Membrane excitability and cellular calcium regulation in the peripheral nervous system under different (patho)-physiological conditions and in inflammatory disease. Studies of cytokine action on neurons and muscle give new insights into functional responses of the nervous system to systemic inflammation and sepsis. In some countries, sepsis is the third most frequent cause of death following heart attack. Elucidating the pathomechanisms allows to develop therapeutic strategies. Electrophysiology ....Membrane excitability and cellular calcium regulation in the peripheral nervous system under different (patho)-physiological conditions and in inflammatory disease. Studies of cytokine action on neurons and muscle give new insights into functional responses of the nervous system to systemic inflammation and sepsis. In some countries, sepsis is the third most frequent cause of death following heart attack. Elucidating the pathomechanisms allows to develop therapeutic strategies. Electrophysiology, Ca2+ regulation and optical membrane potentiometry allow us to monitor early changes in disease on a (sub)cellular level. Experiments on Ca2+ regulation and ion channel function in muscle with different cholesterol membrane contents will help to understand pathomechanisms in high cholesterol diseases, e.g. obesity, on the membrane level long before cardiovascular effects become prominent.Read moreRead less
Molecular grafting methods for design of peptide therapeutics. This project has the potential to lead to major economic benefits to Australia via royalty returns from novel drugs. Extra economic benefits derive from a reduction in the cost of treatment of diseases. The development of a new Australian developed peptide drug thus has the potential to lead to multimillion dollar savings to the Australian economy. Finally the project will provide training in state-of-the-art drug design that will e ....Molecular grafting methods for design of peptide therapeutics. This project has the potential to lead to major economic benefits to Australia via royalty returns from novel drugs. Extra economic benefits derive from a reduction in the cost of treatment of diseases. The development of a new Australian developed peptide drug thus has the potential to lead to multimillion dollar savings to the Australian economy. Finally the project will provide training in state-of-the-art drug design that will enhance Australia's pharmaceutical industry generally.Read moreRead less