Terms: = Thyroid cancer AND PDCD1, CD279, PD-1, PD1, SLEB2, hPD-1, hPD-l, hSLE1
334 results:
1. pd-1 inhibition with retifanlimab and/or arginase inhibition with INCB001158 in Japanese patients with solid tumors: A phase I study.
Kuboki Y; Koyama T; Matsubara N; Naito Y; Kondo S; Harano K; Yonemori K; Yoh K; Gu Y; Mita T; Chen X; Ueda E; Yamamoto N; Doi T; Shimizu T
Cancer Med; 2024 Apr; 13(8):e6980. PubMed ID: 38651187
[TBL] [Abstract] [Full Text] [Related]
2. Construction and verification of a histone deacetylases-related prognostic signature model for colon cancer.
Hao L; Lu W; Wu J; Chen Y; Xu D; Wang P
Sci Rep; 2024 Apr; 14(1):8983. PubMed ID: 38637684
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3. OMA1 competitively binds to HSPA9 to promote mitophagy and activate the cGAS-STING pathway to mediate GBM immune escape.
Zhu W; Rao J; Zhang LH; Xue KM; Li L; Li JJ; Chen QZ; Fu R
J Immunother Cancer; 2024 Apr; 12(4):. PubMed ID: 38604814
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4. Frequency and characteristics of immune-related thyroid adverse events in patients with resected stage III/IV melanoma treated with adjuvant pd-1 inhibitors: a national cohort study.
Christensen SK; Winther ML; Laursen IJ; Madsen FS; Brink C; Brix TH; Ellebaek E; Svane IM; Hansen FS; Haslund C; Laursen OK; Schmidt H; Larsen ID; Bastholt L; Ruhlmann CH
Support Care Cancer; 2024 Apr; 32(5):281. PubMed ID: 38598052
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5. Regulatory T cells as crucial trigger and potential target for hyperprogressive disease subsequent to pd-1/PD-L1 blockade for cancer treatment.
Ren Z; Yang K; Zhu L; Yin D; Zhou Y
Int Immunopharmacol; 2024 May; 132():111934. PubMed ID: 38574701
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6. Associations of pd-1 and PD-L1 gene polymorphisms with cancer risk: a meta-analysis based on 50 studies.
Yang M; Liu Y; Zheng S; Geng P; He T; Lu L; Feng Y; Jiang Q
Aging (Albany NY); 2024 Mar; 16(7):6068-6097. PubMed ID: 38546391
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7. Efficacy and safety of transarterial chemoembolization combined with lenvatinib and pd-1 inhibitor in the treatment of advanced hepatocellular carcinoma: A meta-analysis.
Wang L; Lin L; Zhou W
Pharmacol Ther; 2024 May; 257():108634. PubMed ID: 38499069
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8. A distinct tumor microenvironment makes anaplastic thyroid cancer more lethal but immunotherapy sensitive than papillary thyroid cancer.
Han PZ; Ye WD; Yu PC; Tan LC; Shi X; Chen XF; He C; Hu JQ; Wei WJ; Lu ZW; Qu N; Wang Y; Ji QH; Ji DM; Wang YL
JCI Insight; 2024 Mar; 9(8):. PubMed ID: 38478516
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9. MGP
Chang K; Jiao Y; Zhang B; Hou L; He X; Wang D; Li D; Li R; Wang Z; Fan P; Zhang J
Int Immunopharmacol; 2024 Apr; 131():111818. PubMed ID: 38460300
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10. Chronic Lymphocytic thyroiditis with Oncocytic Metaplasia Influences PD-L1 Expression in Papillary thyroid Carcinoma.
Santana VB; Krüger VM; Abrahão MCY; Cantú PLM; Brackmann RL; Pandolfi GM; Marisco LS; Remonatto G; Ferreira LA; Graudenz MS
Head Neck Pathol; 2024 Mar; 18(1):14. PubMed ID: 38457034
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11. K48-linked deubiquitination of VGLL4 by USP15 enhances the efficacy of tumor immunotherapy in triple-negative breast cancer.
Wang X; Deng X; Hu J; Zheng W; Ye D; Zhou X; Fang L
Cancer Lett; 2024 Apr; 588():216764. PubMed ID: 38431034
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12. Construction of disulfidptosis-based immune response prediction model with artificial intelligence and validation of the pivotal grouping oncogene c-MET in regulating T cell exhaustion.
Li P; Wang S; Wan H; Huang Y; Yin K; Sun K; Jin H; Wang Z
Front Immunol; 2024; 15():1258475. PubMed ID: 38352883
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13. Mendelian randomization study highlights hypothyroidism as a causal determinant of alopecia areata.
Zheng XY; Ma YP; Zhang B; Chen YX; Tang L; Tai XH; Cao JH
Front Endocrinol (Lausanne); 2023; 14():1309620. PubMed ID: 38292771
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14. The Immune Suppressor IGSF1 as a Potential Target for cancer Immunotherapy.
Koh DI; Lee M; Park YS; Shin JS; Kim J; Ryu YS; Lee JH; Bae S; Lee MS; Hong JK; Jeong HR; Choi M; Hong SW; Kim DK; Lee HK; Kim B; Yoon YS; Jin DH
Cancer Immunol Res; 2024 Apr; 12(4):491-507. PubMed ID: 38289363
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15. Predictive biomarkers for immune-related adverse events in cancer patients treated with immune-checkpoint inhibitors.
Wang J; Ma Y; Lin H; Wang J; Cao B
BMC Immunol; 2024 Jan; 25(1):8. PubMed ID: 38267897
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16. Characteristics and immune checkpoint status of radioiodine-refractory recurrent papillary thyroid carcinomas from Ukrainian Chornobyl Tissue Bank donors.
Bogdanova T; Rogounovitch TI; Zurnadzhy L; Mitsutake N; Tronko M; Ito M; Bolgov M; Chernyshov S; Gulevatyi S; Masiuk S; Yamashita S; Saenko VA
Front Endocrinol (Lausanne); 2023; 14():1343848. PubMed ID: 38260161
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17. Checkpoint Inhibition in Addition to Dabrafenib/Trametinib for BRAF
Hamidi S; Iyer PC; Dadu R; Gule-Monroe MK; Maniakas A; Zafereo ME; Wang JR; Busaidy NL; Cabanillas ME
Thyroid; 2024 Mar; 34(3):336-346. PubMed ID: 38226606
[No Abstract] [Full Text] [Related]
18. Immunophenotyping with high-dimensional flow cytometry identifies Treg cell subsets associated with recurrence in papillary thyroid carcinoma.
Li S; Chen Z; Liu M; Li L; Cai W; Lian ZX; Guan H; Xu B
Endocr Relat Cancer; 2024 Mar; 31(3):. PubMed ID: 38214937
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19. Prognostic significance and immunological role of HPRT1 in human cancers.
Lu Y; Chen R; Zhang H; Sun X; Li X; Yang M; Zhang X
Biomol Biomed; 2024 Mar; 24(2):262-291. PubMed ID: 38159260
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20. Improving cancer immunotherapy by preventing cancer stem cell and immune cell linking in the tumor microenvironment.
Li D; Wang L; Jiang B; Jing Y; Li X
Biomed Pharmacother; 2024 Jan; 170():116043. PubMed ID: 38128186
[TBL] [Abstract] [Full Text] [Related]
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