all subtypes of influenza A, making them ideal for use in the early months of a pandemic prior to an appropriate vaccine being produced. As a result many countries around the world, including Australia, have stockpiled these drugs (mainly Tamiflu) as part of their pandemic prepa ....The neuraminidase (NA) inhibitors are considered the most effective anti-influenza drugs available for both prevention and treatment of influenza virus infection including A(H5N1) viruses. The drugs are effective against all subtypes of influenza A, making them ideal for use in the early months of a pandemic prior to an appropriate vaccine being produced. As a result many countries around the world, including Australia, have stockpiled these drugs (mainly Tamiflu) as part of their pandemic preparedness plans. However, of concern is the increasing number of recent reports of a higher than expected level of resistance in epidemic influenza being generated against these drugs. A recent isolation of an H5N1 virus from a Vietnamese girl highlights that these viruses can also be resistant to Tamiflu. Within Australia, Tamiflu will be a critical weapon against the initial wave of an influenza pandemic, therefore it is vital that more is known about the propensity of the H5N1 virus to generate resistance, and possibly make these drugs clinically less effective. The aim of the project is to determine the levels, mode and type of resistance that may occur when ferrets are experimentally infected with HP A(H5N1) virus and then treated with NA inhibitors drugs such as Tamiflu. In the event of resistant viruses being isolated following drug pressure from Tamiflu, the strains will then be tested for their sensitivity to the other NA inhibitor drugs Relenza (zanamivir) or the peramivir (a third currently unlicensed NA inhibitor). The results from this cross resistance work will allow strategies to be put into place regarding the administration of an alternative NA inhibitor in the event of a pandemic virus acquiring particular NA mutations which may for example result in Tamiflu resistance. To determine the relative human risk of a NA inhibitor resistant A(H5N1) virus, studies to determine how infectious or transmissible the viruses are would be performed on all resistant strains isolated. NA inhibitor resistant strains demonstrate varying degrees of transmissibility and fitness, therefore it would be beneficial to classify this for any strains generated from this study so as to be in a better position to understand the public health implications if a particular resistant strain was to arise.Read moreRead less
How Important Is Collagen Destruction In Arthritis? A Study With Collagenase-resistant Knockin Mice
Funder
National Health and Medical Research Council
Funding Amount
$529,723.00
Summary
Aggecan and collagen are important structural molecules in cartilage. Together they allow cartilage to bear weight and resist compression. In arthritis, collagen is degraded by collagenases and aggrecan is degraded by aggrecanases. Aggrecan loss is a feature of cartilage disease. Early aggrecan loss is well documented and usually precedes clinical symptoms, suggesting that it is the initiating step in cartilage pathology. Aggrecan loss precedes collagen damage in explant culture, however it is n ....Aggecan and collagen are important structural molecules in cartilage. Together they allow cartilage to bear weight and resist compression. In arthritis, collagen is degraded by collagenases and aggrecan is degraded by aggrecanases. Aggrecan loss is a feature of cartilage disease. Early aggrecan loss is well documented and usually precedes clinical symptoms, suggesting that it is the initiating step in cartilage pathology. Aggrecan loss precedes collagen damage in explant culture, however it is not known whether inhibiting aggrecanases is sufficient to block cartilage damage long-term. In contrast, other studies suggest that aggrecan is only lost after damage to the collagen scaffold. These studies propose that clipping of the collagen scaffold may initiate aggrecan release; with progressive degeneration and collagen clipping, more aggrecan is lost, until ultimately the scaffold is severely damaged and aggrecan is severely depleted. Cartilage can only withstand a limited degree of collagen degradation and any significant damage to the network is widely considered to be irreparable. It is unclear what role aggrecanases and collagenases have in initiating and perpetuating cartilage damage. We have mice with aggrecan resistant to aggrecanases and mice with inactive aggrecanase. We will also create mice with collagen resistant to collagenase. We will use these mice to determine the contribution of collagenases and aggrecanases to the initiation and progression of cartilage damage, in three models of joint disease. We will identify differences in time of disease onset, rate of disease progression and disease severity. The results will show whether one or both activities is important for the initiation and progression of joint disease. This will reveal whether single or combination therapies are required for the management of arthritis. The research will inform the pharmaceutical industry on directions for the development of new drugs to prevent joint disease.Read moreRead less
Cellular And Molecular Determinants Of Preleukaemic And Leukaemic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$292,635.00
Summary
It has recently become evident that the formation, growth and relapse of many cancers is driven by a rare population of cancer stem cells (CSCs) that have the unique ability to propagate new tumours and are highly resistant to current therapies. However, which normal cells are transformed into CSCs is not known. We will take a potent cancer gene found in leukaemia, and switch it on and off in specific blood cells in mice to determine which healthy cells can be turned into leukaemic stem cells.
A New Animal Model Of The Prodrome In Schizophrenia. Enhanced Dopamine In Prodromal Schizophrenia (EDiPs)
Funder
National Health and Medical Research Council
Funding Amount
$571,990.00
Summary
Psychiatrists now recognize a pre-symptomatic stage is present in people at risk of developing schizophrenia. Using new brain imaging techniques we now know that some of these individuals have changes in a major neurotransmitter, dopamine, prior to being diagnosed. We have developed a new model in animals, which recreates these exact same changes at a comparable age. We want to now understand what are the broader effects in the brain and try and block these changes in dopamine with new drugs.