Terms: = Prostate cancer AND EGFR, mENA, 1956, ENSG00000146648, P00533, ERBB1, ERBB AND Prognosis
93 results:
1. Prognostic microRNAs as biomarkers for prostate cancer.
Palanisamy H; Manoharan JP; Vidyalakshmi S
J Cancer Res Ther; 2024 Jan; 20(1):297-303. PubMed ID: 38554337
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2. Network pharmacology and experimental evaluation strategies to decipher the underlying pharmacological mechanism of Traditional Chinese Medicine CFF-1 against prostate cancer.
Wei Y; Zhu M; Chen Y; Ji Q; Wang J; Shen L; Yang X; Hu H; Zhou X; Zhu Q
Aging (Albany NY); 2024 Mar; 16(6):5387-5411. PubMed ID: 38484140
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3. Delivery of gefitinib loaded nanoparticles for effectively inhibiting prostate cancer progression.
Xiong Z; Tong T; Xie Z; Yu S; Zhuang R; Jia Q; Peng S; Li B; Xie J; Li K; Wu J; Huang H
Biomater Sci; 2024 Jan; 12(3):650-659. PubMed ID: 38168678
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4. Metastatic Lymph Node 64 (MLN64) Expression in Gastric cancer: The Clinical and Molecular Implications in Drug Resistance.
Li AX; Zeng JJ; Khan E; Dou QP; Zhuang X; Ji EK; Ruge F; Martin TA; Jia S; Jiang WG
Cancer Genomics Proteomics; 2024; 21(1):30-40. PubMed ID: 38151289
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5. CAV1 and KRT5 are potential targets for prostate cancer.
Guo L; Liu Y; Yang T; Wang G; Liu J; Li S; Liu B; Cai J
Medicine (Baltimore); 2023 Dec; 102(49):e36473. PubMed ID: 38065913
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6. Integrated transcriptome and proteome analysis indicates potential biomarkers of prostate cancer in offspring of pregnant rats exposed to a phthalate mixture during gestation and lactation.
Aquino AM; Alonso-Costa LG; Santos SAA; Rocha VA; Barbisan LF; Bedrat A; Justulin LA; Flaws JA; Lemos B; Scarano WR
Chemosphere; 2023 Nov; 341():140020. PubMed ID: 37690569
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7. Risk Assessment of Kidney Disease Progression and Efficacy of SGLT2 Inhibition in Patients With Type 2 Diabetes.
Moura FA; Berg DD; Bellavia A; Dwyer JP; Mosenzon O; Scirica BM; Wiviott SD; Bhatt DL; Raz I; Feinberg MW; Braunwald E; Morrow DA; Sabatine MS
Diabetes Care; 2023 Oct; 46(10):1807-1815. PubMed ID: 37556796
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8. Exportin 1 inhibition prevents neuroendocrine transformation through SOX2 down-regulation in lung and prostate cancers.
Quintanal-Villalonga A; Durani V; Sabet A; Redin E; Kawasaki K; Shafer M; Karthaus WR; Zaidi S; Zhan YA; Manoj P; Sridhar H; Shah NS; Chow A; Bhanot UK; Linkov I; Asher M; Yu HA; Qiu J; de Stanchina E; Patel RA; Morrissey C; Haffner MC; Koche RP; Sawyers CL; Rudin CM
Sci Transl Med; 2023 Aug; 15(707):eadf7006. PubMed ID: 37531417
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9. Identification of Bone Metastatic and Prognostic Alternative Splicing Signatures in prostate Adenocarcinoma.
Zhu J; Zhang J; Hu P; Fan M; Song D; Yin H; Yan P; Xian S; Li Z; Guo J; Long C; Xu R; Huang R; Meng T; Zhang J; Huang Z
Biochem Genet; 2023 Dec; 61(6):2242-2259. PubMed ID: 37010714
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10. Association between rapid renal function deterioration and cancer mortality in the elderly: A retrospective cohort study.
