Objective Yin Yang 1 (YY1) is a transcription factor with a dual role in cancer genesis. Hematological malignancies, including non-Hodgkin lymphomas (NHL), are often characterized by a frequent development of resistance to therapy and a high rate of tumor recurrence. Our previous observations showed that YY1 is overexpressed in hematological tumors. The aim of this study was to investigate the functional role of YY1 in anti-cancer therapy induced cell death and to identify YY1 downstream resistant factors. Experimental Designs The NHL Raji cell line was used as a cellular model. The expression of YY1 was assessed by q-PCR and WB. YY1 knock-down (KD) was achieved using retroviral shRNA. Viability was measured by both the MTT assay and the Trypan Blue live/dead cell count. Cell death was induced following Vincristine and Doxorubicin treatments. The following analyses were used in this study: the JASPAR database, the Encyclopedia of DNA Elements (ENCODE) and the Cancer Genome Atlas (TCGA) datasets relative to NHL patients have been analyzed to assess the expression levels of YY1 and apoptotic genes, according to tumor stages and patients' clinical-pathological features. Results Silencing of YY1 in Raji cells resulted in increased sensitivity to both Vincristine and Doxorubicin treatments and augmented apoptosis. Jaspar analysis identified several potential YY1 transcriptional targets involved in cellular death regulation. As a result of q-PCR screening and validation, Survivin has been identified as a potential YY1 target, as it was significantly downregulated following YY1 KD. Bioinformatic analysis of deposited Chip-Seq databases in ENCODE revealed that YY1 is able to target Survivin transcriptional regulatory regions in different cancer cell lines, as well as in normal B lymphocytes. The TCGA-deposited datasets identified specific clusters of YY1 expression significantly correlated with Survivin. Conclusions Our findings demonstrated that (1) YY1 silencing resulted in the sensitization of Raji tumor cells to drug-induced apoptosis (2) q-PCR-mediated screening of putative YY1 targets led to the identification of Survivin as a potential YY1 target, as when YY1 was KD, Survivin levels were strongly downregulated (3) YY1 might be positively regulating Survivin expression (4) Survivin could be a potential target of YY1 in NHL and (5) YY1 and Survivin in NHL may represent two novel diagnostic and prognostic biomarkers to assess patients' response to chemotherapy.
Oncogenic role of the transcription factor YY1 and its target Survivin in non-Hodgkin's lymphoma
Vivarelli, S;
2020-01-01
Abstract
Objective Yin Yang 1 (YY1) is a transcription factor with a dual role in cancer genesis. Hematological malignancies, including non-Hodgkin lymphomas (NHL), are often characterized by a frequent development of resistance to therapy and a high rate of tumor recurrence. Our previous observations showed that YY1 is overexpressed in hematological tumors. The aim of this study was to investigate the functional role of YY1 in anti-cancer therapy induced cell death and to identify YY1 downstream resistant factors. Experimental Designs The NHL Raji cell line was used as a cellular model. The expression of YY1 was assessed by q-PCR and WB. YY1 knock-down (KD) was achieved using retroviral shRNA. Viability was measured by both the MTT assay and the Trypan Blue live/dead cell count. Cell death was induced following Vincristine and Doxorubicin treatments. The following analyses were used in this study: the JASPAR database, the Encyclopedia of DNA Elements (ENCODE) and the Cancer Genome Atlas (TCGA) datasets relative to NHL patients have been analyzed to assess the expression levels of YY1 and apoptotic genes, according to tumor stages and patients' clinical-pathological features. Results Silencing of YY1 in Raji cells resulted in increased sensitivity to both Vincristine and Doxorubicin treatments and augmented apoptosis. Jaspar analysis identified several potential YY1 transcriptional targets involved in cellular death regulation. As a result of q-PCR screening and validation, Survivin has been identified as a potential YY1 target, as it was significantly downregulated following YY1 KD. Bioinformatic analysis of deposited Chip-Seq databases in ENCODE revealed that YY1 is able to target Survivin transcriptional regulatory regions in different cancer cell lines, as well as in normal B lymphocytes. The TCGA-deposited datasets identified specific clusters of YY1 expression significantly correlated with Survivin. Conclusions Our findings demonstrated that (1) YY1 silencing resulted in the sensitization of Raji tumor cells to drug-induced apoptosis (2) q-PCR-mediated screening of putative YY1 targets led to the identification of Survivin as a potential YY1 target, as when YY1 was KD, Survivin levels were strongly downregulated (3) YY1 might be positively regulating Survivin expression (4) Survivin could be a potential target of YY1 in NHL and (5) YY1 and Survivin in NHL may represent two novel diagnostic and prognostic biomarkers to assess patients' response to chemotherapy.Pubblicazioni consigliate
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