Prognostic significance of p53 overexpression in node-negative breast carcinoma: preliminary studies support cautious optimism.

Abstract

1993, breast cancer will likely be diagnosed in more than 150000 women in the United States. that group, those with axillary lymph node-negative (ANN) disease present one of the greatest dilemmas facing oncologists today. this issue of the Journal, an article by Allred et al. (7) exemplifies an important trend in the search for resolution to this problem—the use of this type of prognostic marker. It also highlights some of the problems encountered in such large and inherently difficult studies. This study is also notable because it is one of the last works from an important leader in this field, Dr. William L. McGuire. late Dr. McGuire, senior author of the investigation of p53 overexpression in ANN patients, has contributed greatly to our understanding of breast cancer biology. his numerous reviews and scientific contributions, the target was often early-stage breast cancer. As he stated, The heart of the matter is: How well do current and proposed prognostic factors separate ANN patients into lowand high-risk groups? Can the results of prognostic factor assays be assembled in an intelligent way to help us to reach the critical decision of whether to use adjuvant therapy or merely observe particular ANN breast cancer patient? (2). Dr. McGuire's research has demonstrated the importance of studying multiple factors on single tumor and multifactorial statistical analysis of large patient database to provide a framework from which important biologic and prognostic factors could be used to make treatment decisions. He was often an advocate for patients in his clinical approach and cautioned physicians, In the final analysis, the decision regarding adjuvant therapy for ANN breast cancer rests with the patient. It is the responsibility of the practicing oncologist to help the patient evaluate her prognostic factors, arrive at an understanding of her particular risk of recurrence, and, within this context, weigh the potential benefits and risks of adjuvant therapy. (2). Prognostic markers that are useful in predicting outcome in breast cancer patients and in identifying those that have higher probability of deriving benefit from adjuvant therapy have been disappointingly rare. study by Allred et al. (/) is commendable investigation of tumor suppressor gene p53 overexpression in tumors from large cohort (700) of ANN patients. Using relatively common methods including immunohistochemistry or flow cytometry, Allred et al. performed multifactorial analyses to determine the prognostic significance of p53 protein expression, tumor size, estrogen and progesterone receptors, age, tumor cell ploidy, percentage of cells in the S phase (%S phase), and Ki-67 labeling index. Overexpression of p53 protein (secondary to protein stabilization most often associated with gene mutation) was the strongest independent predictor of early disease recurrence, followed by large tumor size and high %S phase. Tumor grade, histologic tumor type, and other prognostic markers were not included in the multivariate model. study by Allred et al. (7) confirms the prognostic significance of p53 overexpression in ANN patients reported by two other independent groups of investigators (3,4), who used fewer patients but had longer median follow-up. These findings underscore the need for standardization of p53 overexpression assays, because although the conclusions are generally similar, the methods and tissue samples used were distinctly different. Allred et al. (7) utilized frozen pellets of paniculate cell preparations made from breast cancers. Therefore, histologic examination and quantitation of contaminating benign epithelial, stromal, or inflammatory cellular elements in the study samples could not be performed. p53 assay used cocktail of antibodies, PAbl801 and PAb240, as well as scoring system not previously reported. Direct comparison of these methods with previously published assay techniques was not possible. However, in order to compare the immunohistochemical data with findings of genetic alterations of p53, single-strand conformation polymorphism (SSCP) was performed on subset of tumors. median clinical follow-up was 54 months. Like investigators in many other studies (5,6), Allred et al. (7) found some discordance between immunohistochemical data and the results of molecular genetic (SSCP) analysis of p53. On one hand, this discordance could be explained by lack of sensitivity of the SSCP analysis, commonly reported problem that has been addressed by others (7,8). This discordance may also be secondary to what the authors describe as low tumor cellularity among some samples. A high fraction (50% or more) of contaminating nonmalignant cells can lead to false-negative finding by SSCP analysis. Accumulation (overexpression) of p53 protein may also result from interactions with other proteins known to form complexes with the p53 protein in vivo (9). Furthermore, tumor heterogeneity and sampling error likely contribute to these discrepancies. Our experience in ovarian carcinoma suggests that there is strong association between molecular