Abstract 56P
Background
FOXM1D functions through interactions with proteins. We found that FOXM1D decreased in peripheral blood immune cells of renal cancer patients. It is speculated that FOXM1D is likely to regulate the expression level of immune checkpoint in immune cells through the way of interprotein interaction, and regulating the transcription of PD-1.
Methods
We detected the FD level in PBMC and CD3-positive T cells in clinical samples. PD-1 expression was detected. We performed mass spectrometry and found that HCFC1 function as a cotranscription factor. We examined the effect of FOXM1D on the HCFC1 protein. We detected the HCFC1 in cell lines with overexpression and knockdown of FOXM1D by karyoplasmic isolation. YY1 is predicted to be a transcription factor of PD-1, ChIP and Luciferase experiments to detect the binding sites to the PD-1 promoter. JKT co-culture tests with renal cancer cells in supernatant cytokine levels, observe the killer T cells. Finally, we proceed animal testing.
Results
The FD level in PBMC of renal cancer patients was significantly lower than that of normal people. The change of FOXM1D in CD3+T cells was the same as PBMC. The transcription level of PD-1 and the level of PD-1 on the surface of Jurkat-FOXM1D in cells overexpressing FOXM1D was significantly down-regulated. HCFC1 was found to function as a cotranscription factor. In immune cells, FOXM1D inhibits the entry of HCFC1 into the nucleus by interacting with the N-terminal of HCFC1, weakens the transcriptional activation of HCFC1 to YY1, and then inhibits the transcriptional regulation of PD-1 molecules. After co-culture with T cells, the cytokine in supernatant of 786O and 769P cells was changed. And the animal experiment was in progress.
Conclusions
HCFC1, as a co-transcription factor, can enhance its transcriptional function by interacting with YY1, and further regulate the transcription of immune checkpoint molecules PD-1. FOXM1D inhibits the nuclear entry of HCFC1 by interacting with the N-terminus of HCFC1, attenuates the transcriptional activation of YY1 by HCFC1, and then inhibits the transcription of various immune checkpoint molecules such as PD-1.
Legal entity responsible for the study
Fudan University Shanghai Cancer Center.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
190P - Immune-related roles of B7H3 in glioblastoma
Presenter: Arnaud Simonet
Session: Poster Display
191P - Senolytic treatment remodels glioblastoma microenvironment
Presenter: Alexa Saliou
Session: Poster Display
192P - Analysis of Tumor-Associated Macrophages and Tumor-infiltrating Lymphocytes within the Tumor Microenvironment of Primary Tumors and Matched Brain Metastases
Presenter: Markus Kleinberger
Session: Poster Display
193P - Engagement of sialylated glycans with Siglec receptors on suppressive myeloid cells inhibit anti-cancer immunity via CCL2
Presenter: Ronja Wieboldt
Session: Poster Display
194P - Achieving Reproducible Maturation Staging of Tertiary Lymphoid Structures: from Imaging Mass Cytometry Data to Pathology Applications
Presenter: Marion Le Rochais
Session: Poster Display
195P - IMMUcan - Toward a better understanding of the tumor microenvironment to inform precision oncology approaches.
Presenter: Marie Morfouace
Session: Poster Display
196P - Local glycan engineering induces systemic antitumor immune reactions via antigen cross-presentation
Presenter: Natalia Rodrigues Mantuano
Session: Poster Display
197P - Computational pathology pipeline enables quantification of intratumor heterogeneity and tumor-infiltrating lymphocyte score
Presenter: Daniel Tiezzi
Session: Poster Display
198P - Polarization of tumor-associated macrophages enhanced by 2-HP-_-cyclodextrin modified PLGA nanoparticles
Presenter: HAO YUAN
Session: Poster Display
199P - Scalable multiplexed image analysis across cancer types as part of the IMMUcan consortium
Presenter: Nils Eling
Session: Poster Display