INSIDE THE SKIN: UNDERSTANDING DIFFERENT HOST RESPONSES IN SCABIES
Funder
National Health and Medical Research Council
Funding Amount
$499,095.00
Summary
Scabies is an underlying cause of poor health in indigenous communities worldwide. Crusted scabies is a poorly understood, life-threatening form of the disease compromising the success of community control strategies. This research compares the immune response in the skin of scabies patients, and in a world-first animal model of human scabies. This will reveal specific immune defects predisposing to disease, ultimately resulting in improved skin health for disadvantaged communities
To Describe The Regional Differences In The Innate Immune System Of The Skin Using Intra-vital Multiphoton Microscopy And Understand Its Functional Consequences In A Cutaneous Parasite Infection Model.
Funder
National Health and Medical Research Council
Funding Amount
$97,182.00
Summary
This study is the first of its kind to map the innate immune system, the body's first line of defence, in the skin - coined the "immune atlas". Researchers have shown regional differences in innate immune cells which could explain how infections develop at different sites of the body. Although they have shown this in a cutaneous leishmaniasis model, a parasite endemic in most parts of the world, it may have implications also for inflammatory skin conditions such as eczema or psoriasis.
Age-dependent Regulation Of Type 2 Immunity By Dermal Innate Lymphoid Cells
Funder
National Health and Medical Research Council
Funding Amount
$609,281.00
Summary
Type 2 immune responses are critical for the defense against worm infections, but can also cause allergic reactions. How type 2 immunity is regulated is poorly understood. The aim of this application is to define the function of a newly discovered skin immune cell population, dermal type 2 innate lymphoid cell, in cutaneous worm infections and allergies. We anticipate that our studies will aid in the development of strategies to prevent or treat skin allergies and parasitic infections.
Infectious And Lifestyle Determinants Of Non-melanoma Skin Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$983,711.00
Summary
Basal and squamous cell skin cancers are the leading cancers in Australia, with about 2% of the population developing them each year. As well as sun exposure, a number of other factors have been thought to effect these cancers. This study will examine if factors such as smoking, alcohol consumption and infection with certain skin related human papillomaviruses also increase their risk. Even a small effect may make a big difference when it comes to preventing these common cancers.
A New Animal Model For Genitourinary Schistosomiasis
Funder
National Health and Medical Research Council
Funding Amount
$395,711.00
Summary
Schistosoma haematobium causes genitourinary schistosomiasis, a serious disease that affects reproductive health, urinary system health and potentially bladder cancer. This species is the most pathogenic species of all schistosomes, but comparatively less is know about it than other species because of a lack of a suitable model. We need a suitable model host for this important parasite. This project will test whether newborn pigs can be used as laboratory models.
Biological Function Of The Chemokine Receptor 6 Expression On B Cells
Funder
National Health and Medical Research Council
Funding Amount
$241,500.00
Summary
The correct movement of cells is important for the defence of the body against micro-organisms. White blood cells have to arrive quickly at the site of an infection and information about this infection has to be spread. White blood cells that navigate the body are using molecules on their surface termed as receptors which help them to detect the scent of their target. One of these receptors is located on white blood cells that produce antibodies and enables these cells to migrate to appropriate ....The correct movement of cells is important for the defence of the body against micro-organisms. White blood cells have to arrive quickly at the site of an infection and information about this infection has to be spread. White blood cells that navigate the body are using molecules on their surface termed as receptors which help them to detect the scent of their target. One of these receptors is located on white blood cells that produce antibodies and enables these cells to migrate to appropriate tissues . We want to know more about the biological role of this receptor and its functions during the immune response to pathogens. It would be of significant importance to understand the impact of these cell surface receptors in detail because this could open the possibility to new therapies of infectious diseases and chronic inflammation.Read moreRead less
Visualisation Of Gamma-delta T Cell Responses In Cutaneous Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$570,876.00
Summary
Mycobacterial infections remain a major burden of modern society. This proposal aims to define the role of an understudied immune cell subset, gamma-delta T cells, in the response against mycobacteria. We will use cutting-edge multi-photon imaging to track these cells in real-time directly within infected tissues. This will facilitate generating a new vista of anti-mycobacterial immune responses and may aid the development of improved vaccines.
Defining The Contribution Of Skin Gamma Delta T Cells To Cutaneous Immunosurveillance, Immunity And Disease After HSV Infection.
Funder
National Health and Medical Research Council
Funding Amount
$601,386.00
Summary
Herpes simplex virus (HSV) causes genital herpes and encephalitis. Disease is severe in the immunocompromised and the newborn. HSV enters through breaks in the skin or mucosa, where it first encounters gamma delta T cells. We have recently made the key finding that HSV can infect gamma delta T-cells shortly after inoculation. Here we will study how they contribute to the immune response when a virus enters the skin in mice and human tissues. This may lead development of new topical antiviral vac ....Herpes simplex virus (HSV) causes genital herpes and encephalitis. Disease is severe in the immunocompromised and the newborn. HSV enters through breaks in the skin or mucosa, where it first encounters gamma delta T cells. We have recently made the key finding that HSV can infect gamma delta T-cells shortly after inoculation. Here we will study how they contribute to the immune response when a virus enters the skin in mice and human tissues. This may lead development of new topical antiviral vaccines.Read moreRead less
Subset Determination Of Tissue-Resident T Cell Memory
Funder
National Health and Medical Research Council
Funding Amount
$473,394.00
Summary
Immunity relies on white blood cells called T cells that circulate around the body and which are also found permanently lodged at body surfaces. It is non-circulating T cells that are the most important in protecting against infection. In this application we propose to show that only a subset of T cells can form the resident population and to identify the molecules that determine T cell residency. This information can then be used for the efficient construction of disease preventing vaccines.
The body’s surfaces are continually under threat from microbes that may cause debilitating disease. Our ability to control such infections relies on our immune system, consisting of different cell types with specialised functions. We will study frontline immune cells that populate barrier tissues such as skin and mucosa where they provide enhanced local protection by responding vigorously on infection. Our studies will guide the development of future therapies harnessing our immune system.