Recombinant Mouse Homeobox protein Nkx-3.1 (Nkx3-1)

1. Prostate cancer patients with low NKX3.1 expression are optimal candidates for intervention with 5alpha-reductase inhibitors as an adjunct to active surveillance. PMID: 28385453
2. During prostate cancer initiation, Nkx3.1 expression is frequently lost in both humans and mouse models. Data, including data from studies using cells from transgenic mice, suggest that androgens activate Nkx3.1 transcription via androgen receptor binding to 11-kb region in both normal luminal cells and castration-resistant prostatic neoplasm cells via androgen response elements in Nkx3.1 3prime untranslated region. PMID: 28679531
3. study demonstrated that expression of homeobox protein NK-3 homolog A(Nkx3.1) influenced both the timing and magnitude of the DNA damage response in the mouse prostate PMID: 26660523
4. Nkx3.1 loss and Tmprss2-ERG upregulation do not cooperate to enhance prostate tumorigenesis in vivo. PMID: 25780911
5. Id4 regulates NKX3.1, Sox9 and PTEN. PMID: 23786676
6. activated canonical Wnt signals and Nkx3.1 function in a positive feedback loop to regulate prostate bud growth and luminal epithelial differentiation. PMID: 23813564
7. multiple NKX3.1 binding sites were found in the RAMP1 locus in human prostate cancer cells and in the normal mouse prostate. PMID: 23867798
8. Deletions of Klf5 and Nkx3-1 do not have a additive effect in prostatic carcinogenesis in mouse model. PMID: 23790631
9. Transcriptional activation of prostate specific homeobox gene NKX3-1 in subsets of T-cell lymphoblastic leukemia (T-ALL). PMID: 22848398
10. Androgen-dependent transcription of the mouse Nkx3.1 gene is conferred through a noncanonical element within the intron of the gene. PMID: 21526719
11. Nkx3.1 has a role in bacterial prostatitis and its progression to inflammation and neoplasia PMID: 20363913
12. Data show in Pten and Nkx3.1 mutant mice, cells with increased levels of SOX9 appeared within prostate epithelia at early stages of neoplasia, and higher expression correlated with progression at all stages of disease. PMID: 20103652
13. loss of function of Nkx3.1 and Pten cooperate in prostate carcinogeneis in mice. PMID: 11854455
14. Nkx3.1 mutant mice recapitulate early stages of prostate carcinogenesis. PMID: 12036903
15. Nkx3.1 contributes to the formation of the axial skeleton PMID: 12204261
16. Nkx3.1(+/-); Pten(+/-) mice recapitulate key features of advanced prostate cancer and represent a useful model for investigating associated molecular mechanisms and for evaluating therapeutic approaches. PMID: 12873978
17. Nkx3.1 homeobox gene has roles in prostate organogenesis and carcinogenesis (review) PMID: 14648854
18. Nkx3.1 and p27kip1 regulate prostatic epithelial cell proliferation and tumor initiation by affecting both haploinsufficient and nonhaploinsufficient pathways PMID: 15111307
19. Findings provide a molecular link between a gene whose inactivation is known to be involved in prostate carcinogenesis, namely Nkx3.1, and oxidative damage of the prostatic epithelium. PMID: 16061659
20. Nkx3.1 negatively regulates Sp-mediated transcription via the tethering of histone deacetylases and/or by inhibiting the association of Sp proteins with co-activators. PMID: 16201967
21. Distinct regulatory elements mediate the dynamic expression pattern of Nkx3.1. PMID: 16245334
22. NKX3-1 ia regulated by protein kinase CK2 in prostate tumor cells. PMID: 16581776
23. PTEN loss causes reduced NKX3.1 expression in both murine and human prostate cancers. PMID: 16697957
24. Nkx3.1mutant mice develop prostatic intraepithelial neoplasia and adenocarcinoma as a consequence of aging, as well as following castration. PMID: 16912166
25. By manipulating serum levels of testosterone for an extended period, it was found that prolonged exposure of Nkx3.1; Pten mutant mice to androgen levels that are 10-fold lower than normal resulted in a marked acceleration of prostate tumorigenesis. PMID: 17909013
26. NKX3.1 can be ubiquitinated by TOPORS in vitro and in vivo, and overexpression of TOPORS leads to NKX3.1 proteasomal degradation in prostate cancer cells PMID: 18077445
27. Fem1b may have a conserved role in the generation of sexual dimorphism through its interaction with Nkx3.1 in the developing prostate gland PMID: 18816836
28. Molecular consequences of NKX3.1 loss depend on the epithelial proliferative stage at which its expression is lost, and that alterations in the PTEN-AKT-NKX3.1 axis are important for prostate cancer initiation. PMID: 19597465
29. MYOCD can discriminate among several juxtaposed CArG elements, presumably through its novel partnership with NKX3.1, to optimally transactivate the human ACTG2 promoter PMID: 19797053

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KEGG: mmu:18095

STRING: 10090.ENSMUSP00000022646

UniGene: Mm.3520