Neil A. Mabbott
TitleCited byYear
Scrapie replication in lymphoid tissues depends on prion protein-expressing follicular dendritic cells
KL Brown, K Stewart, DL Ritchie, NA Mabbott, A Williams, H Fraser, ...
Nature medicine 5 (11), 1308, 1999
Microfold (M) cells: important immunosurveillance posts in the intestinal epithelium
NA Mabbott, DS Donaldson, H Ohno, IR Williams, A Mahajan
Mucosal immunology 6 (4), 666, 2013
Temporary depletion of complement component C3 or genetic deficiency of C1q significantly delays onset of scrapie
NA Mabbott, ME Bruce, M Botto, MJ Walport, MB Pepys
Nature medicine 7 (4), 485, 2001
Temporary inactivation of follicular dendritic cells delays neuroinvasion of scrapie
NA Mabbott, F Mackay, F Minns, ME Bruce
Nature medicine 6 (7), 719, 2000
Prions and their lethal journey to the brain
NA Mabbott, GG MacPherson
Nature Reviews Microbiology 4 (3), 201, 2006
Migrating intestinal dendritic cells transport PrPSc from the gut
FP Huang, CF Farquhar, NA Mabbott, ME Bruce, GG MacPherson
Journal of General Virology 83 (1), 267-271, 2002
Follicular dendritic cell dedifferentiation by treatment with an inhibitor of the lymphotoxin pathway dramatically reduces scrapie susceptibility
NA Mabbott, J Young, I McConnell, ME Bruce
Journal of virology 77 (12), 6845-6854, 2003
Tumor necrosis factor alpha-deficient, but not interleukin-6-deficient, mice resist peripheral infection with scrapie
NA Mabbott, A Williams, CF Farquhar, M Pasparakis, G Kollias, ME Bruce
Journal of Virology 74 (7), 3338-3344, 2000
T‐lymphocyte activation and the cellular form of the prion protein
NA Mabbott, KL Brown, J Manson, ME Bruce
Immunology 92 (2), 161-165, 1997
The immunobiology of TSE diseases
NA Mabbott, ME Bruce
Journal of general Virology 82 (10), 2307-2318, 2001
Salmonella transforms follicle-associated epithelial cells into M cells to promote intestinal invasion
A Tahoun, S Mahajan, E Paxton, G Malterer, DS Donaldson, D Wang, ...
Cell host & microbe 12 (5), 645-656, 2012
Prion uptake in the gut: identification of the first uptake and replication sites
P Kujala, CR Raymond, M Romeijn, SF Godsave, SI van Kasteren, ...
PLoS pathogens 7 (12), e1002449, 2011
An expression atlas of human primary cells: inference of gene function from coexpression networks
NA Mabbott, JK Baillie, H Brown, TC Freeman, DA Hume
BMC genomics 14 (1), 632, 2013
Meta-analysis of lineage-specific gene expression signatures in mouse leukocyte populations
NA Mabbott, JK Baillie, DA Hume, TC Freeman
Immunobiology 215 (9-10), 724-736, 2010
Follicular dendritic cells in TSE pathogenesis
ME Bruce, KL Brown, NA Mabbott, CF Farquhar, M Jeffrey
Immunology today 21 (9), 442-446, 2000
Nitric oxide‐mediated suppression of T cell responses during Trypanosoma brucei infection: soluble trypanosome products and interferon‐γ are synergistic …
JM Sternberg, NA Mabbott
European journal of immunology 26 (3), 539-543, 1996
Bone marrow nitric oxide production and development of anemia in Trypanosoma brucei-infected mice.
N Mabbott, J Sternberg
Infection and immunity 63 (4), 1563-1566, 1995
Role of the GALT in scrapie agent neuroinvasion from the intestine
BR Glaysher, NA Mabbott
The Journal of Immunology 178 (6), 3757-3766, 2007
M cell-depletion blocks oral prion disease pathogenesis
DS Donaldson, A Kobayashi, H Ohno, H Yagita, IR Williams, NA Mabbott
Mucosal immunology 5 (2), 216, 2012
Suppressor macrophages in Trypanosoma brucei infection: nitric oxide is related to both suppressive activity and lifespan in vivo
Parasite immunology 17 (3), 143-150, 1995
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