Kuo IC; Chu YC; Chen YH; Chan TC
Cancer Med; 2023 Apr; 12(8):10008-10019. PubMed ID: 36880220
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11. Opposite changes in the expression of clathrin and caveolin-1 in normal and cancerous human prostate tissue: putative clathrin-mediated recycling of egfr.
Xie B; Zuhair H; Henrique R; Millar M; Robson T; Thrasivoulou C; Dickens K; Pendjiky J; Muneer A; Patel H; Ahmed A
Histochem Cell Biol; 2023 Jun; 159(6):489-500. PubMed ID: 36869937
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12. NRP1 promotes prostate cancer progression via modulating egfr-dependent AKT pathway activation.
Zhang P; Chen L; Zhou F; He Z; Wang G; Luo Y
Cell Death Dis; 2023 Feb; 14(2):159. PubMed ID: 36841806
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13. The prognosis of lipid reprogramming with the HMG-CoA reductase inhibitor, rosuvastatin, in castrated Egyptian prostate cancer patients: Randomized trial.
Karkeet RM; Zekri AN; Sayed-Ahmed MM; Sherif GM; Salem SE; Abdelbary A; Fouad MA; Saad SY
PLoS One; 2022; 17(12):e0278282. PubMed ID: 36480560
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14. BDNF and its signaling in cancer.
Malekan M; Nezamabadi SS; Samami E; Mohebalizadeh M; Saghazadeh A; Rezaei N
J Cancer Res Clin Oncol; 2023 Jun; 149(6):2621-2636. PubMed ID: 36173463
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15. Comprehensive Genomic Profiling of Cell-Free DNA in Men With Advanced prostate cancer: Differences in Genomic Landscape Based on Race.
Zimmerman R; Bilen MA; Heath EI; Nandagopal L; Swami U; Kessel A; Jaeger E; Wesolowski S; Hernanadez EJ; Chipman J; Mack A; Ravindranathan D; Maughan BL; Nussenzveig R; Yandell M; Kohli M; Lilly MB; Sartor AO; Agarwal N; Barata PC
Oncologist; 2022 Oct; 27(10):e815-e818. PubMed ID: 36036607
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16. EXTL3 could serve as a potential biomarker of prognosis and immunotherapy for prostate cancer and its potential mechanisms.
Chang P; Chen S; Chang X; Zhu J; Tang Q; Ma L
Eur J Med Res; 2022 Jul; 27(1):115. PubMed ID: 35818069
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17. LINC00963: A potential cancer diagnostic and therapeutic target.
Xie Z; Zhong C; Shen J; Jia Y; Duan S
Biomed Pharmacother; 2022 Jun; 150():113019. PubMed ID: 35462329
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18. Identification of Potential Key Genes in prostate cancer with Gene Expression, Pivotal Pathways and Regulatory Networks Analysis Using Integrated Bioinformatics Methods.
Khan MM; Mohsen MT; Malik MZ; Bagabir SA; Alkhanani MF; Haque S; Serajuddin M; Bharadwaj M
Genes (Basel); 2022 Apr; 13(4):. PubMed ID: 35456461
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19. Neuropilin-1 is over-expressed in claudin-low breast cancer and promotes tumor progression through acquisition of stem cell characteristics and RAS/MAPK pathway activation.
Tang YH; Rockstroh A; Sokolowski KA; Lynam LR; Lehman M; Thompson EW; Gregory PA; Nelson CC; Volpert M; Hollier BG
Breast Cancer Res; 2022 Jan; 24(1):8. PubMed ID: 35078508
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20. STEAP3 promotes cancer cell proliferation by facilitating nuclear trafficking of egfr to enhance RAC1-ERK-STAT3 signaling in hepatocellular carcinoma.
Wang LL; Luo J; He ZH; Liu YQ; Li HG; Xie D; Cai MY
Cell Death Dis; 2021 Nov; 12(11):1052. PubMed ID: 34741044
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