Terms: = Head and neck cancer AND PTPRC, LCA, 5788, ENSG00000081237, T200, GP180, B220, LY5, CD45
303 results:
1. Unraveling the causal role of immune cells in gastrointestinal tract cancers: insights from a Mendelian randomization study.
Wang YX; Zhou CP; Wang DT; Ma J; Sun XH; Wang Y; Zhang YM
Front Immunol; 2024; 15():1343512. PubMed ID: 38533503
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2. Momordicine-I Suppresses head and neck cancer Growth by Reprogrammimg Immunosuppressive Effect of the Tumor-Infiltrating Macrophages and B Lymphocytes.
Sur S; Bhartiya P; Steele R; Brennan M; DiPaolo RJ; Ray RB
Mol Cancer Ther; 2024 May; 23(5):672-682. PubMed ID: 38315993
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3. Circulating immunophenotypes are potentially prognostic in follicular cell-derived thyroid cancer.
Kotwal A; Gustafson MP; Bornschlegl S; Dietz AB; Delivanis D; Ryder M
Front Immunol; 2023; 14():1325343. PubMed ID: 38235146
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4. Analysis of cells of epithelial, connective tissue and immune differentiation in HPV-positive-, HPV-negative oropharyngeal carcinoma and normal oropharyngeal tissue by immunofluorescence multiplex image cytometry: a preliminary report.
Giotakis AI; Runge A; Dudas J; Glueckert R; Gottfried T; Schartinger VH; Klarer J; Randhawa A; Caimmi E; Riechelmann H
BMC Cancer; 2023 Nov; 23(1):1154. PubMed ID: 38012597
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5. APOBEC3C is a novel target for the immune treatment of lower-grade gliomas.
Zhao S; Li Y; Xu J; Shen L
Neurol Res; 2024 Mar; 46(3):227-242. PubMed ID: 38007705
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6. Expression of IDO1 in Tumor Microenvironment Significantly Predicts the Risk of Recurrence/Distant Metastasis for Patients With Esophageal Squamous Cell Carcinoma.
Qiu C; Lin Q; Ji S; Han C; Yang Q
Lab Invest; 2023 Dec; 103(12):100263. PubMed ID: 37839637
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7. Licochalcone A induces G2/M phase arrest and apoptosis via regulating p53 pathways in esophageal cancer: In-vitro and in-vivo study.
Liu J; Deng L; Wang L; Qian D; He C; Ren Q; Zhang Q; Chen Y
Eur J Pharmacol; 2023 Nov; 958():176080. PubMed ID: 37758012
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8. Identifying potential immuno-oncology targets in salivary gland mucoepidermoid carcinoma based on inflammatory status and treatment response.
Urumarudappa SKJ; Tran VNT; Oo HM; Suntiparpluacha M; Sampattavanich S; Rosa V; Ruangritchankul K; Ferreira JN; Chaisuparat R
J Oral Pathol Med; 2023 Nov; 52(10):939-950. PubMed ID: 37756121
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9. Diagnostic role of FNA cytology in the evaluation of cervical lymph nodes in thyroid cancers: Combined evaluation of thyroglobulin in eluate from FNA cytology.
Tralongo P; Bruno C; Policardo F; Vegni F; Feraco A; Carlino A; Ferraro G; Milardi D; Navarra E; Pontecorvi A; Lombardi CP; Raffaelli M; Larocca LM; Pantanowitz L; Rossi ED
Cancer Cytopathol; 2023 Nov; 131(11):693-700. PubMed ID: 37519189
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10. CTLA4 DNA methylation is associated with CTLA-4 expression and predicts response to immunotherapy in head and neck squamous cell carcinoma.
Hoffmann F; Franzen A; de Vos L; Wuest L; Kulcsár Z; Fietz S; Maas AP; Hollick S; Diop MY; Gabrielpillai J; Vogt T; Kuster P; Zarbl R; Dietrich J; Kristiansen G; Brossart P; Landsberg J; Strieth S; Dietrich D
Clin Epigenetics; 2023 Jul; 15(1):112. PubMed ID: 37415208
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11. Personal immune profiles: Diversity and prognostic value for oral tongue squamous cell carcinoma evaluated by comprehensive immune parameter analyses with multiplex immunofluorescence.
Daroonpan P; Ouchi R; Zhang C; Nagai S; Nishii N; Kashima Y; Tsushima F; Harada H; Hamagaki M; Ikeda T; Aida J; Kaomongkolgit R; Azuma M
Oral Oncol; 2023 Aug; 143():106458. PubMed ID: 37329869
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12. Immune-Related Gene Expression Profile at Peritumoral Tonsillar Tissue Is Modified by Oropharyngeal cancer Nodal Status.
Wakisaka N; Moriyama-Kita M; Kondo S; Kobayashi E; Ueno T; Nakanishi Y; Endo K; Sugimoto H; Yoshizaki T
Am J Pathol; 2023 Aug; 193(8):1006-1012. PubMed ID: 37169342
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13. Exploration of spatial heterogeneity of tumor microenvironment in nasopharyngeal carcinoma via transcriptional digital spatial profiling.
Wang L; Wang D; Zeng X; Zhang Q; Wu H; Liu J; Wang Y; Liu G; Pan Y
Int J Biol Sci; 2023; 19(7):2256-2269. PubMed ID: 37151882
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14. Using Intratumor Heterogeneity of Immunohistochemistry Biomarkers to Classify Laryngeal and Hypopharyngeal Tumors Based on Histologic Features.
Smits HJG; Ruiter LN; Breimer GE; Willems SM; Philippens MEP
Mod Pathol; 2023 Aug; 36(8):100199. PubMed ID: 37116830
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15. Nanovaccines Fostering Tertiary Lymphoid Structure to Attack Mimicry Nasopharyngeal Carcinoma.
Wen Z; Liu H; Qiao D; Chen H; Li L; Yang Z; Zhu C; Zeng Z; Chen Y; Liu L
ACS Nano; 2023 Apr; 17(8):7194-7206. PubMed ID: 37057967
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16. Digital Spatial Profiling Links Beta-2-microglobulin Expression with Immune Checkpoint Blockade Outcomes in head and neck Squamous Cell Carcinoma.
Gavrielatou N; Vathiotis I; Aung TN; Shafi S; Burela S; Fernandez AI; Moutafi M; Burtness B; Economopoulou P; Anastasiou M; Foukas P; Psyrri A; Rimm DL
Cancer Res Commun; 2023 Apr; 3(4):558-563. PubMed ID: 37057033
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17. Lnc-17Rik promotes the immunosuppressive function of Myeloid-Derived suppressive cells in esophageal cancer.
Wen J; Xuan B; Gao Y; Liu Y; Wang L; He L; Meng X; Zhou T; Tao Y; Guo K; Wang Y
Cell Immunol; 2023 Mar; 385():104676. PubMed ID: 36780770
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18. Primary head and neck cancer cell cultures are susceptible to proliferation of Epstein-Barr virus infected lymphocytes.
Shao S; Scholtz LU; Gendreizig S; Martínez-Ruiz L; Florido J; Escames G; Schürmann M; Hain C; Hose L; Mentz A; Schmidt P; Wang M; Goon P; Wehmeier M; Brasch F; Kalinowski J; Oppel F; Sudhoff H
BMC Cancer; 2023 Jan; 23(1):47. PubMed ID: 36639629
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19. Cuproptosis related genes associated with Jab1 shapes tumor microenvironment and pharmacological profile in nasopharyngeal carcinoma.
Wang L; Wang D; Yang L; Zeng X; Zhang Q; Liu G; Pan Y
Front Immunol; 2022; 13():989286. PubMed ID: 36618352
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20. Dynamic changes of the EMT spectrum between circulating tumor cells and the tumor microenvironment in human papillomavirus-positive head and neck squamous cell carcinoma.
Ida S; Takahashi H; Tada H; Mito I; Matsuyama T; Chikamatsu K
Oral Oncol; 2023 Feb; 137():106296. PubMed ID: 36571985
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