Katherine Ory scite author profile

In an effort to correlate the biological activity of the p53 protein with its conformation, we analysed 14 p53 mutants representative of the most frequently observed protein alterations in human cancers, at codons 175, 248 and 273 (22% of all mutations thus far reported), all three of which contained a CpG dinucleotide. Strikingly, most of the mutants at codons 248 and 273 did not display any change in their conformation, as probed by monoclonal antibodies PAb240 and PAb1620 or by binding to hsp70 protein. For all 14 mutants tested, we found a strict correlation between the transactivation properties of p53, tested either on RGC sequences or using the WAF‐1 promoter, and inhibition of cell proliferation. All these mutants showed nuclear localization. Several mutants, present at a low incidence in human tumours, displayed wild‐type activity in all our assays, suggesting that the presence of a mutation is not strictly correlated with p53 protein inactivation in tumours. Further analysis of nine thus far undescribed p53 mutants at codon 175 revealed a wild‐type or mutant behaviour. All these results suggest that the occurrence of a mutation is dependent on two criteria: (i) the mutability of a given codon, such as those containing a CpG dinucleotide; (ii) the resulting amino acids, eventually leading to synthesis of a p53 conferring a growth advantage on the cell.

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Gene Expression Profiling of Differentiated Thyroid Neoplasms

Chevillard¹,

Ugolin²,

Vielh

et al. 2004

120

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Purpose: The purpose of this research was to identify novel genes that can be targeted as diagnostic and clinical markers of differentiated thyroid tumors.Experimental Design: Gene expression analysis using microarray platform was performed on 6 pathologically normal thyroid samples and 12 primary follicular and papillary thyroid neoplasms. Microarrays containing probes for 5,760 human full-length cDNAs were used for hybridization with total RNA from normal and tumor thyroid samples labeled with Cy3-dUTP and Cy5-dUTP, respectively. Scanned array images were recorded, and data analysis was performed. Selected sets of differentially expressed genes were analyzed using quantitative real-time reverse transcription-PCR for verification.Results: We identified 155 genes that differentiate histologically normal thyroid tissues from benign and malignant thyroid neoplasms. Of these 75 genes were differentiated between follicular neoplasms (adenoma and carcinoma) and the follicular variant of papillary carcinoma. Purely follicular neoplasms (adenomas and carcinomas) shared many genetic profiles, and only 43 genes were distinctly different between these tumors. Hierarchical cluster analysis also differentiated conventional papillary carcinoma from its follicular variant and follicular tumors. The differentially expressed genes were composed of members of cell differentiation, adhesion, immune response, and proliferation associated pathways. Quantitative real-time reverse transcription-PCR analysis of selected genes corroborated the microarray expression results.Conclusions: Our study show the following: (1) differences in gene expression between tumor and nontumor bearing normal thyroid tissue can be identified, (2) a set of genes differentiate follicular neoplasm from follicular variant of papillary carcinoma, (3) follicular adenoma and carcinoma share many of the differentiated genes, and (4) gene expression differences identify conventional papillary carcinoma from the follicular variant.

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Multifactorial analysis of p53 alteration in human cancer: A review

Soussi

Legros

Lubin

et al. 1994

Intl Journal of Cancer

293

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Apoptosis inhibition mediated by medroxyprogesterone acetate treatment of breast cancer cell lines

Ory

Lebeau

Levalois

et al. 2001

Breast Cancer Res Treat

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Several reports suggested that steroidogenic hormones could be directly involved in the regulation of apoptosis in vitro, but whether this is due to blocking or promoting mechanism of these hormones remains controversial. However, it was shown that progesterone exhibited a protective effect against the apoptotic process during mouse mammary gland involution in vivo. In this study, we analyzed the effect of medroxyprogesterone acetate (MPA) treatment, an agonist of progesterone, on serum starvation induced apoptosis on breast cancer cell lines. Positive and negative progesterone receptor (PgR+ and PgR-) breast cancer cell lines were treated with MPA (10 nM), either in standard culture conditions or in serum-free medium to induce apoptosis. Cell survival, proliferation and apoptosis were simultaneously analyzed with the expression of apoptosis-related genes measured by a real time quantitative RT-PCR. At non cytotoxic doses, MPA protected PgR+ T47-D, MCF-7 and H466-B cell lines against serum depletion-induced apoptosis, while MPA did not protect PgR-MDA-MB-231 cells against serum depletion induced apoptosis. In PgR+ cell lines and in concordance with the protective effect, the pro-apoptotic HRK and BAK1 mRNAs were up-regulated after apoptosis induction, while they were no more induced in condition of protection against apoptosis after MPA treatment. We also observed, specifically in PgR+ cells, an up-regulation of BCLX-L and BCLX-S and a down-regulation of BCL2 mRNAs, which are specific to the MPA response and unrelated to apoptotic process. Involvement of these genes with regard to the MPA-mediated protection against apoptosis is discussed.

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Katherine Ory

Analysis of the most representative tumour-derived p53 mutants reveals that changes in protein conformation are not correlated with loss of transactivation or inhibition of cell proliferation.

Gene Expression Profiling of Differentiated Thyroid Neoplasms

Multifactorial analysis of p53 alteration in human cancer: A review

Apoptosis inhibition mediated by medroxyprogesterone acetate treatment of breast cancer cell lines

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