Terms: = Prostate cancer AND MYCN, N-myc, 4613, ENSG00000134323, NMYC, MODED, ODED
110 results:
1. Genetic and epigenetic features of neuroendocrine prostate cancer and their emerging applications.
Zhang X; Barnett E; Smith J; Wilkinson E; Subramaniam RM; Zarrabi A; Rodger EJ; Chatterjee A
Int Rev Cell Mol Biol; 2024; 383():41-66. PubMed ID: 38359970
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2. Treatment-related Neuroendocrine prostate Carcinoma-Diagnostic and Molecular Correlates.
Gopalan A
Adv Anat Pathol; 2024 Mar; 31(2):70-79. PubMed ID: 38223983
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3. The ELAVL3/mycn positive feedback loop provides a therapeutic target for neuroendocrine prostate cancer.
Ji Y; Zhang W; Shen K; Su R; Liu X; Ma Z; Liu B; Hu C; Xue Y; Xin Z; Yang Y; Li A; Jiang Z; Jing N; Zhu HH; Dong L; Zhu Y; Dong B; Pan J; Wang Q; Xue W
Nat Commun; 2023 Nov; 14(1):7794. PubMed ID: 38016952
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4. A mycn-independent mechanism mediating secretome reprogramming and metastasis in
Zhang HF; Delaidelli A; Javed S; Turgu B; Morrison T; Hughes CS; Yang X; Pachva M; Lizardo MM; Singh G; Hoffmann J; Huang YZ; Patel K; Shraim R; Kung SHY; Morin GB; Aparicio S; Martinez D; Maris JM; Bosse KR; Williams KC; Sorensen PH
Sci Adv; 2023 Aug; 9(34):eadg6693. PubMed ID: 37611092
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5. Lineage plasticity and treatment resistance in prostate cancer: the intersection of genetics, epigenetics, and evolution.
Imamura J; Ganguly S; Muskara A; Liao RS; Nguyen JK; Weight C; Wee CE; Gupta S; Mian OY
Front Endocrinol (Lausanne); 2023; 14():1191311. PubMed ID: 37455903
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6. Neurokinin-1 receptor drives PKCɑ-AURKA/n-myc signaling to facilitate the neuroendocrine progression of prostate cancer.
Zhang XW; Li JY; Li L; Hu WQ; Tao Y; Gao WY; Ye ZN; Jia HY; Wang JN; Miao XK; Yang WL; Wang R; Mou LY
Cell Death Dis; 2023 Jun; 14(6):384. PubMed ID: 37385990
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7. CHRM4/AKT/mycn upregulates interferon alpha-17 in the tumor microenvironment to promote neuroendocrine differentiation of prostate cancer.
Wen YC; Tram VTN; Chen WH; Li CH; Yeh HL; Thuy Dung PV; Jiang KC; Li HR; Huang J; Hsiao M; Chen WY; Liu YN
Cell Death Dis; 2023 May; 14(5):304. PubMed ID: 37142586
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8. Androgen Receptor Upregulates Mucosa-Associated Lymphoid Tissue 1 to Induce NF-κB Activity via Androgen-Dependent and -Independent Pathways in prostate Carcinoma Cells.
Chang KS; Chen ST; Sung HC; Hsu SY; Lin WY; Hou CP; Lin YH; Feng TH; Tsui KH; Juang HH
Int J Mol Sci; 2023 Mar; 24(7):. PubMed ID: 37047218
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9. Novel Paired Normal prostate and prostate cancer Model Cell Systems Derived from African American Patients.
Jung M; Kowalczyk K; Hankins R; Bandi G; Kallakury B; Carrasquilla MA; Banerjee PP; Grindrod S; Dritschilo A
Cancer Res Commun; 2022 Dec; 2(12):1617-1625. PubMed ID: 36970725
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10. Targeting PKLR/mycn/ROMO1 signaling suppresses neuroendocrine differentiation of castration-resistant prostate cancer.
