Allelic deletion in pituitary adenomas reflects aggressive biological activity and has potential value as a prognostic marker

AS Bates, WE Farrell, EJ Bicknell… - The Journal of …, 1997 - academic.oup.com
AS Bates, WE Farrell, EJ Bicknell, AM McNicol, AJ Talbot, JC Broome, CW Perrett…
The Journal of Clinical Endocrinology & Metabolism, 1997academic.oup.com
Tumors of the pituitary gland are usually benign adenomas and account for 10% of all
intracranial neoplasms. Five pituitary tumors have previously been reported to harbor
multiple allelic deletions. Of these, three displayed particularly aggressive biological
behavior, whereas there were no clinical details provided for the others. This study was
designed to test the hypothesis that genetic deletions are a marker of invasive behavior and
to identify the loci most commonly involved. Accordingly, we studied two cohorts of pituitary …
Abstract
Tumors of the pituitary gland are usually benign adenomas and account for 10% of all intracranial neoplasms. Five pituitary tumors have previously been reported to harbor multiple allelic deletions. Of these, three displayed particularly aggressive biological behavior, whereas there were no clinical details provided for the others. This study was designed to test the hypothesis that genetic deletions are a marker of invasive behavior and to identify the loci most commonly involved. Accordingly, we studied two cohorts of pituitary tumors, classified radiologically as invasive or noninvasive, for loss of heterozygosity (LOH).
There is a significantly higher frequency of LOH in invasive tumors (10.8% of all loci examined) compared to noninvasive tumors (2.4%; P < 0.001). Of the 11 loci investigated, 75% of the allelic deletions identified in invasive tumors were found at 4 loci: 11q13, 13q12–14, 10q, and 1p. Twenty of 47 invasive tumors had evidence of at least 1 allelic deletion, whereas 14 of 20 had more than 1. Of the 6 tumors with only 1 deletion, 5 involved the 11q13 locus, suggesting that this is an early change in the transition from noninvasive to invasive adenoma. Comparison of invasive and noninvasive tumors demonstrates a significantly higher frequency of deletions affecting 11q13 (P < 0.001), 13q12–14 (P < 0.05), and 10q26 (P < 0.05) in invasive tumors. In addition, allelic deletion correlates with increasingly invasive behavior (modified Hardy classification), as 73% of grade 4 tumors compared to 33% of grade 3 and 9.5% of grade 1 and 2 tumors demonstrated LOH at any locus. Furthermore, in some tumors we identified a breakpoint between markers intragenic and extragenic to the retinoblastoma gene (Rb1) on chromosome 13q, suggesting that tumor suppressor genes other than or in addition to Rb1 may be involved in pituitary tumorigenesis. This was further supported by the presence of Rb protein in two of four tumors where the genetic loss extended to include the intragenic marker D13S153.
Early identification of tumors with likely invasive potential by means of genetic analysis (LOH) may provide useful information on potential tumor behavior and aid tumor management in a manner that is not possible using routine histological methods. A large prospective study is required in patients without radiological evidence of invasion to assess the value of LOH in predicting outcome and for planning treatment.
Oxford University Press