Anaïs Assouvie
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View article: Data from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Data from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
Radiotherapy (RT) triggers an immune response that contributes to antitumor effects. Induction of IFNβ is a key event in this immunogenicity of RT. We have previously shown that TRIM33, a chromatin reader, restrains IFNβ expression in Toll…
View article: Table S2 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Table S2 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
antibodies used in classical and spectral cytometry
View article: Figure S8 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S8 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
Immunofluorescence analysis of CD11b and CD3 in irradiated MC-38 tumors
View article: Figure S7 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S7 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
Lymphoid populations of tumors grown in LysMcre and Trim33mKO mice
View article: Table S1 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Table S1 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
primers for RT-qPCR
View article: Figure S3 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S3 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
fractionated irradiation in sub-cutaneous MC-38 or TC1/Luc models
View article: Figure S2 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S2 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
Radiotherapy in the sub-cutaneous TC1/Luc model in LysMcre or Trim33mKO mice
View article: Table S3 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Table S3 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
antibodies used in mass cytometry
View article: Figure S5 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S5 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
cytometry analysis of myeloid cells
View article: Figure S4 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S4 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
radiotherapy in Ifnar1KO mice, with or without Trim33mKO
View article: Figure S1 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S1 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
Signaling pathways in BMDM upon irradiation or treatment with irradiated cells
View article: Figure S6 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response
Figure S6 from Deleting <i>T</i><i>rim33</i> in Myeloid Cells Improves the Efficiency of Radiotherapy through an IFNβ-Dependent Antitumor Immune Response Open
gating strategies for B16 and MC-38 tumors cytometric analyses
View article: A genetic variant controls interferon-β gene expression in human myeloid cells by preventing C/EBP-β binding on a conserved enhancer
A genetic variant controls interferon-β gene expression in human myeloid cells by preventing C/EBP-β binding on a conserved enhancer Open
Interferon β (IFN-β) is a cytokine that induces a global antiviral proteome, and regulates the adaptive immune response to infections and tumors. Its effects strongly depend on its level and timing of expression. Therefore, the transcripti…