Journal article
Increased proportions of c1 truncated prion protein protect against cellular m1000 prion infection
V Lewis, AF Hill, CL Haigh, GM Klug, CL Masters, VA Lawson, SJ Collins
Journal of Neuropathology and Experimental Neurology | OXFORD UNIV PRESS INC | Published : 2009
Abstract
Prion disease pathogenesis is linked to the cell-associated propagation of misfolded protease-resistant conformers (PrP) of the normal cellular prion protein (PrP). Ongoing PrP expression is the only known absolute requirement for successful prion disease transmission and PrP propagation. Further typifying prion disease is selective neuronal dysfunction and loss, although the precise mechanisms underlying this are undefined. We utilized a single prion strain (M1000) and a range of neuronal and nonneuronal, PrP endogenously expressing and transgenically modified overexpressing cell lines, to evaluate whether PrP glycosylation patterns or constitutive N-terminal cleavage events may be determin..
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Grants
Awarded by NHMRC
Funding Acknowledgements
This work was supported by an NH&MRC Program Grant No. 400202. Cathryn L. Haigh is supported by a University of Melbourne Early Career Researcher Grant; Steven J. Collins by all NH&MRC Practitioner Fellowship No. 400183; Steven J. Collins and Victoria A. Lawson by an NH&MRC Project Grant No. 454546; Victoria A. Lawson and Andrew F. Hill by an NH&MRC Project Grant No. 400229; and Andrew F. Hill by all NH&MRC Career Development Award No. 251745.