Multi-copper oxidase mediated iron uptake in Ps. aeruginosa and other pathogenic bacteria: mechanism and role in disease [ 2003 - 2003 ]

Research Grant

Researchers: Prof Alastair Mcewan (Principal investigator) ,  Prof Michael Jennings

Brief description Iron is essential for the growth of bacteria. One of the mechanisms used by humans (and other animals) to defend against bacteria that cause disease is to trap iron by binding it to a set of iron binding proteins eg. transferrin. In this way there is no free iron in the system, so bacteria that survive in humans have had to evolve specific mechanisms to remove the iron form these host proteins. The mechanisms of iron uptake in pathogenic bacteria have been studied extensively, and the iron uptake systems are considered to be important of virulence factors (bacterial factors essential for causing disease). Humans and other higher organisms like Yeast have an iron uptake system that uses multi copper oxidase proteins (MCOs). These proteins have a ferroxidase activity, which converts iron from a protein bound insoluable form Fe (III) to a soluble form Fe(II), allowing it to be released from iron binding proteins. We have searched the genomes of many bacteria for a similar system and have discovered that many bacteria have MCOs. We wanted to test the idea that the bacteria MCOs we have identified may be involved in iron uptkae. If so, it would represent a huge step forward in understanding this important process and could lead to products for prevention or better treatment of infectious disease. We chose the disease causing bacterium Pseudomonas aeruginosa for our study. We have shown that the MCO has ferroxidase activity (Fe(III)>Fe(II), we have made a mutation in the MCO gene had have shown that the bacterium lacking MCO will not grow under certain conditions. These conditions are consistent with a defect in iron uptake. We have identified but not characterised several other key compnents of this iron uptake system. In the proposed work we wish to investigate all of the components of this iron uptake system in this important pathogen, and to initiate studies in other bacteria pathogens.

Funding Amount $AUD 73,500.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant