Terms: = Head and neck cancer AND MYC, c-Myc, 4609, ENSG00000136997
1200 results:
1. F. Nucleatum enhances oral squamous cell carcinoma proliferation via E-cadherin/β-Catenin pathway.
Li Z; Liu Y; Huang X; Wang Q; Fu R; Wen X; Liu J; Zhang L
BMC Oral Health; 2024 May; 24(1):518. PubMed ID: 38698370
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2. Interleukin 33 supports squamous cell carcinoma growth via a dual effect on tumour proliferation, migration and invasion, and T cell activation.
Perri G; Vilas Boas VG; Nogueira MRS; Mello Júnior EJF; Coelho AL; Posadas EM; Hogaboam C; Cavassani KA; Campanelli AP
Cancer Immunol Immunother; 2024 Apr; 73(6):110. PubMed ID: 38662248
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3. Mutational landscape of oral mucosal melanoma based on comprehensive cancer genomic profiling tests in a Japanese cohort.
Ichimura N; Urata Y; Kobayashi T; Hibi H
Oral Oncol; 2024 May; 152():106807. PubMed ID: 38615585
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4. SP1 Gene Methylation in head and neck Squamous Cell cancer in HPV-Negative Patients.
Jumaniyazova E; Aghajanyan A; Kurevlev S; Tskhovrebova L; Makarov A; Gordon K; Lokhonina A; Fatkhudinov T
Genes (Basel); 2024 Feb; 15(3):. PubMed ID: 38540340
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5. Evolutionary trajectories of small cell lung cancer under therapy.
George J; Maas L; Abedpour N; Cartolano M; Kaiser L; Fischer RN; Scheel AH; Weber JP; Hellmich M; Bosco G; Volz C; Mueller C; Dahmen I; John F; Alves CP; Werr L; Panse JP; Kirschner M; Engel-Riedel W; Jürgens J; Stoelben E; Brockmann M; Grau S; Sebastian M; Stratmann JA; Kern J; Hummel HD; Hegedüs B; Schuler M; Plönes T; Aigner C; Elter T; Toepelt K; Ko YD; Kurz S; Grohé C; Serke M; Höpker K; Hagmeyer L; Doerr F; Hekmath K; Strapatsas J; Kambartel KO; Chakupurakal G; Busch A; Bauernfeind FG; Griesinger F; Luers A; Dirks W; Wiewrodt R; Luecke A; Rodermann E; Diel A; Hagen V; Severin K; Ullrich RT; Reinhardt HC; Quaas A; Bogus M; Courts C; Nürnberg P; Becker K; Achter V; Büttner R; Wolf J; Peifer M; Thomas RK
Nature; 2024 Mar; 627(8005):880-889. PubMed ID: 38480884
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6. TGFβ signaling pathway in salivary gland tumors.
Gomes ÁNM; Oliveira KK; Marchi FA; Bettim BB; Germano JN; Gonçalves Filho J; Pinto CAL; Lourenço SV; Coutinho-Camillo CM
Arch Oral Biol; 2024 Jun; 162():105943. PubMed ID: 38479278
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7. Potential targets of diosgenin for the treatment of oral squamous cell carcinoma and their bioinformatics and transcriptional profiling analyses.
Xiao Y; Xu B; Li X; Ding T; Zhao W; Nie X; Mu J; Xiao Z; Wang Q; Ren Q; Zhang E
Steroids; 2024 May; 205():109393. PubMed ID: 38458369
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8. The role and molecular mechanism of NOP16 in the pathogenesis of nasopharyngeal carcinoma.
Xiong W; Li D; Ao F; Tu Z; Xiong J
Cell Biochem Funct; 2024 Mar; 42(2):e3939. PubMed ID: 38454810
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9. [Clinicopathological and molecular characteristics of esophageal carcinoma with ductal differentiation: analysis of 17 cases].
Jiang WJ; Ao S; Cui YY; Lu L; Wang CN
Zhonghua Bing Li Xue Za Zhi; 2024 Mar; 53(3):276-281. PubMed ID: 38433056
[No Abstract] [Full Text] [Related]
10. Natural killer cell-based signature: Prognostic analysis in head and neck squamous cell carcinoma.
Guo Z; Zhao Y; Xu M; Zhao L; Wang X
J Gene Med; 2024 Feb; 26(2):e3671. PubMed ID: 38384136
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11. VAV2 orchestrates the interplay between regenerative proliferation and ribogenesis in both keratinocytes and oral squamous cell carcinoma.
Fernández-Parejo N; Lorenzo-Martín LF; García-Pedrero JM; Rodrigo JP; Dosil M; Bustelo XR
Sci Rep; 2024 Feb; 14(1):4060. PubMed ID: 38374399
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12. Mechanisms Involved in Therapeutic Effects of
Bayat Z; Mazaheri T; Farhadifard H; Taherkhani A
Biomed Res Int; 2024; 2024():1236910. PubMed ID: 38322303
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13. Transcriptional Inflammatory Signature in Healthy Donors and Different Radiotherapy cancer Patients.
O'Brien G; Kamuda M; Cruz-Garcia L; Polozova M; Tichy A; Markova M; Sirak I; Zahradnicek O; Widłak P; Ponge L; Polanska J; Badie C
Int J Mol Sci; 2024 Jan; 25(2):. PubMed ID: 38256152
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14. The radiation- and chemo-sensitizing capacity of diclofenac can be predicted by a decreased lactate metabolism and stress response.
Schwab M; Dezfouli AB; Khosravi M; Alkotub B; Bauer L; Birgani MJT; Multhoff G
Radiat Oncol; 2024 Jan; 19(1):7. PubMed ID: 38229111
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15. LINC00629, a HOXB4-downregulated long noncoding RNA, inhibits glycolysis and ovarian cancer progression by destabilizing c-myc.
Liu J; Zhu Y; Wang H; Han C; Wang Y; Tang R
Cancer Sci; 2024 Mar; 115(3):804-819. PubMed ID: 38182548
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16. Pharmacological inhibition of myc to mitigate chemoresistance in preclinical models of squamous cell carcinoma.
Liu S; Qin Z; Mao Y; Wang N; Zhang W; Wang Y; Chen Y; Jia L; Peng X
Theranostics; 2024; 14(2):622-639. PubMed ID: 38169606
[No Abstract] [Full Text] [Related]
17. Impact of Mutations in Subunit Genes of the Mammalian SWI/SNF Complex on Immunological Tumor Microenvironment.
Hozumi C; Iizuka A; Ikeya T; Miyata H; Maeda C; Ashizawa T; Nagashima T; Urakami K; Shimoda Y; Ohshima K; Muramatsu K; Sugino T; Shiomi A; Ohde Y; Bando E; Furukawa K; Sugiura T; Mukaigawa T; Nishimura S; Hirashima Y; Mitsuya K; Yoshikawa S; Tsubosa Y; Katagiri H; Niwakawa M; Yamaguchi K; Kenmotsu H; Akiyama Y
Cancer Genomics Proteomics; 2024; 21(1):88-101. PubMed ID: 38151294
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18. Patterns of Treatment Failure After Selective Rearranged During Transfection (RET) Inhibitors in Patients With Metastatic Medullary Thyroid Carcinoma.
Hadoux J; Al Ghuzlan A; Lamartina L; Bani MA; Moog S; Attard M; Scoazec JY; Hartl D; Aldea M; Friboulet L; Jules-Clement G; Italiano A; Besse B; Lacroix L; Baudin E
JCO Precis Oncol; 2023 Sep; 7():e2300053. PubMed ID: 38127829
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19. ACTN1 promotes HNSCC tumorigenesis and cisplatin resistance by enhancing MYH9-dependent degradation of GSK-3β and integrin β1-mediated phosphorylation of FAK.
Cui L; Lu Y; Zheng J; Guo B; Zhao X
J Exp Clin Cancer Res; 2023 Dec; 42(1):335. PubMed ID: 38057867
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20. Immunosignatures associated with TP53 status and co-mutations classify prognostically head and neck cancer patients.
Sacconi A; Muti P; Pulito C; Urbani G; Allegretti M; Pellini R; Mehterov N; Ben-David U; Strano S; Bossi P; Blandino G
Mol Cancer; 2023 Nov; 22(1):192. PubMed ID: 38031025
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