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Structure, Formation And Evolution Of Multiple Antibiotic And Mercury Resistance Regions In Gram-negative Bacteria
Funder
National Health and Medical Research Council
Funding Amount
$550,500.00
Summary
Antibiotic resistance and particularly resistance to several different antibiotics simultaneously is becoming alarmingly common in bacteria that cause infectious diseases in humans and animals. New antibiotics are proving slow to appear and the most obvious way to increase the effectiveness and the useful lifetime of existing antibiotics is though attempting to reduce the prevalence of resistant bacteria. This can only be done using good surveillance that allows the places where resistant bacter ....Antibiotic resistance and particularly resistance to several different antibiotics simultaneously is becoming alarmingly common in bacteria that cause infectious diseases in humans and animals. New antibiotics are proving slow to appear and the most obvious way to increase the effectiveness and the useful lifetime of existing antibiotics is though attempting to reduce the prevalence of resistant bacteria. This can only be done using good surveillance that allows the places where resistant bacteria and resistance genes are present in large numbers, e.g. in food-production animals, in hospitals, in the human gut or in the environment, to be identified. Very little data of this type is available internationally and even less for the Australian situation. Using recent knowledge of resistance genes and modern molecular techniques the work will identify which resistance genes and combinations of resistance genes confering resistance to antibbiotics used either in the clinic or administered to food-producing animals or both are found in Australian isolates. By examining multiply antibiotic resistant isolates from these two and other sources the flow of resistance genes and resistant bacteria between these two reservoirs will be tracked accurately. This will allow the sources relevant to difficult to treat or untreatable infections acquired in the hospital setting to be identified and appropriate action taken.Read moreRead less
Identification And Analysis Of Novel Replication Initiation Factors In Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$311,789.00
Summary
Multi-drug resistant Golden staph is a serious medical problem around the world because strains are often resistant to commonly used treatments; new drugs are therefore urgently required. DNA replication is a fundamental process that is essential for the survival of all cellular organisms. This project aims to identify and characterise novel factors involved in DNA replication in Golden staph, which represent potential drug targets.
Molecular Genetics And Evolution Of Antibiotic Resistant Staphylococci
Funder
National Health and Medical Research Council
Funding Amount
$437,545.00
Summary
Potentially life-threatening infections caused by Staphylococcus aureus bacteria, commonly known as Golden Staph, often arise as complications in patients within hospitals. These infections compromise the health of the patient and jeopardise their recovery from the condition for which they were initially admitted, which significantly increases healthcare costs. Hospital-acquired infections caused by Golden Staph are a major problem in Australia and globally. The problem is largely due to the pre ....Potentially life-threatening infections caused by Staphylococcus aureus bacteria, commonly known as Golden Staph, often arise as complications in patients within hospitals. These infections compromise the health of the patient and jeopardise their recovery from the condition for which they were initially admitted, which significantly increases healthcare costs. Hospital-acquired infections caused by Golden Staph are a major problem in Australia and globally. The problem is largely due to the presence in hospitals of strains that have become resistant to most clinically-useful antibiotics and are therefore very difficult to eradicate. This research project will reveal detailed information about strains of Golden Staph that are currently prevalent in hospitals in Australia, USA, Europe, and South East Asia. It will also provide important insights into the mechanisms that enable this organism to become resistant so readily, and identify factors that promote the development of resistant strains. The results of this research project will lead to improved methods for the characterisation of clinical strains and the monitoring of antibiotic resistance. The findings will also be of relevance to other types of antibiotic resistant bacteria. Most importantly, the application of knowledge arising from these studies has potential to minimise the emergence of strains that are even more resistant, thereby extending the effectiveness of existing and future antibiotics. The design and implementation of strategies to limit the proliferation of resistant bacteria are essential if we are to avoid a scenario similar to that prior to the introduction of antibiotics, when serious infectious diseases were often untreatable.Read moreRead less
Molecular Mechanisms Of Plasmid Maintenance In Multiply-resistant Staphylococci
Funder
National Health and Medical Research Council
Funding Amount
$543,778.00
Summary
Serious infections caused by Staphylococcus aureus bacteria, commonly known as Golden Staph, often arise as complications in patients within hospitals. These infections compromise the health of the patient and jeopardise their recovery from the condition for which they were initially admitted, which significantly increases healthcare costs. Golden Staph is a major cause of hospital-acquired infections in Australia and globally. The problem is largely due to the presence in hospitals of strains t ....Serious infections caused by Staphylococcus aureus bacteria, commonly known as Golden Staph, often arise as complications in patients within hospitals. These infections compromise the health of the patient and jeopardise their recovery from the condition for which they were initially admitted, which significantly increases healthcare costs. Golden Staph is a major cause of hospital-acquired infections in Australia and globally. The problem is largely due to the presence in hospitals of strains that are resistant to most clinically-useful antibiotics and are therefore very difficult to eradicate; the recent isolation of strains highly-resistant to one of the last resort anti-staphylococcal antibiotics, vancomycin, is particularly worrying, as is the emergence of resistant strains that cause infections in the wider community. The emergence of these multiresistant strains is primarily attributable to the acquisition of pre-existing resistance determinants by cell-to-cell gene transfer, a process in which plasmids, extra-chromosomal DNA elements, play a prominent role. Staphylococcal multiresistance plasmids carry genes that can confer resistance to up to 20 antimicrobial agents and are themselves capable of transfer between bacterial cells. In this project, we will define the molecular mechanisms by which multiresistance plasmids efficiently replicate in the host cell and are stably maintained in bacterial populations. This information will identify targets for agents that can promote the loss of plasmids and hence combat the development of resistance; the activity of one type of agent will be determined in this project. The application of knowledge arising from these studies to has the potential to extend the efficacy of existing and future antimicrobial therapies.Read moreRead less
DNA Segregation In Multiresistant Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$306,592.00
Summary
Strains of Golden Staph bacteria resistant to many antibiotics are a major cause of hospital-acquired, and increasingly community-acquired, infections in Australia and around the world. Bacterial growth depends on the faithful inheritance of genetic material, which is facilitated by active DNA segregation. This project will elucidate key aspects of segregation processes so that treatments can be devised that interfere with the growth of this important pathogen and the development of resistance.
