Macfarlane Adaptive Changes In HIV-1 Subtype C Envelope Glycoproteins Contributing To Pathogenicity.
Funder
National Health and Medical Research Council
Funding Amount
$310,787.00
Summary
HIV exists as multiple subtypes. The most commonly studied is type B (B-HIV). B-HIV is common in developed countries, but accounts for only a small fraction of HIV infections worldwide. Type C HIV (C-HIV) in Africa and Asia accounts for the majority of infections worldwide, yet very little is known about how C-HIV causes AIDS. We aim to understand how C-HIV causes AIDS. This is critical for development of drugs and vaccines specifically designed for those who are most urgently need.
HIV-1 infection is characterised by high levels of virus replication and a progressive loss of immune cells, particularly CD4+ T lymphocytes. Highly active antiretrovial therapy (HAART) for HIV-1 infection results in profound suppression of viral replication, a substantial increase in CD4+ T lymphocytes and a decrease in morbidity and mortality. The primary source of T lymphocytes in early human development is the thymus. Recently, it has been demonstrated that the thymus remains functional thro ....HIV-1 infection is characterised by high levels of virus replication and a progressive loss of immune cells, particularly CD4+ T lymphocytes. Highly active antiretrovial therapy (HAART) for HIV-1 infection results in profound suppression of viral replication, a substantial increase in CD4+ T lymphocytes and a decrease in morbidity and mortality. The primary source of T lymphocytes in early human development is the thymus. Recently, it has been demonstrated that the thymus remains functional throughout adult life. The role of the thymus in HIV-1 infection remains controversial. Studies of the role of the thymus in HIV-1-infected individuals has been limited by the lack of a marker of thymic function in vivo. We have recently developed a novel assay to quantify cells of recent thymic origin by taking advantage of certain molecular events that occur in the thymus during the production of new T lymphocytes. This molecular event creates a circular piece of DNA, called a T-cell receptor excision circles (TREC). TREC concentration in the periphery will increase with an increase in thymic output but will reduce in the presence of T cell proliferation or cell death. In order to determine the contribution of the thymus to immune reconstitution following HAART, we plan to study the dynamics of thymus function in HIV-1 infection by measuring TREC and T cell turnover in HIV-1 infection prior to and following HAART. In a subgroup of individuals, more commonly seen following treatment of HIV-1 infection in children, there is an increase in CD4+ T lymphocytes in the absence of a significant reduction in viral suppression. The role of the thymus in this unique subset of individuals will be studied.Read moreRead less
Characterisation Of Immune Responses To Sarcoptes Scabiei Cysteine Proteases, Group 1 Allergen Homologues, In Scabies
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Scabies, a parasitic skin infestation by the 'itch' mite Sarcoptes scabiei, causes significant health problems for children and adults in many remote Aboriginal communities in Australia. Scabies is often the underlying cause of streptococcal skin infections which can cause serious complications such as kidney and heart disease. Although diagnosed scabies cases can be successfully treated, individuals have often already transmitted the disease to others prior to receiving therapy. A particularly ....Scabies, a parasitic skin infestation by the 'itch' mite Sarcoptes scabiei, causes significant health problems for children and adults in many remote Aboriginal communities in Australia. Scabies is often the underlying cause of streptococcal skin infections which can cause serious complications such as kidney and heart disease. Although diagnosed scabies cases can be successfully treated, individuals have often already transmitted the disease to others prior to receiving therapy. A particularly dreadful form of scabies, known as crusted scabies, can develop in a minority of people, in which mites multiply in their millions and the affected person develops severe crusting of the skin. This has resulted in death within 5 years for up to 50% of people with this form of scabies. Scabies mites are scientifically very similar to house dust mites, and they produce cross reactive proteins. Molecular studies in our laboratory have enabled the identification and cloning of a number of scabies molecules with considerable similarity to known house dust mite proteins that cause allergic disease. In this study we propose to focus on a group of scabies proteins with significant identity to the extensively studied Group 1 house dust mite allergens, reported to cause an immune response in 90% of mite allergic people. We propose to use these scabies mite molecules to characterise the immune response in ordinary scabies and compare it to the more severe and debilitating crusted form of the disease. Characterisation of the immune response in scabies will ultimately aid in the development of new treatment for crusted scabies based on immunotherapy. Studies will also investigate for any cross reactivity with the house dust mite group 1 molecules and enable the design of specific immunodiagnositics to distinguish house dust mite allergy from scabies infestation and thus facilitate early diagnosis of scabies carriers and better control of the infestation in endemic communities.Read moreRead less