Abstract

Although histopathologic criteria for adrenal cortical nodular hyperplasias (ACNHs) and adenomas (ACAs) have been developed, their kinetics and clonality are virtually unknown. We studied 20 ACNHs and 25 ACAs (based on World Health Organization criteria) from 45 females. Representative samples were histologically evaluated, and the methylation pattern of the androgen receptor alleles was analyzed on microdissected samples. Consecutive sections were selected for slide cytometry, flow cytometry, and in situ end labeling (ISEL). Apoptosis was studied by flow cytometry (nuclear area/DNA content plotter analysis) and by ISEL. Appropriate tissue controls were run in every case. Polyclonal gel patterns were revealed in 14/18 informative ACNHs and in 3/22 informative ACAs, whereas monoclonal gel patterns were observed in 4/18 ACNHs and 19/22 ACAs. Overlapping proliferation rates (PRs) were observed in both clonal groups, and apoptosis was detected only in G(0)/G(1) cells, especially in monoclonal ACNHs (3/4; 75%) and in polyclonal ACAs (2/3; 67%). Significantly higher PRs were observed in ACNHs with polyclonal patterns and G(0)/G(1) apoptosis and in ACAs regardless of clonality pattern and presence of G(0)/G(1) apoptosis. All except one ACNH (19/20; 95%) and 15/25 ACAs (60%) showed diploid DNA content, whereas the remaining cases were hyperdiploid. A direct correlation between PR and ISEL was observed in polyclonal lesions (PR = 29.32 ISEL - 1.93), whereas the correlation was inverse for monoclonal lesions (PR = -9.13 ISEL + 21.57). We concluded that only simultaneous down-regulated apoptosis and high proliferation result in selective kinetic advantage, dominant clone expansion, and unbalanced methylation patterns of androgen receptor alleles in ACNHs and ACAs.

Highlights

  • Histopathologic criteria for adrenal cortical nodular hyperplasias (ACNHs) and adenomas (ACAs) have been developed, their kinetics and clonality are virtually unknown

  • This study addressed the clonal evaluation of adrenal cortical nodular hyperplasias (ACNHs) and adenomas (ACAs), based on an analysis of methylation patterns of androgen receptor alleles, using microdissected tissue samples

  • This study represents the first report on combined features of clonality and cell kinetics in ACNHs and adrenal cortical adenoma (ACA)

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Summary

Introduction

Histopathologic criteria for adrenal cortical nodular hyperplasias (ACNHs) and adenomas (ACAs) have been developed , their kinetics and clonality are virtually unknown. Clonal origin is still the hallmark of neoplasms and strongly indicates acquired somatic mutations that give survival advantage to a cell population.[8] The acquisition of additional genetic deletions in certain histological areas favors a molecular progression.[2] the molecular events in the transformation pathways are not completely understood and, in many instances, remain essentially unknown Under those circumstances, clonality assays based on the analysis of X-chromosome inac-. This study addressed the clonal evaluation of adrenal cortical nodular hyperplasias (ACNHs) and adenomas (ACAs), based on an analysis of methylation patterns of androgen receptor alleles, using microdissected tissue samples. The kinetic features of these lesions were analyzed by means of proliferation and apoptotic markers

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