G S Nouman scite author profile

Background/Aims: The inhibitor of growth gene 1 (ING1) is a modulator of cell cycle checkpoints, apoptosis, and cellular senescence. The most widely expressed ING1 isoform is p33ING1b , which can modulate p53, a molecule that is frequently altered in breast cancer. Reduced ING1 mRNA expression has been observed in primary breast cancer expressing wild-type p53. Methods: p33ING1b , p53, oestrogen receptor (ER), and progesterone receptor (PgR) expression was studied in 86 primary invasive breast cancers using immunohistochemistry. Results: Reduced nuclear expression of p33ING1b was found in cancer cells, both in intensity and the proportion of cells staining. This was associated with enhanced cytoplasmic p33ING1b expression in a proportion of cases. Analysis of several known biological factors indicated that high grade tumours were of larger size and more often negative for ER and PgR expression. However, larger tumours were more frequently p53 negative. These results provide evidence that p33ING1b alterations are associated with more poorly differentiated tumours. Positive correlations were found between nuclear p33

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Comparative Assessment Expression of the Inhibitor of Growth 1 Gene (ING1) in Normal and Neoplastic Tissues

Nouman

Angus²,

Lunec

et al. 2002

Hybridoma and Hybridomics

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Studies have indicated that the tumor suppressor p33(ING1b) (13q33-34) interact with p53. Moreover, the association of functional protein forms of each member of the p33(ING1b)/p53 complex is essential for optimum activity of p53. The present report describes the sequencing of cDNAs corresponding to the p33(ING1b) mRNAs in a series of normal and tumor cell lines, and the production of monoclonal antibodies (MAbs) reactive with p33(ING1b). These antibodies were subsequently used to analyze p33(ING1b) expression in normal and tumor cell lines and tissues. No evidence of mutation of p33(ING1b) was found in any of the 15 tumor cell lines cDNAs studied. Our investigation of a wide range of normal tissues have shown that expression of the nuclear epitope is highly ubiquitous, whereas expression of the cytoplasmic form could be detected in only 50% of tissues studied. Considering neoplastic tissues, loss of nuclear p33(ING1b) was observed in melanoma, seminoma, papillary thyroid carcinoma, ductal breast carcinoma, and acute lymphoblastic leukemia. As with normal tissue, cytoplasmic p33(ING1b) was more restricted, being observed in around 30% of neoplastic tissues, but in melanoma, papillary thyroid carcinoma, ductal breast carcinoma, there was increased detection of cytoplasmic p33(ING1b) associated with concomitant loss of nuclear expression. These results may suggest that at least in some tumors, loss of effective p33(ING1b) function may be achieved by translocation to the cytoplasm or failure of nuclear localization.

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G S Nouman

Pattern of diseases among visitors to Mina health centers during the Hajj season, 1429 H (2008 G)

The role of the tumour suppressor p33ING1b in human neoplasia

Nuclear to cytoplasmic compartment shift of the p33^ING1b tumour suppressor protein is associated with malignancy in melanocytic lesions

Downregulation of nuclear expression of the p33ING1b inhibitor of growth protein in invasive carcinoma of the breast

Comparative Assessment Expression of the Inhibitor of Growth 1 Gene (ING1) in Normal and Neoplastic Tissues

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G S Nouman

Pattern of diseases among visitors to Mina health centers during the Hajj season, 1429 H (2008 G)

The role of the tumour suppressor p33ING1b in human neoplasia

Nuclear to cytoplasmic compartment shift of the p33ING1b tumour suppressor protein is associated with malignancy in melanocytic lesions

Downregulation of nuclear expression of the p33ING1b inhibitor of growth protein in invasive carcinoma of the breast

Comparative Assessment Expression of the Inhibitor of Growth 1 Gene (ING1) in Normal and Neoplastic Tissues

Contact Info

Product

Resources

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Nuclear to cytoplasmic compartment shift of the p33^ING1b tumour suppressor protein is associated with malignancy in melanocytic lesions