Terms: = Lymphoma AND TFRC, P02786, 7037, ENSG00000072274, TFR1, CD71 AND Treatment
28 results:
1. Second treatment-Free Remission Attempt in Patients with Chronic Myeloid Leukemia.
Ureshino H; Kamachi K; Kimura S
Clin Lymphoma Myeloma Leuk; 2024 Apr; 24(4):e138-e141. PubMed ID: 38195325
[TBL] [Abstract] [Full Text] [Related]
2. In Doxorubicin-Adapted Hodgkin lymphoma Cells, Acquiring Multidrug Resistance and Improved Immunosuppressive Abilities, Doxorubicin Activity Was Enhanced by Chloroquine and GW4869.
Casagrande N; Borghese C; Avanzo M; Aldinucci D
Cells; 2023 Nov; 12(23):. PubMed ID: 38067159
[TBL] [Abstract] [Full Text] [Related]
3. Dysregulation of iron homeostasis by TfR-1 renders EZH2 wild type diffuse large B-cell lymphoma resistance to EZH2 inhibition.
Yu L; Wang YF; Xiao J; Shen QQ; Chi SS; Gao YL; Lin DZ; Ding J; Fang YF; Chen Y
Acta Pharmacol Sin; 2023 Oct; 44(10):2113-2124. PubMed ID: 37225847
[TBL] [Abstract] [Full Text] [Related]
4. Reinforcement of cell-mediated immunity driven by tumor-associated Epstein-Barr virus (EBV)-specific T cells during targeted B-cell therapy with rituximab.
Tischer-Zimmermann S; Bonifacius A; Santamorena MM; Mausberg P; Stoll S; Döring M; Kalinke U; Blasczyk R; Maecker-Kolhoff B; Eiz-Vesper B
Front Immunol; 2023; 14():878953. PubMed ID: 37033971
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5. A Systematic Review on Second treatment-Free Remission (TFR) Attempt in Chronic Myeloid Leukemia (CML): Can it be Applied in Clinical Practice?
Çiftçiler R; Akın MG; Erat Z; Eşkazan AE
Clin Lymphoma Myeloma Leuk; 2023 Jan; 23(1):8-14. PubMed ID: 36344420
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6. Discovery of a Transferrin Receptor 1-Binding Aptamer and Its Application in Cancer Cell Depletion for Adoptive T-Cell Therapy Manufacturing.
Cheng EL; Cardle II; Kacherovsky N; Bansia H; Wang T; Zhou Y; Raman J; Yen A; Gutierrez D; Salipante SJ; des Georges A; Jensen MC; Pun SH
J Am Chem Soc; 2022 Aug; 144(30):13851-13864. PubMed ID: 35875870
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7. Novel lncRNA-IUR suppresses Bcr-Abl-induced tumorigenesis through regulation of STAT5-cd71 pathway.
Wang X; Yang J; Guo G; Feng R; Chen K; Liao Y; Zhang L; Sun L; Huang S; Chen JL
Mol Cancer; 2019 Apr; 18(1):84. PubMed ID: 30961617
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8. A recycling anti-transferrin receptor-1 monoclonal antibody as an efficient therapy for erythroleukemia through target up-regulation and antibody-dependent cytotoxic effector functions.
Neiveyans M; Melhem R; Arnoult C; Bourquard T; Jarlier M; Busson M; Laroche A; Cerutti M; Pugnière M; Ternant D; Gaborit N; Chardès T; Poupon A; Gouilleux-Gruart V; Pèlegrin A; Poul MA
MAbs; 2019 Apr; 11(3):593-605. PubMed ID: 30604643
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9. Development of a complete human IgG monoclonal antibody to transferrin receptor 1 targeted for adult T-cell leukemia/lymphoma.
Shimosaki S; Nakahata S; Ichikawa T; Kitanaka A; Kameda T; Hidaka T; Kubuki Y; Kurosawa G; Zhang L; Sudo Y; Shimoda K; Morishita K
Biochem Biophys Res Commun; 2017 Mar; 485(1):144-151. PubMed ID: 28189691
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10. Flow Cytometric Analysis of T, B, and NK Cells Antigens in Patients with Mycosis Fungoides.
Yazıcı S; Bülbül Başkan E; Budak F; Oral B; Adim ŞB; Ceylan Kalin Z; Özkaya G; Aydoğan K; Saricaoğlu H; Tunali Ş
J Immunol Res; 2015; 2015():856340. PubMed ID: 26788525
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11. Efficacy of an Anti-transferrin Receptor 1 Antibody Against AIDS-related Non-Hodgkin lymphoma: A Brief Communication.
Daniels-Wells TR; Widney DP; Leoh LS; Martínez-Maza O; Penichet ML
J Immunother; 2015 Oct; 38(8):307-10. PubMed ID: 26325374
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12. Survival signals and targets for therapy in breast implant-associated ALK--anaplastic large cell lymphoma.
Lechner MG; Megiel C; Church CH; Angell TE; Russell SM; Sevell RB; Jang JK; Brody GS; Epstein AL
Clin Cancer Res; 2012 Sep; 18(17):4549-59. PubMed ID: 22791880
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13. Antitumour effects of single or combined monoclonal antibodies directed against membrane antigens expressed by human B cells leukaemia.
Loisel S; André PA; Golay J; Buchegger F; Kadouche J; Cérutti M; Bologna L; Kosinski M; Viertl D; Delaloye AB; Berthou C; Mach JP; Boumsell L
Mol Cancer; 2011 Apr; 10():42. PubMed ID: 21504579
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14. The complex role of multivalency in nanoparticles targeting the transferrin receptor for cancer therapies.
Wang J; Tian S; Petros RA; Napier ME; Desimone JM
J Am Chem Soc; 2010 Aug; 132(32):11306-13. PubMed ID: 20698697
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15. Disruption of HOX activity leads to cell death that can be enhanced by the interference of iron uptake in malignant B cells.
Daniels TR; Neacato II; Rodríguez JA; Pandha HS; Morgan R; Penichet ML
Leukemia; 2010 Sep; 24(9):1555-65. PubMed ID: 20574452
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16. c-Myc over-expression in Ramos Burkitt's lymphoma cell line predisposes to iron homeostasis disruption in vitro.
Habel ME; Jung D
Biochem Biophys Res Commun; 2006 Mar; 341(4):1309-16. PubMed ID: 16466700
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17. Starlike vs. classic macromolecular prodrugs: two different antibody-targeted HPMA copolymers of doxorubicin studied in vitro and in vivo as potential anticancer drugs.
Jelínková M; Strohalm J; Etrych T; Ulbrich K; Ríhová B
Pharm Res; 2003 Oct; 20(10):1558-64. PubMed ID: 14620507
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18. Differences in the intracellular fate of free and polymer-bound doxorubicin.
Hovorka O; St'astný M; Etrych T; Subr V; Strohalm J; Ulbrich K; Ríhová B
J Control Release; 2002 Apr; 80(1-3):101-17. PubMed ID: 11943391
[TBL] [Abstract] [Full Text] [Related]
19. Photodynamic therapy with topical 5-aminolevulinic acid for mycosis fungoides: clinical and histological response.
Edström DW; Porwit A; Ros AM
Acta Derm Venereol; 2001; 81(3):184-8. PubMed ID: 11558874
[TBL] [Abstract] [Full Text] [Related]
20. [Relationship between the bone marrow cell proliferation and the prognosis in childhood acute lymphoblastic leukemia].
Zheng H; Zhao X; Geng L
Zhonghua Xue Ye Xue Za Zhi; 1999 Jan; 20(1):7-9. PubMed ID: 11498846
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