Multidrug Resistance Regulatory Protein QacR From Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
One of the most significant mechanisms of drug resistance is the export of antibiotics and other chemotherapeutic drugs from the cell. Drug export systems are an important medical problem due to their frequent occurrence in bacteria and parasites which cause human disease and in human cancer cells. Proteins which recognise and export a broad range of drugs from a cell are called multidrug efflux pumps. These multidrug efflux systems present a serious threat to patient care and to successful ther ....One of the most significant mechanisms of drug resistance is the export of antibiotics and other chemotherapeutic drugs from the cell. Drug export systems are an important medical problem due to their frequent occurrence in bacteria and parasites which cause human disease and in human cancer cells. Proteins which recognise and export a broad range of drugs from a cell are called multidrug efflux pumps. These multidrug efflux systems present a serious threat to patient care and to successful therapy, since the ability to produce a single protein simultaneously renders the cell or organism resistant to several different drugs. Strains of the bacterial pathogen Staphylococcus aureus or Golden Staph, which are endemic in hospitals world-wide, contain an example of such a multidrug exporter, the QacA multidrug efflux pump, which exports at least 30 different antimicrobial compounds, including antiseptics and disinfectants. Production of this protein is regulated by a sensor protein, QacR, which detects the presence of a number of these antimicrobial compounds. To understand how the QacR sensor protein can recognise such a wide variety of compounds, we will identify and structurally characterise the regions of the QacR multidrug regulatory protein which bind these compounds. Additionally, we will examine the means by which QacR regulates the production of the QacA pump protein. This project will provide fundamental knowledge that will not only help with understanding the important process of multidrug resistance but will also enable the rational design of more effective antibacterial compounds that either block or evade these multidrug efflux systems.Read moreRead less
Harnessing The Type VI Secretion System ‘combat’ Arsenal Of A. Baumannii As A Source Of New Antimicrobials And Antimicrobial Targets
Funder
National Health and Medical Research Council
Funding Amount
$521,557.00
Summary
Infections caused by drug-resistant bacteria represent one of the greatest threats to human health. There is an urgent need to develop novel drugs and treatment strategies to combat infections by these drug-resistant organisms. We have shown that the bacteria A. baumannii uses a needle-like system to deliver lethal toxins into competitors. We will characterize these toxins so that we can manipulate them as weapons for controlling infections with multi-drug resistant bacteria.
Antibiotic Resistance And Multiple Antibiotic Resistance In Human Commensal Escherichia Coli In Australia
Funder
National Health and Medical Research Council
Funding Amount
$509,202.00
Summary
Antibiotic resistance, particularly resistance to all or nearly all of the antibiotics available for treatment is now very common and impacts heavily on the treatment of bacterial infections. This project will track resistance genes in reservoirs where antibiotic resistance genes may be present in high concentrations as these are a likely source of the resistance genes in disease-causing bacteria. One such reservoir, the bacteria in the intestines of healthy humans will be examined.
Mechanisms Of Stable Gene Inheritance In Multiresistant Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$620,357.00
Summary
Strains of Golden Staph bacteria resistant to many antibiotics are a major cause of serious hospital-acquired, and increasingly community-acquired, infections in Australia and around the world. The bacteria have mechanisms that cause efficient inheritance of resistance genes, even when antibiotics are no longer being used. This project will elucidate key aspects of such mechanisms so that treatments can be devised that interfere with the development and maintenance of resistance.
Horizontal And Vertical Transmission Mechanisms Of Staphylococcus Aureus Multiresistance Plasmids
Funder
National Health and Medical Research Council
Funding Amount
$408,993.00
Summary
Strains of Golden Staph bacteria resistant to many antibiotics are a major cause of serious hospital-acquired, and increasingly community-acquired, infections. The bacteria have mechanisms that cause efficient transmission of resistance genes to their offspring as well as to other strains. This project aims to elucidate key features of these mechanisms so that treatments can be devised that disrupt the maintenance and transfer of resistance, so as to prolong the effectiveness of antibiotics.