University of Oxford
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Commercial partner: Autifony Therapeutics
Ion channels are transmembrane proteins that form pores, allowing charged ions to cross the hydrophobic environment of the cell membrane. Most ion channels form proteinaceous water-filled pores. The TMEM16A anion channel is an exception as its pore has extensive regions directly exposed to plasmalemmal lipids. Thus, TMEM16A may function as a “lipid sensor” by coupling changes in the lipid composition of the membrane with cell electrical activity.
Lysosomes are organelles that actively modulate trafficking of lipids to/from the plasma membrane. Crucial in this process is the lysosomal lipid-binding protein NPC1. Mutations of NPC1 lead to Niemann-Pick disease Type C (NPC), characterized by severe progressive neurodegeneration (‘childhood Alzheimer’s’) and cerebral vascular impairment. The TMEM16A channel is highly expressed in cerebral pericytes, cells that surround capillaries and control local blood flow within the brain. Alterations in TMEM16A function in pericytes occurs in ischaemic stroke and potentially in Alzheimer’s (J Clin Invest. 2022 132:e154118; Trends Pharmacol Sci. 2022 43:712-725.).
The labs of Profs Tammaro and Platts (the academic supervisors for the project) have unexpectedly discovered that genetic ablation of NPC1 or pharmacological inhibition of the NPC1 protein strongly potentiated TMEM16A currents in mammalian cell lines due to altered lipid homeostasis caused by loss of NPC1 function (unpublished). We hypothesise that potentiation of the TMEM16A current may lead to pericyte constriction and cerebral microvascular under-perfusion in NPC disease.
The project falls squarely within the MRC remit of world-leading research in ‘Molecular and cellular medicine’ and ‘Neurosciences and mental health’. The project promises to (i) elucidate the cellular mechanisms that link NPC1 dysfunction to TMEM16A activation, (ii) explore the influence of TMEM16A potentiation on cerebral microvascular blood flow in murine models of NPC disease and (iii) examine the potential for pharmacological amelioration of the condition using novel TMEM16A modulators produced by the industrial partner Autifony. This cross disciplinary project will therefore shed light on how the lysosome may affect cell excitability enhancing our understanding of the basic biology of this organellar system. From a disease biology and pathophysiological perspective, it will also enable the partners to build the case for drug discovery approaches to develop new therapeutic avenues for NPC disease, a debilitating disorder with currently limited treatment options. The results of this work will also have relevance to the development of novel therapeutics for more prevalent, but equally challenging and burdensome diseases, such as vascular dementia and Alzheimer’s.
Apply using course: DPhil in Pharmacology
MRC INDUSTRIAL CASE STUDENTSHIPS 2025
Designed to nurture the academic entrepreneurs of the future, the Enterprise studentship programme offers a stimulating educational experience as part of the Oxford-MRC DTP cohort, with the additional benefit of working closely with an industrial partner. This will provide entrepreneurial training opportunities and an insight into how commercial science is conducted alongside a superb academic base within the University. Students will work for at least 3 months in the associated company.
ELIGIBILITY
They are open to both UK and non-UK nationals and will follow the UKRI student eligibility requirements. UKRI will normally limit the proportion of international students appointed each year through individual training grants to 30% of the total intake each year.
FUNDING PACKAGE
Each iCASE studentship is fully-funded – it includes four years of stipend at the UKRI stipend level + £2,500 p.a., course fees, and a generous research training support grant.
APPLICATIONS DEADLINE
Applications must be received by 12 noon (UK time) Tuesday 3 December 2024. Details on entry requirements and how to apply can be found below.
For details of entry requirements please go to the Oxford-MRC DTP iCASE 2025 Projects page.
HOW TO APPLY
Before applying for this project we recommend you contact the lead supervisors for informal discussion.
To make a formal application, please complete the University’s online application form for the DPhil course specified under the project description above. Please indicate the iCASE project clearly by inserting ‘iCASE’ before the project title and by using the reference code iCASE. You will need to provide a personal statement (500 words max if applying for a project hosted by one of Medical Sciences departments – please note that this limit might be different if a project is hosted by one of MPLS departments in which case follow their requirement) detailing your interest and fit for the studentship. Note that no project proposal is required for the iCASE studentship applications.
If you wish to apply for a combination of iCASE and other projects within the hosting department, this can be done on the same application form (max number of projects you can apply for on one application depends on the department you wish to apply to). If you wish to apply for iCASE projects within different departments, you will have to make separate applications directly through those departments.
If you have any queries about the iCASE application process (questions about the project should be directed to the lead supervisor), please email [email protected].
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