Viral Infection And Transforming Growth Factor-beta Impair Glucocorticoid Activity In Epithelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$318,299.00
Summary
Anti-inflammatory types of steroid drugs are commonly used in chronic lung disease including asthma and chronic obstructive pulmonary disease. However, a significant number of sufferers show resistance to the steroid therapy. Our study is developing an understanding of how inflammation limits the anti-inflammatory effects of steroids and we are identifying novel therapeutic targets to improve the effectiveness of treatment of chronic disease.
C3/C5 Convertase Inhibitors As A New Class Of Anti-Inflammatory Drugs
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Many serious inflammatory diseases, such as arthritis, septic shock, lung shock, heart disease, atherosclerosis, multiple sclerosis, are poorly controlled with currently available drugs. There is a great deal of evidence that naturally occuring Complement proteins in human blood are involved in exacerbating these and many other human diseases, yet there are no good drugs available to counteract their effects. Three complement proteins known as C3a, C5a and MAC (membrane attack complex) are thoug ....Many serious inflammatory diseases, such as arthritis, septic shock, lung shock, heart disease, atherosclerosis, multiple sclerosis, are poorly controlled with currently available drugs. There is a great deal of evidence that naturally occuring Complement proteins in human blood are involved in exacerbating these and many other human diseases, yet there are no good drugs available to counteract their effects. Three complement proteins known as C3a, C5a and MAC (membrane attack complex) are thought to be particularly pivotal components of the complement system synthesized by the human body early in the development of inflammatory and immune diseases. New compounds that could block the formation of human C3a, C5a and MAC are expected : (a) To lead us to a better understanding of how these proteins act on immune cells and of their respective roles in the immune response to infection and injury, and (b) To enable the rapid development of an entirely new class of drugs for treating autoimmune and inflammatory diseases. No Complement-based drugs are yet available in man. In other NHMRC funded work we have developed compounds (antagonists) that selectively block the actions of human C3a or C5a, and shown that they are effective antiinflammatory agents in rat models of a number of inflammatory diseases. In this project we will design and develop small molecules that block the enzymes (C3-C5 convertases) that make C3a, C5a and other complement proteins including MAC. We expect that such inhibitors will be even more effective antinflammatory drugs because they will block formation of multiple complement proteins that each have proinflammatory activity. We will demonstrate selective effects of the new compounds on components of complement, and test them in rat models of inflammatory diseases. We expect C3-C5 convertase inhibitors to be a completely new type of anti-inflammatory drug, treating disease processes rather than symptoms like current drugs.Read moreRead less
Agonists And Antagonists Of The Human Complement C3a Receptor
Funder
National Health and Medical Research Council
Funding Amount
$473,250.00
Summary
Many serious inflammatory diseases, such as arthritis, septic shock, lung shock, heart disease, atherosclerosis, multiple sclerosis, are poorly controlled with currently available drugs. There is a great deal of evidence that naturally occuring Complement proteins in human blood are involved in exacerbating these and many other human diseases, yet there are no good drugs available to counteract their effects. One of the most important complement proteins is known as C3a. It is called an anaphyla ....Many serious inflammatory diseases, such as arthritis, septic shock, lung shock, heart disease, atherosclerosis, multiple sclerosis, are poorly controlled with currently available drugs. There is a great deal of evidence that naturally occuring Complement proteins in human blood are involved in exacerbating these and many other human diseases, yet there are no good drugs available to counteract their effects. One of the most important complement proteins is known as C3a. It is called an anaphylatoxin and is thought to be a pivotal component of the complement system synthesized by the human body early on in the development of inflammatory and immune diseases. New compounds that could stimulate or block the activity of C3a are expected : (a) To lead us to a better understanding of how C3a binds to its receptors on immune cells and its role in the immune response to infection and injury, and (b) To enable the rapid development of an entirely new class of drugs for treating autoimmune and inflammatory diseases. No Complement-based drugs are yet available. It is not yet possible to examine detailed structures of the receptors on cells that interact with complement proteins. However it is possible to determine and analyse three dimensional structures of small molecules that can bind to human immune cells, and mimic or block effects of human C3a on cells, rat tissues, and in whole rats. We will identify and improve such small molecules by optimising their binding to immune cells, by tailoring them to selectively block or mimic just the effects of C3a, and by making them pharmacologically stable for administration (preferably by mouth) to rats (and humans). We will then test them in rats for potential future development into a completely new type of anti-inflammatory drug, one that treats inflammatory disease processes rather than just the symptoms like most current antiinflammatory drugs.Read moreRead less
Development Of An In Vivo Pharmacokinetic-pharmacodynamic Model For Evaluation Of Antimalarial Drug Therapy Combinations
Funder
National Health and Medical Research Council
Funding Amount
$120,604.00
Summary
The World Health Organization currently estimates that there are 300-500 million cases of malaria annually, with 1.5-2.7 million deaths. These are staggering data, given that almost 20 antimalarial drugs are now in regular clinical use. Multi-drug resistance is present in most tropical countries where malaria is endemic and there has been a rapid escalation in cases of malaria in developed countries over recent decades (imported by travellers). Clearly, there is a need to ensure that current and ....The World Health Organization currently estimates that there are 300-500 million cases of malaria annually, with 1.5-2.7 million deaths. These are staggering data, given that almost 20 antimalarial drugs are now in regular clinical use. Multi-drug resistance is present in most tropical countries where malaria is endemic and there has been a rapid escalation in cases of malaria in developed countries over recent decades (imported by travellers). Clearly, there is a need to ensure that current and new treatment and prevention strategies are rational and effective. This project is based on the premise that improvements can be made in the in vitro testing process of antimalarial drugs. The experiments will be conducted using mice and a form of malaria that is specific to mice but closely resembles human malaria. In the first stage, the relationship between the amount of a new antimalarial drug (dihydroartemisinin) in the body and the effectiveness of the dose will be tested. These experiments will be repeated using conventional antimalarial drugs such as mefloquine. Information from these studies will subsequently be used to evaluate combinations of antimalarials. The results will be used as the basis of extensive, collaborative clinical studies in South-East Asia that are beyond the scope of this project. The methods used for this research will be important for future testing of new antimalarial drugs or combinations of drugs for the treatment and prophylaxis of malaria.Read moreRead less