Katherine J. Lethbridge scite author profile

Human adenovirus serotype 5 encodes three proteins, E1b 55K, E4 Orf3 and E4 Orf6, which interact with each other and with components of the nucleus to regulate mRNA processing and export, viral DNA replication and p53-dependent apoptosis. Previous studies have shown that, during wild-type infection, 55K associates initially with structures termed ND10, which are sites of localization of the promyelocytic leukaemia protein, and then moves, dependent upon its interaction with Orf6, to the establishing virus replication centres. Absence of either Orf3 or Orf6 affects the localization of 55K and so may affect its function. In this study, the influence of Orf3 and Orf6 expression on the association of 55K with the insoluble matrix fraction of the nucleus and with ND10 particularly was examined. Overexpression of Orf6 was sufficient to block the association of 55K with this fraction, irrespective of the presence of Orf3. This effect depended upon the two proteins being able to interact. However, the association of 55K with ND10, which persists throughout infection in the absence of Orf6, required Orf3 to be present, thus distinguishing two subsets of matrix-associated 55K. A modified form of 55K, formation of which was blocked by mutating the known site of SUMO-1 attachment, was more abundant in the absence of Orf6 but unaffected by the absence of Orf3. Thus, this modification is favoured when 55K remains associated with the matrix but does not correlate with its stable association with ND10, many components of which are modified by SUMO-1.

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Isoforms of the promyelocytic leukemia protein differ in their effects on ND10 organization

Beech

Lethbridge

Killick

et al. 2005

Experimental Cell Research

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HPV E6 proteins interact with specific PML isoforms and allow distinctions to be made between different POD structures

et al. 2004

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Mucosal human papillomaviruses (HPVs) are the causative agents of a number of human pathologies, including benign condylomas, as well as of the majority of cervical cancers and their high-grade precursor lesions. Although the viral E6 protein is known to be essential for driving malignant progression of HPV-infected cells, there are still many uncertainties about its mode of action. In this study, we have analysed the intracellular distribution of the E6 oncoproteins from the high-risk HPV-18 and the low-risk HPV-11. We show that both E6 proteins localize within the nucleus in nuclear bodies that are confocal with the promyelocytic leukaemia (PML) protein. Using a panel of different PML isoforms, we demonstrate specific co-localization between the E6 proteins and PML isoforms I-IV, but not with PML isoforms V and VI. We also demonstrate the interaction between E6 and a subset of PML isoforms in vivo. As a consequence of this interaction, the insoluble form of PML IV is destabilized by HPV-18 E6 through a proteasome-dependent pathway. Interestingly, both HPV-11 E6 and HPV-18 E6 can readily overcome PML IV-induced cellular senescence in primary cells. These results show separable functions for different PML isoforms that are specifically targeted by the HPV E6 oncoproteins.

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