Chen WY; Thuy Dung PV; Yeh HL; Chen WH; Jiang KC; Li HR; Chen ZQ; Hsiao M; Huang J; Wen YC; Liu YN
Redox Biol; 2023 Jun; 62():102686. PubMed ID: 36963289
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11. WNT1 Inducible Signaling Pathway Protein 1 Is a Stroma-Specific Secreting Protein Inducing a Fibroblast Contraction and Carcinoma Cell Growth in the Human prostate.
Chang KS; Chen ST; Sung HC; Hsu SY; Lin WY; Hou CP; Lin YH; Feng TH; Tsui KH; Juang HH
Int J Mol Sci; 2022 Sep; 23(19):. PubMed ID: 36232736
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12. MiR-96-5p induced NDRG1 deficiency promotes prostate cancer migration and invasion through regulating the NF-κB signaling pathway.
Lian Z; Chang T; Ma S; Li J; Zhang H; Wang X; Liu R
Cancer Biomark; 2022; 35(1):83-98. PubMed ID: 35912726
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13. Dynamic plasticity of prostate cancer intermediate cells during androgen receptor-targeted therapy.
Sandhu HS; Portman KL; Zhou X; Zhao J; Rialdi A; Sfakianos JP; Guccione E; Kyprianou N; Zhang B; Mulholland DJ
Cell Rep; 2022 Jul; 40(4):111123. PubMed ID: 35905714
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14. A Drug Repurposing Screen Identifies Fludarabine Phosphate as a Potential Therapeutic Agent for n-myc Overexpressing Neuroendocrine prostate cancers.
Elhasasna H; Khan R; Bhanumathy KK; Vizeacoumar FS; Walke P; Bautista M; Dahiya DK; Maranda V; Patel H; Balagopal A; Alli N; Krishnan A; Freywald A; Vizeacoumar FJ
Cells; 2022 Jul; 11(14):. PubMed ID: 35883689
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15. Expression and clinicopathological significance of glucocorticoid receptor, SGK1, and NDRG1 in hormone-naïve prostate carcinoma.
Hata S; Shimada H; Sato N; Koshiishi M; Ise K; Ogata T; Yamashita S; Ito A; Sasano H; Nakamura Y
Med Mol Morphol; 2022 Dec; 55(4):283-291. PubMed ID: 35861941
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16. Development of VPC-70619, a Small-Molecule n-myc Inhibitor as a Potential Therapy for Neuroendocrine prostate cancer.
Ton AT; Foo J; Singh K; Lee J; Kalyta A; Morin H; Perez C; Ban F; Leblanc E; Lallous N; Cherkasov A
Int J Mol Sci; 2022 Feb; 23(5):. PubMed ID: 35269731
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17. The metastasis suppressor NDRG1 directly regulates androgen receptor signaling in prostate cancer.
Lim SC; Geleta B; Maleki S; Richardson DR; Kovačević Ž
J Biol Chem; 2021 Dec; 297(6):101414. PubMed ID: 34785213
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18. n-myc promotes angiogenesis and therapeutic resistance of prostate cancer by TEM8.
Li M; Fang L; Kwantwi LB; He G; Luo W; Yang L; Huang Y; Yin S; Cai Y; Ma W; Zhan H; Tong Z; Zhang L; Liang C; Yin Y
Med Oncol; 2021 Sep; 38(10):127. PubMed ID: 34523032
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19. The role of N-cadherin/c-Jun/NDRG1 axis in the progression of prostate cancer.
Quan Y; Zhang X; Butler W; Du Z; Wang M; Liu Y; Ping H
Int J Biol Sci; 2021; 17(13):3288-3304. PubMed ID: 34512147
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20. Temporal evolution of cellular heterogeneity during the progression to advanced AR-negative prostate cancer.
Brady NJ; Bagadion AM; Singh R; Conteduca V; Van Emmenis L; Arceci E; Pakula H; Carelli R; Khani F; Bakht M; Sigouros M; Bareja R; Sboner A; Elemento O; Tagawa S; Nanus DM; Loda M; Beltran H; Robinson B; Rickman DS
Nat Commun; 2021 Jun; 12(1):3372. PubMed ID: 34099734
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