Comprehensive mapping of post-translational modifications of progesterone receptor (PR) and functional analysis of novel methylation and acetylation of PR.
There is increasing evidence that progesterone is involved in breast cancer progression. The progesterone receptor (PR) is a member of the nuclear receptor superfamily. Its activity is regulated at multiple levels of the receptor activation pathway including receptor maturation, ligand-bind...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2013
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| Online Access: | http://hdl.handle.net/10356/54720 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | There is increasing evidence that progesterone is involved in breast cancer
progression. The progesterone receptor (PR) is a member of the nuclear receptor
superfamily. Its activity is regulated at multiple levels of the receptor activation
pathway including receptor maturation, ligand-binding, co-regulator recruitment and
interaction with gene promoters. Post-translational modifications (PTMs) can regulate
each of the steps through alteration of local properties of the protein. To gain in-depth
understanding of the mechanisms that regulate PR activity, this study conducted a
comprehensive mapping of PR PTMs using the highly sensitive liquid
chromatography tandem Mass Spectrometry (LC-MS/MS) and identified 4 novel
phosphorylation sites and 8 novel 'methylation and 1 acetylation sites on PR. The MS
study was further extended to the next 2 parts of this project which focused on
validating K464 methylation and K183 acetylation and determining the biological
relevance of the modifications in regulating activity of PR.
The autonomous transcriptional activation function 1, AF-1, of PR is
responsible for its ligand-independent activation and synergize with AF-2 (activation
function 2) to mediate maximal ligand-induced PR activity. One of the novel
methylation sites is located at K464 of AF-l. Mutational analysis revealed that K464
and its methylation play a key role in suppressing ligand-independent PR
phosphorylation and AF-l activation. A single mutation K464Q or K464A exhibited
ligand-independent PR gel upshift that is akin to the ligand-induced PR gel upshift on
SDS-PAGE because of phosphorylation. Both K464Q and K464A mutants displayed
heightened ligand-independent and ligand-dependent activity that is due to increased
activity of AF-l. The study also suggests that the heightened ligand-induced activity of
PRB-K464Q is mediated through increased functional interaction with transcription co-regulators NCoR-l(Nuclear receptor corepressor 1) and SRC-l (Steroid receptor
coactivator 1). Contrastingly, a mutation of K464 to the bulkier arginine or
phenylalanine, mimicking methylation effects, had no effect or inhibited PR activity
which suggests K464 methylation inhibits PR activity. In conclusion, this study
demonstrated that K464 is a key element that represses ligand-independent and ligandinduced
activation of AF -1.
K183 is identified as a novel acetylation site of PR by LC/MS/MS.
Mutagenesis studies verified that K183 is the primary site of acetylation. Overexpression
and gene silencing approaches confirmed that the acetyltransferase p300
was the primary enzyme for K183 acetylation. In contrast to the repressive effect of
methylation described earlier, the consequence of K183 acetylation was to promote PR
phosphorylation and enhance PR activity). More interestingly, the effect of K183
acetylation seemed to be exerted specifically on' selective promoters. In summary, the
results presented herein indicate that acetylation serves as a finely tuned regulatory
mechanism to control activation magnitude and promoter selectivity of PR. |
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