Relationship of p53 Gene Alterations with Tumor Progression and Recurrence in Olfactory Neuroblastoma

Abstract

Olfactory neuroblastoma (ONB) is a rare neuroectodermal tumor whose clinical course is not effectively predicted by initial stage or grade; p53 tumor suppressor gene alterations have not been determined concerning the ONB pathobiology and recurrence. We analyzed 18 formalin-fixed, paraffin-embedded ONB specimens (12 primary tumors and six recurrences or metastases) from 14 patients for p53 alterations using immunohistochemistry for p53 and WAF1 together with topographic genotyping (selection of minute tissue targets from unstained sections, PCR [polymerase chain reaction] amplification of exons 5-8 followed by direct DNA sequencing). Sequential material representing tumor recurrence or metastasis was available in four cases to compare genetic alterations over time in the same patient. None of the cases showed strong, diffuse p53 immunostaining. Focal weak to moderate intensity staining was evident in nine of 14 cases. Mutations in p53 were not detected in any of the cases, suggesting hyperexpression of p53 wild-type protein. Hyperexpression was further confirmed by correlation of WAF-1 and p53 immunopositivity. Importantly, in four cases with recurrence or metastasis, tumors manifested p53 wild-type hyperexpression. It appears that p53 point mutation does not play an important role in the initial development of ONB; however, p53 wild-type hyperexpression may occur in subsets of ONB likely to show local aggressive behavior and a tendency for recurrence. Wild-type p53 hyperexpression may be an important event in later stages of ONB growth and progression.