Abstract
Backgroundp53 is a tumor suppressor that is frequently mutated in human cancers. Although alterations in p53 are common in breast cancer, few studies have specifically investigated TP53 mutations in the breast cancer subtype invasive lobular carcinoma (ILC). Recently reported conditional mouse models have indicated that functional p53 inactivation may play a role in ILC development and progression. Since reports on the detection of TP53 mutations in the relatively favorable classic and more aggressive pleomorphic variants of ILC (PILC) are rare and ambiguous, we performed a comprehensive analysis to determine the mutation status of TP53 in these breast cancer subtypes.MethodsTo increase our understanding of p53-mediated pathways and the roles they may play in the etiology of classic ILC and PILC, we investigated TP53 mutations and p53 accumulation in a cohort of 22 cases of classic and 19 cases of PILC by direct DNA sequencing and immunohistochemistry.ResultsWe observed 11 potentially pathogenic TP53 mutations, of which three were detected in classic ILC (13.6%) and 8 in PILC (42.1%; p = 0.04). While p53 protein accumulation was not significantly different between classic and pleomorphic ILC, mutations that affected structure and protein function were significantly associated with p53 protein levels.Conclusion TP53 mutations occur more frequently in PILC than classic ILC.
Highlights
The tumor suppressor p53 was first described in 1979 as a key cell cycle regulator
We have not observed a significant increase in HER2 expression in pleomorphic variants of ILC (PILC) when comparing with classical Invasive lobular cancer (ILC) in our samples
Even though the morphology of PILC with high nuclear atypia is distinctive, its feature of high frequency of multicentrity and bilaterality seem to be similar to the classic ILC [21]
Summary
The tumor suppressor p53 was first described in 1979 as a key cell cycle regulator. The p53 signaling pathway turns on the expression of genes including inhibitors of cell cycle, DNA repair, and apoptosis [1, 2]. Inactivating alterations in the p53 gene are commonly observed in human cancers, resulting in suppression of the regulatory functions of p53 which contributes to transformation of cells. Mutations in p53 are observed in breast cancer, with a lower frequency (~ 20%) compared to other solid tumors [2]. Invasive lobular cancer (ILC) accounts for approximately 15% of breast cancers [5]. Based on their molecular profile, most ILC belong to the luminal–type breast cancers.
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