Margot J. Hosie scite author profile

Retinoblastoma binding protein 6 (RBBP6) is a nuclear protein, previously implicated in the regulation of cell cycle and apoptosis. The human RBBP6 gene codes for three protein isoforms and isoform 3 consists of the domain with no name domain only whilst the other two isoforms, 1 and 2 comprise of additional zinc, RING, retinoblastoma and p53 binding domains. In this study, the localization of RBBP6 using RBBP6 variant 3 mRNA-specific probe was performed to investigate the expression levels of the gene in different tumours and find a link between RBBP6 and human carcinogenesis. Using FISH, real-time PCR and Western blotting analysis our results show that RBBP6 isoform 3 is down-regulated in human cancers. RBBP6 isoform 3 knock-down resulted in reduced G2/M cell cycle arrest whilst its over-expression resulted in increased G2/M cell cycle arrest using propidium iodide DNA staining. The results further demonstrate that the RBBP6 isoform 3 may be the cell cycle regulator and involved in mitotic apoptosis not the isoform 1 as previously reported for mice. In conclusion, these findings suggest that RBBP6 isoform 3 is a cell cycle regulator and may be de-regulated in carcinogenesis.

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The plasma membrane transformation facilitates pregnancy in both reptiles and mammals

Murphy

Hosie

Thompson

2000

Comparative Biochemistry and Physiology Part A: Molecular &

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Evolution of viviparity: what can Australian lizards tell us?

Thompson

Stewart

Speake³

et al. 2002

Comparative Biochemistry and Physiology Part B: Biochemistry an

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Human uterodomes (pinopods) do not display pinocytotic function

Gayer¹,

Hosie²,

Murphy³

2002

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The Effect of Acute Oxidative Stress on the Ultrastructure of the Perfused Rat Liver

Cogger

Mross

Hosie

et al. 2001

Pharmacology & Toxicology

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Ageing and liver disease are associated with ultrastructural changes in the hepatic sinusoid. Because of the possibility that reactive oxygen species could mediate these processes, we examined the effect of acute oxidative stress on the ultrastructure of the intact liver. Rat livers were perfused ex vivo, in situ with hydrogen peroxide via the portal vein. The livers were then fixed and the ultrastructure of the liver tissue examined with transmission and scanning electron microscopy. The effects of hydrogen peroxide were largely confined to the perisinusoidal areas. The sinusoidal endothelial cells became swollen and more porous, with large gaps replacing sieve plates. The space of Disse showed an increase in volume and the density of hepatocyte projections decreased. Kupffer cell activation was noted. Little or no ultrastructural change was observed within the hepatocytes. Oxidative stress delivered via the portal vein dramatically alters the ultrastructure of the perisinusoidal regions of the liver. This process may contribute to the pathogenesis of disease and agerelated changes in the liver.

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Margot J. Hosie

De-regulation of the RBBP6 isoform 3/DWNN in human cancers

The plasma membrane transformation facilitates pregnancy in both reptiles and mammals

Evolution of viviparity: what can Australian lizards tell us?

Human uterodomes (pinopods) do not display pinocytotic function

The Effect of Acute Oxidative Stress on the Ultrastructure of the Perfused Rat Liver

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