Hannah F Walker

Publications (3)12.33 Total impact

• Article: Development and limitations of lentivirus vectors as tools for tracking differentiation in prostate epithelial cells.

  Fiona M Frame, Stefanie Hager, Davide Pellacani, Mike J Stower, Hannah F Walker, Julie E Burns, Anne T Collins, Norman J Maitland
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  ABSTRACT: To investigate hierarchy in human prostate epithelial cells, we generated recombinant lentiviruses, infected primary cultures and cell lines, and followed their fate in vitro. The lentiviruses combined constitutive promoters including CMV and β-actin, or late-stage differentiation promoters including PSCA (prostate stem cell antigen) and PSAPb (prostate specific antigen/probasin) driving expression of monomeric, dimeric and tetrameric fluorescent proteins. Significantly, rare CD133(+) cells from primary prostate epithelial cultures were successfully infected and activation of late-stage promoters was observed in basal epithelial cultures following induction of differentiation. Lentiviruses also infected CD133(+) cells within the P4E6 cell line. However, promoter silencing was observed in several cell lines (P4E6, BPH-1, PC3). We examined the promoter methylation status of the lentiviral insertions in heterogeneously fluorescent cultures from PC3 clones and found that DNA methylation was not the primary mechanism of silencing of the CMV promoter. We also describe limitations to the lentivirus system including technical challenges due to low titers and low infection efficiency in primary cultures. However, we have identified a functional late-stage promoter that indicates differentiation from a basal to a luminal phenotype and demonstrate that this strategy for lineage tracking of prostate epithelial cells is valid with further optimisation.
  Experimental Cell Research 11/2010; 316(19):3161-71. · 3.58 Impact Factor
• Article: Phenotypic effects of HPV-16 E2 protein expression in human keratinocytes.

  Julie E Burns, Hannah F Walker, Christian Schmitz, Norman J Maitland
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  ABSTRACT: Expression of the HPV E2 open reading frame in cervical cancer cells has been shown to affect the expression of both viral and cellular genes. We have examined the phenotypic effects of the expression of human papillomavirus 16 E2 open reading frame in the human keratinocyte cell line HaCaT. Increased levels of apoptotic cell death were seen within 24h of the transfection of HPV-16 E2 expression constructs. However, in those cells which survived selection and retained the intact E2 ORF, long-term stable expression of E2, as detected by RT-PCR, produced cells which developed phenotypes typical of terminally differentiated cells. These included characteristic morphological changes and expression of involucrin, filaggrin and senescence markers. This provides the first evidence of a role for E2 in stimulation of the normal epithelial differentiation programme, which would promote the progression of the HPV life cycle.
  Virology 03/2010; 401(2):314-21. · 3.35 Impact Factor
• Article: Dimerization of the human papillomavirus type 16 E2 N terminus results in DNA looping within the upstream regulatory region.

  Elena E Hernandez-Ramon, Julie E Burns, Wenke Zhang, Hannah F Walker, Stephanie Allen, Alfred A Antson, Norman J Maitland
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  ABSTRACT: Papillomavirus E2 proteins play a central role in regulating viral gene expression and replication. DNA-binding activity is associated with the C-terminal domain of E2, which forms a stable dimer, while the N-terminal domain is responsible for E2's replication and transactivation functions. The crystal structure of the latter domain revealed a second dimerization interface on E2 which may be responsible for DNA loop formation in the regulatory region of the human papillomavirus (HPV) genome. We investigated the biological significance of the N-terminal dimerization by introducing single amino acid substitutions into the dimerization interface. As expected, these substitutions did not influence the C-terminal dimerization and DNA-binding functions of E2. However, the mutations led to reduced transactivation of a synthetic E2-responsive reporter gene, while HPV DNA replication was unaffected. The effect of the mutations on DNA looping was visualized by atomic force microscopy. While wild-type E2 was able to generate DNA loops, all three mutant E2 proteins were defective in this ability. Our results suggest that N-terminal dimerization plays a role in E2-mediated transactivation, probably via DNA looping, a common mechanism for remote regulation of gene transcription.
  Journal of Virology 06/2008; 82(10):4853-61. · 5.40 Impact Factor