In-situ AFM of pathogenic proteins involved in meningitis and septicaemia
Lead Research Organisation:
University of Sheffield
Department Name: Chemistry
Abstract
Many bacteria responsible for disease secrete substances (proteins) that attack and degrade human tissue. We have recently identified new proteins that subvert human blood cells allowing bacteria to use their contents as nutrients and survive in the blood. It should be possible to follow a protein secreted by the bacteria responsible for meningitis and septicaemia as it enters the cell membrane of a red blood cell, image the resultant changes in cell shape, and gain a new understanding of role played by the protein in the cell?s demise. Atomic force microscopy (AFM) is an imaging technique that allows us to view individual proteins within membranes at extremely high magnification. We can view surfaces under physiological conditions, and potentially follow processes at a molecular scale in real-time providing much more detail than is available currently with conventional light or electron microscopy. Recent developments by the applicant allow considerably faster imaging, providing an opportunity to visualize, in real time, important early events in the establishment of disease.
This grant aims to transfer expertise from physical science into medicine, providing access and expertise in equipment not previously applied to a medical problem. A physical scientist researcher will be physically re-located into the School of Medicine, providing her with considerable new training and giving her a unique skill set for applying AFM technology to these important systems. It will also give the physical scientist applicant sufficient time to become well acquainted with the medically relevant biology, providing a sound basis for the development of new AFM related technologies of wider application to medicine.
This grant aims to transfer expertise from physical science into medicine, providing access and expertise in equipment not previously applied to a medical problem. A physical scientist researcher will be physically re-located into the School of Medicine, providing her with considerable new training and giving her a unique skill set for applying AFM technology to these important systems. It will also give the physical scientist applicant sufficient time to become well acquainted with the medically relevant biology, providing a sound basis for the development of new AFM related technologies of wider application to medicine.
Technical Summary
In the discipline hopping project we aim to apply the in-situ molecular scale imaging capabilities of atomic force microscopy (AFM) and the video rate AFM technique developed by the applicant to follow the activity of two proteins that play a role in the pathogenicity of Neisseria meningitidis. Novel high speed, high resolution and real-time imaging methods will be used to follow the interaction of the proteins with eukaryotic cells, with the ultimate aim of observing, at the molecular scale, the mechanism by which the proteins carry out their roles. A PDRA from the PI?s group will re-locate to the co-I?s group in Medicine, while sufficient time is allocated to the PI to allow for full immersion in the new area, with anticipated future impact on instrument development to specifically target medically relevant problems. The project will lead to a strong link between the investigators with complementary expertise, and provide the catalyst for a significant shift in direction of the PI?s research towards medically relevant biology. This project is particularly timely as the Sayers lab. has identified a new molecule involved in pathogenicity.