Back

Cell-Autonomous AR Dependence in Luminal Prostatic Epithelium Governs Survival and Lineage Plasticity

Chen, Y.; Li, D.; Wang, N.; Guo, W.; Owiredu, J.; Cho, W. H.; Schoeps, D.; Cheng, S.; Zhang, H.; Chan, U. I.; Wong, C. K.; Callychurn, V. R.; Wang, H.; Kang, W.; Fan, N.; Pasolli, H. A.; Sharma, A.; Gopalan, A.; Barbieri, C. E.; Gao, D.; Chi, P.

2026-02-16 cell biology
10.64898/2026.02.13.705807 bioRxiv
Show abstract

Prostate cancer resembles differentiated secretory luminal cells and shows cell-autonomous dependence on androgen receptor (AR) signaling, yet normal luminal cells are often considered dependent on paracrine stromal AR signaling. To resolve this, we conditionally deleted Ar in luminal acinar cells in vivo. Ar-deleted luminal cells persisted short-term, in contrast to the rapid regression observed after castration, but were impaired in regeneration and progressively lost. Their depletion was accompanied by replacement through basal-to-luminal differentiation of AR intact basal cells. Transcriptomic and chromatin profiling showed cell-autonomous suppression of the secretory program with induction of stemness, inflammatory, and epithelial-to-mesenchymal transition signatures after AR loss. Mechanistically, the MAP kinase pathway and downstream AP-1 transcription factors were activated and functionally validated, and MAP kinase inhibition selectively depleted AR-deleted luminal cells, indicating a compensatory survival pathway. These findings define intrinsic roles for luminal AR in maintaining differentiation, restraining plasticity, and sustaining regeneration and homeostatic turnover, providing a mechanistic basis for AR dependence in prostate cancer.

Matching journals

The top 5 journals account for 50% of the predicted probability mass.

1
Nature Communications
4913 papers in training set
Top 3%
22.4%
2
Cell Reports
1338 papers in training set
Top 3%
10.1%
3
JCI Insight
241 papers in training set
Top 0.6%
6.3%
4
Developmental Cell
168 papers in training set
Top 3%
6.3%
5
eLife
5422 papers in training set
Top 14%
6.3%
50% of probability mass above
6
Science Advances
1098 papers in training set
Top 2%
4.8%
7
Proceedings of the National Academy of Sciences
2130 papers in training set
Top 16%
4.3%
8
Molecular Cell
308 papers in training set
Top 5%
3.2%
9
Nature Structural & Molecular Biology
218 papers in training set
Top 2%
2.1%
10
Cancer Discovery
61 papers in training set
Top 0.9%
2.1%
11
Journal of Clinical Investigation
164 papers in training set
Top 2%
1.9%
12
Nature Cell Biology
99 papers in training set
Top 3%
1.7%
13
Clinical Cancer Research
58 papers in training set
Top 1%
1.5%
14
Cell
370 papers in training set
Top 12%
1.5%
15
The Prostate
11 papers in training set
Top 0.1%
1.3%
16
Journal of Cell Biology
333 papers in training set
Top 3%
1.3%
17
PLOS Biology
408 papers in training set
Top 12%
1.3%
18
Current Biology
596 papers in training set
Top 11%
1.2%
19
EMBO reports
136 papers in training set
Top 4%
1.2%
20
Gastroenterology
40 papers in training set
Top 1%
1.1%
21
Immunity
58 papers in training set
Top 3%
1.1%
22
Cell Stem Cell
57 papers in training set
Top 2%
0.9%
23
Nature Metabolism
56 papers in training set
Top 2%
0.9%
24
Nucleic Acids Research
1128 papers in training set
Top 15%
0.9%
25
Cancer Research
116 papers in training set
Top 3%
0.9%
26
Advanced Science
249 papers in training set
Top 19%
0.7%
27
Nature Aging
51 papers in training set
Top 2%
0.7%
28
iScience
1063 papers in training set
Top 35%
0.7%
29
The EMBO Journal
267 papers in training set
Top 6%
0.7%
30
Molecular Metabolism
105 papers in training set
Top 2%
0.6%