Abstract
NKX3.1 is a homeobox transcription factor whose function as a prostate tumor suppressor remains insufficiently understood because neither the transcriptional program governed by NKX3.1, nor its interacting proteins have been fully revealed. Using affinity purification and mass spectrometry, we have established an extensive NKX3.1 interactome which contains the DNA repair proteins Ku70, Ku80, and PARP, thus providing a molecular underpinning to previous reports implicating NKX3.1 in DNA repair. Transcriptomic profiling of NKX3.1-negative prostate epithelial cells acutely expressing NKX3.1 revealed a rapid and complex response that is a near mirror image of the gene expression signature of human prostatic intraepithelial neoplasia (PIN). Pathway and network analyses suggested that NKX3.1 actuates a cellular reprogramming toward luminal cell differentiation characterized by suppression of pro-oncogenic c-MYC and interferon-STAT signaling and activation of tumor suppressor pathways. Consistently, ectopic expression of NKX3.1 conferred a growth arrest depending on TNFα and JNK signaling. We propose that the tumor suppressor function of NKX3.1 entails a transcriptional program that maintains the differentiation state of secretory luminal cells and that disruption of NKX3.1 contributes to prostate tumorigenesis by permitting luminal cell de-differentiation potentially augmented by defects in DNA repair.
Highlights
NKX3.1 encodes a homeodomain transcription factor whose expression is largely restricted to the prostate and controlled by androgen
These analyses strongly suggest that the principal gene regulatory networks that are affected by NKX3.1 expression in LH cells are inversely perturbed in early human prostate cancer marked by loss of this tumor suppressor
The NKX3.1 interactome revealed a complex pattern of interactions with DNA repair proteins and with other transcriptional regulators such as ILF2 and BANF1 that predict a complex transcriptional program enacted by
Summary
NKX3.1 encodes a homeodomain transcription factor whose expression is largely restricted to the prostate and controlled by androgen. Studies in Nkx3.1 knockout mice have provided compelling evidence that. Nkx3.1 is a prostate tumor suppressor[3,4,5]. These mice develop prostatic intraepithelial neoplasia (PIN), a precancerous lesion characterized by hyperproliferation of dysplastic cells, indicating that. Nkx3.1 is haploinsufficient for PIN suppression[6]. Additional studies showed that serial passage of PIN-like lesions from Nkx3.1 mutant mice can undergo progressively severe histopathological alterations[5]. Loss of Nkx3.1 can cooperate with loss of Pten and p27 in prostate cancer development in mice[7,8], while Nkx3.1 overexpression inhibits cell proliferation in Pten null epithelial grafts[9]
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