Isolation and characterization of a novel pituitary tumor apoptosis gene

Bahar, Adil; Simpson, David J.; Cutty, Steve J.; Bicknell, John E.; Hoban, Paul R.; Holley, Sarah; Mourtada-Maarabouni, Mirna; Williams, Gwyn T.; Clayton, Richard N.; Farrell, William E.

doi:10.1210/me.2004-0087

Isolation and characterization of a novel pituitary tumor apoptosis gene

Bahar, Adil; Simpson, David J.; Cutty, Steve J.; Bicknell, John E.; Hoban, Paul R.; Holley, Sarah; Mourtada-Maarabouni, Mirna; Williams, Gwyn T.; Clayton, Richard N.; Farrell, William E.

Authors

Adil Bahar

David J. Simpson

Steve J. Cutty

John E. Bicknell

Paul R. Hoban

Sarah Holley

DR Mirna Maarabouni m.m.maarabouni@keele.ac.uk

Gwyn T. Williams

Richard N. Clayton

William E. Farrell

Contributors

A. Bahar
Other

D.J. Simpson
Other

S.J. Cutty
Other

J.E. Bicknell
Other

P.R. Hoban
Other

S. Holley
Other

M. Mourtada-Maarabouni
Other

G.T. Williams
Other

R.N. Clayton
Other

W.E. Farrell
Other

Abstract

To determine mechanisms for pituitary neoplasia we used methylation-sensitive arbitrarily primed-PCR to isolate novel genes that are differentially methylated relative to normal pituitary. We report the isolation of a novel differentially methylated chromosome 22 CpG island-associated gene (C22orf3). Sodium bisulfite sequencing of pooled tumor cohorts, used in the isolation of this gene, showed that only a proportion of the adenomas within the pools were methylated; however, expression analysis by quantitative RT-PCR of individual adenoma irrespective of subtype showed the majority (30 of 38; 79%) failed to express this gene relative to normal pituitary. Sodium bisulfite sequencing of individual adenomas showed that 6 of 30 (20%) that failed to express pituitary tumor apoptosis gene (PTAG) were methylated; however, genetic change as determined by loss of heterozygosity and sequence analysis was not apparent in the remaining tumors that failed to express this gene. In those cases where the CpG island of these genes was methylated it was invariably associated with loss of transcript expression. Enforced expression of C22orf3 in AtT20 cells had no measurable effects on cell proliferation or viability; however, in response to bromocriptine challenge (10–40 μM) cells expressing this gene showed a significantly augmented apoptotic response as determined by both acridine orange staining and TUNEL labeling. The apoptotic response to bromocriptine challenge was inhibited in coincubation experiments with the general caspase inhibitor z-VAD-fmk. In addition, in time course experiments, direct measurement of active caspases by fluorochrome-labeled inhibition of caspases, showed an augmented increase (∼2.4 fold) in active caspases in response to bromocriptine challenge in cells expressing C22orf3 relative to those harboring an empty vector control. The pituitary tumor derivation and its role in apoptosis of this gene led us to assign the acronym PTAG to this gene and its protein product. The ability of cells, showing reduced expression of PTAG, to evade or show a blunted apoptotic response may underlie oncogenic transformation in both the pituitary and other tumor types.

Citation

Bahar, A., Simpson, D. J., Cutty, S. J., Bicknell, J. E., Hoban, P. R., Holley, S., …Farrell, W. E. (2004). Isolation and characterization of a novel pituitary tumor apoptosis gene. Molecular Endocrinology, 18(7), https://doi.org/10.1210/me.2004-0087

Journal Article Type	Article
Acceptance Date	Apr 16, 2004
Online Publication Date	Jul 1, 2004
Publication Date	Jul 1, 2004
Deposit Date	May 16, 2024
Journal	Molecular Endocrinology
Print ISSN	0888-8809
Publisher	Oxford University Press
Peer Reviewed	Peer Reviewed
Volume	18
Issue	7
ISBN	08888809
DOI	https://doi.org/10.1210/me.2004-0087
Public URL	https://keele-repository.worktribe.com/output/543789
Publisher URL	https://academic.oup.com/mend/article/18/7/1827/2747663