Quick Project Snapshot

Identify the transcriptional regulatory factors of the P2X7 receptor

P2X7 is an ATP-gated purinergic receptor and plays a broad role in infection, inflammation, autoimmunity, neurodegeneration and oncogenesis. Several isoforms of P2X7 have been identified to be associated with cancer or other diseases. High expression of non-functional P2X7 has also been found in a broad range of tumour tissues. However, the transcriptional regulatory factors leading to these isoforms and non-functional P2X7 are unclear. This project will identify the transcriptional factors in the P2X7 promoter region, and how these transcriptional factors regulate production of P2X7 isoforms and non-functional P2X7. The results will provide insights on how cancer cells avoid removal by innate immunity.
Techniques involved include molecular biology, including primer extension, transfection, fluorescent super electrophoresis mobility shift assay and chromotin-immunoprecipitation, as well as cell culture, flow cytometry.

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HEAD OF LAB
Dr Ben Gu

Innate Phagocytosis Laboratory

The Innate Phagocytosis Laboratory led by Dr. Ben J. Gu and Prof. James S. Wiley has great interests in discovering the role of innate phagocytosis in neurodegeneration, neurodevelopment, infection and cancer. This Lab has a long history of studies on the P2X7 receptor, an ion channel activated by ATP.  They discovered the non-functional P2X7 and identified a number of genetic variations affecting P2X7 pore formation and pro-inflammatory responses. Recently they have found that P2X7 is in fact a scavenger receptor in the absence of ATP or serum. Further study of P2X7 mediated innate phagocytosis opens a new research field for its role in broad biological aspects, including:

  1. Neurodegeneration: This lab explores genetic, cell biological and animal studies to identify a common mechanism underlying a number of neurological disorders including Alzheimer’s disease, age-related macular degeneration and multiple sclerosis.
  2. Neurodevelopment: This lab has revealed that P2X7 mediated phagocytosis probably contributes to the early development of central nervous system by removing apoptotic neuronal cells.
  3. Infection: Innate immunity can be promoted by neutralizing certain glycoprotein in serum or by compounds promoting innate phagocytosis. This lab is currently developing a rabbit model of bacteraemia/sepsis.
  4. Cancer:   The non-functional P2X7 is found to be expressed on the surface of various tumor cells, but not on normal cells. The antibody against this non-functional P2X7 receptor  is currently undergoing a clinical trial for basal cell carcinoma conducted by Biosceptre Pty Ltd. This lab has great interests in investigating the biological nature of non-functional P2X7, P2X7 mediated phagocytosis and oncogenesis.

All Projects by this Lab

Search the P2X7 related biomarkers for Alzheimer’s diseaseThe nature of the P2X4 receptorThe role of P2X7 in a mouse model of oligodendrocyte apoptosisInvestigation of P2X7 mediated phagocytosis - potential therapeutic target for cancer treatmentIdentify the transcriptional regulatory factors of the P2X7 receptorHow does the brain remove the excess number of neurons during development and agingIdentification of serum glycoproteins altering innate immunityDo circulating microvesicles from patients with multiple sclerosis (MS) disrupt the blood-brain barrier (BBB)? (For Honors and MBiomedSc)The Role of Innate Phagocytosis in the Pathogenesis and Treatment of Alzheimer's Disease (for PhD only)

Epilepsy

The Florey's Epilepsy division is a world-leading centre for epilepsy research. The division has major groups at both the Florey’s Austin and Parkville campus. The group studies mechanisms that cause epilepsy from the level of cells to the function of the whole brain. We use technologies including advanced MRI and cutting edge cellular physiology techniques to allow us to understand genetic and acquired mechanisms that give rise to epilepsy. Together with our colleagues from The University of Melbourne and across Australia we are working towards finding a cure for epilepsy.

All Labs that operate in this Division

Epilepsy Cognition LaboratoryEpilepsy Neuroinformatics LaboratoryImaging and EpilepsyInnate Phagocytosis LaboratoryIon Channels and Human Diseases LaboratoryNeural Networks LaboratoryNeurophysiology of Excitable Networks LaboratoryPsychology and Experimental NeurophysiologySleep and CognitionTraumatic Brain Injury Laboratory