Mast cells (MC) are key regulators of chronic skin inflammation, such as atopic eczema, and can also give rise to a group of diseases called mastocytosis. How MC numbers are regulated in these conditions is poorly understood. We have identified a novel circulating precursor cell that gives rise to MC. We will determine the function of these precursors in skin diseases, including eczema and mastocytosis, with the aim to curtail the course of of these difficult-to-treat conditions.
S100 Proteins: Novel Oxidant Scavengers In Allergic Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$505,814.00
Summary
Allergic inflammation includes conditions such as dermatitis and asthma. Asthma, affects one in 10 adults and one in 6 Australians, costing ~$720 million/annum. We will characterize new mediators of oxidant defence which have suppressive effects on key pathogenic processes. The novel oxidative changes in S100 proteins may lead to new diagnostic reagents and new strategies for therapy. Results will open new frontiers in asthma biology and will apply to other chronic inflammatory diseases.
Regulatory Roles Of Mast Cells In Cutaneous Dermatitis In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$586,965.00
Summary
Allergic conditions that can affect the skin, such as contact dermatitis or eczema are common amongst Australians. Although not life threatening, these common skin conditions can cause considerable physical diability and be expensive to treat. The major focus of our research is to define how dermal mast cells can be modulated to help limit the tissue changes and damage associated with these skin conditions, and ultimately develop improved treatments in the future.
Methylation-sensitive T Cell Genes And Childhood Food Allergy.
Funder
National Health and Medical Research Council
Funding Amount
$461,232.00
Summary
Australia has the highest reported prevalence food allergy in the world. Despite this, little is known about how allergy develops. Mounting evidence implicates environmentally induced disruption of the genetic blueprint via a process known as epigenetics. We are combining the strengths of food challenge proven food allergy with assessment of immune functioning & cutting edge genomics, to extensively characterise the pathways leading to food allergy in children.