This project's objective is to use a genetic approach to identify components of the glucocorticoid response mechanism. The strategy will be to introduce a gene construct into AtT-20 cells that results in cells that are growth-arrested in the presence of the neomycin analog, G418, and glucocorticoids. Preliminary studies have used AtT-20/D1.IDG8 cells which contain the neomycin resistance gene (neor) under negative glucocorticoid regulation. These cells grow in the presence of G418 or dexamethasone alone but are growth-arrested in the presence of dexamethasone + G418. The cells were treated with a chemical mutagen and glucocorticoid-resistant clones identified as large colonies on soft agar containing dexamethasone + G418. Fourteen clones were studied. In all clones tested, negative regulation of neor mRNA by dexamethasone was abolished. In ten of fourteen clones, regulation of an endogenous gene, pro-opiomelanocortin (POMC) was retained indicating that the mutation was local to the neor promoter, a cis-mutation. In the other four clones, regulation of POMC and of a reporter gene, prolactin-CAT, was lost indicating that the mutation was of a common, global factor, a trans-mutation. One of four lacked receptor mRNA indicating that it was a receptor-minus, trans-mutation. The other three contained receptor mRNA of normal size and abundance indicating that they might be normal-receptor, trans-mutations. They will be analyzed further by co-introduction of a receptor expression vector and a reporter gene. If the deficient regulation is not corrected by expression of normal receptor, their normal-receptor, trans-mutation status will be confirmed. These studies indicate that genetic selection of informative mutations can be accomplished by this approach. Phase one of the project will be establishment of a cell line stably-transfected with the neomycin resistance gene under control of the POMC promoter (the """"""""POMNEO"""""""" gene). In phase two, mutant clones will be produced, isolated and sorted into receptor defects, other trans defects and cis defects. Phase three will characterize the cis- and trans-mutants. The POMNEO promoter of cis- mutants will be sequenced to identify altered nucleotide sequences. Since a trans-mutation could result in a change of a DNA binding protein other than the receptor, or alteration in a protein-protein interaction necessary for receptor function, trans-mutant cells will be tested to determine if the pattern of protein binding to the POMNEO promotor has been altered. Successful completion of this project will: identify cell processes important to receptor function; and, identify and characterize cis elements of the glucocorticoid response mechanism that recognize trans-factors other than the receptor.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA042091-05
Application #
3182914
Study Section
Endocrinology Study Section (END)
Project Start
1985-08-01
Project End
1993-03-31
Budget Start
1992-04-01
Budget End
1993-03-31
Support Year
5
Fiscal Year
1992
Total Cost
Indirect Cost
Name
University of Arkansas for Medical Sciences
Department
Type
Schools of Medicine
DUNS #
City
Little Rock
State
AR
Country
United States
Zip Code
72205
Harrison, R W; Miller, J C; D'Souza, M J et al. (1997) Easy gene walking. Biotechniques 22:650-3
Harrison, R W; Miller, J C (1996) Functional identification of genes up- and down-regulated by glucocorticoids in AtT-20 pituitary cells using an enhancer trap. Endocrinology 137:2758-65
Harrison 3rd, R W; Lippman, S S; VerHoeven, R (1995) Selection of glucocorticoid-resistant mutations from an AtT-20 cell line containing a glucocorticoid-regulated selectable transgene. Biochem Biophys Res Commun 209:18-24
Hendry 3rd, W J; Hakkak, R; Harrison 3rd, R W (1993) An analysis of autologous glucocorticoid receptor protein regulation in AtT-20 cells also reveals differential specificity of the BuGR2 monoclonal antibody. Biochim Biophys Acta 1178:176-88
Hendry 3rd, W J; Hakkak, R; Cornett, L E (1992) Selective loss of glucocorticoid-dependent responses in a variant of the DDT1MF-2 tumor cell line. Cancer Res 52:2516-22
van der Weijden Benjamin, W S; Hendry 3rd, W J; Harrison 3rd, R W (1990) The mouse glucocorticoid receptor DNA-binding domain is not phosphorylated in vivo. Biochem Biophys Res Commun 166:931-6
Harrison 3rd, R W; Lippman, S S; Hendry 3rd, W J et al. (1990) Isolation of a genomic sublibrary enriched for glucocorticoid-regulated genes. DNA Cell Biol 9:95-102
Hendry 3rd, W J; Danzo, B J; Harrison 3rd, R W (1987) Analysis of the disruptive action of an epididymal protease and the stabilizing influence of molybdate on nondenatured and denatured glucocorticoid receptor. Endocrinology 120:629-39