Project description:Previously, we have reported that genomic loss of 14q occurs more frequently in high grade clear cell renal cell carcinomas (ccRCCs) than low grade ones and shows a significant impact on the expression levels of genes located on this region, suggesting that the genes located on the region and downregulated by the loss may be involved in the malignant transformation of ccRCCs. Here, among the genes located on the minimal common region of 14q loss, we found that 6 were significantly downregulated in high grade ccRCCs due to copy number loss. Using the data set from The Cancer Genome Atlas (TCGA) Research Network, downregulation of one out of the 6 genes, WDR20, was significantly associated with poorer prognosis for the patients with ccRCC, suggesting that downregulation of WDR20 may be involved in the malignant transformation of ccRCC. In functional assays, exogeneous WDR20 significantly inhibited growth and induced apoptosis in RCC cell lines. Interestingly, the phosphorylation levels of ERK and AKT, which reportedly contribute to the malignant phenotype of RCC cells, were clearly reduced by the exogeneous expression of WDR20. Thus, our data suggest that downregulation of WDR20 due to 14q loss may be involved in the malignant transformation of ccRCCs in part through the activation of ERK and AKT pathways. Downregulated expression levels of genes in minimal common region due to 14q loss. Expression levels of 6 genes were determined by microarray analysis and compared between normal kidney tissues (normal, n=16), low grade (low, n=16) and high grade (high, n=16) ccRCCs. The expression level (log2) normalized by the median expression level for the 16 normal samples.

Project description:Previously, we have reported that genomic loss of 14q occurs more frequently in high grade clear cell renal cell carcinomas (ccRCCs) than low grade ones and shows a significant impact on the expression levels of genes located on this region, suggesting that the genes located on the region and downregulated by the loss may be involved in the malignant transformation of ccRCCs. Here, among the genes located on the minimal common region of 14q loss, we found that 6 were significantly downregulated in high grade ccRCCs due to copy number loss. Using the data set from The Cancer Genome Atlas (TCGA) Research Network, downregulation of one out of the 6 genes, WDR20, was significantly associated with poorer prognosis for the patients with ccRCC, suggesting that downregulation of WDR20 may be involved in the malignant transformation of ccRCC. In this array study, we aimed to investigate the effect of WDR20 overexpression on the gene expression profile of an RCC cell line, 786_O. For this aim, we established 3 cell clones stably transfected with the WDR20 expressing vector (786O_WDR20cl1, 786O_WDR20cl2 and 786O_WDR20cl3) and one cell clone stably transfected with the corresponding empty vector (786O_vector) and performed expression microarray analysis using RNAs from these cell lines.

Project description:Downregulation of WDR20 due to loss of 14q is involved in the malignant transformation of clear cell renal cell carcinoma (WDR20 overexpression in RCC cell line)

Project description:Downregulation of WDR20 due to loss of 14q is involved in the malignant transformation of clear cell renal cell carcinoma

Project description:Clear cell renal cell carcinoma (ccRCC) is the most common variant of kidney cancer in the adult population. Late diagnosis, resistance to therapeutics and recurrence of metastatic lesions account for the highest mortality rate among kidney cancer patients. Identifying novel biomarkers for early cancer detection and the mechanisms underlying ccRCC growth and progression will provide clues to treat this aggressive malignant tumor. Here, we report that the RING ligase praja2 is a novel component of the endocytic system that supports clathrin-mediated receptor endocytosis. At the molecular level, we identify the adaptor protein AP2 as a binding partner and substrate of praja2. Functionally, we demonstrate that praja2 is required for AP2-mediated receptor endocytosis and clearance. Downregulation of praja2 in RCC cells and tissues is associated with a marked upregulation of membrane receptors, as EGFR, VEGFR and TfR. A negative feedback loop links EGF signaling to proteolysis of praja2 and sustains downstream mitogenic and proliferative pathways. Restoring praja2 expression in RCC cells remarkably decreases EGFR levels, rewires cancer cell metabolism and inhibits RCC growth and metastatic diffusion. In praja2 knockout mice, upregulation of RTKs levels associates with profound histopathological renal alterations. Our findings identify praja2 as a component of the endocytic pathway that supports receptor endocytosis and clearance. Downregulation of praja2 in RCC cells, thus, sustains RTK signaling and promotes kidney cancer growth and diffusion.

Project description:Altered metabolism is an important part of malignant transformation of tumor cells. Oncogenic transformation may reprogram tumor metabolism and render tumor cells addicted to extracellular nutrients. Such nutrient addictions associated with oncogenic mutations may offer therapeutic opportunities; however, it remains difficult to predict these nutrient addictions. Here, we performed a nutrigenetic screen to determine the phenotypes of isogenic pairs of clear-cell renal cancer cells (ccRCC) with or without VHL upon the deprivation of individual amino acids. We identified that cystine deprivation triggered rapid programmed necrosis in VHL-deficient RCC, but not in their VHL-restored counterparts. Similar cystine addiction was also observed in VHL-deficient primary RCC tumors cells. Blockage of cystine uptake significantly delayed xenograft growth of ccRCC. Importantly, cystine deprivation triggered similar metabolic changes regardless of VHL status. Therefore, metabolic differences due to cystine deprivation are not different enough to readily explain the distinct fate of life vs. death in VHL-deficient and restored cell.. Instead, we found that increased levels of TNFα associated with VHL loss in the VHL-deficient RCC force them to rely on intact RIPK1 to inhibit apoptosis. However, this pre-existing elevated TNFα in the VHL-deficient ccRCC renders these cells susceptible to the necrosis signaling triggered by cystine deprivation. In addition, we identified that cystine-deprived necrosis in VHL-deficient RCC depends on reciprocal amplification of the Src-p38-Noxa signaling and TNFα-RIP1/3-MLKL necrosis pathways that culminate in MLKL oligomerization and programmed necrosis. Together, our data reveal that the contextual cystine-addictions in VHL-deficient ccRCC is dependent on activating pre-existing oncogenic pathways to trigger programmed necrosis. RNA was extracted by RNAeasy kits (Qiagen) from the RCC4 Vec and VHL-reconstituted cells which were exposed to the control full DMEM or cystine deprived DMEM media for 6 hours (three replicates in each condition).

Project description:Clear cell renal cell carcinoma (ccRCC) is the most common variant of kidney cancer in the adult population. Late diagnosis, resistance to therapeutics and recurrence of metastatic lesions account for the highest mortality rate among kidney cancer patients. Identifying novel biomarkers for early cancer detection and the mechanisms underlying ccRCC growth and progression will provide clues to treat this aggressive malignant tumor. Here, we report that the RING ligase praja2 is a novel component of the endocytic system that supports clathrin-mediated receptor endocytosis. At molecular level, we identify the adaptor protein AP2 as a binding partner and substrate of praja2. Functionally, we demonstrate that praja2 is required for AP2-mediated receptor endocytosis and clearance. Downregulation of praja2 in RCC cells and tissues is associated with a marked upregulation of membrane receptors, as EGFR, VEGFR and TfR. A negative feedback loop links EGF signaling to proteolysis of praja2 and sustains downstream mitogenic and proliferative pathways. Restoring praja2 expression in RCC cells remarkably decreases EGFR levels, rewires cancer cell metabolism and inhibits RCC growth and metastatic diffusion. In praja2 knockout mice, upregulation of RTKs levels associates with profound histopathological renal alterations. Our findings identify praja2 as a component of the endocytic pathway that supports receptor endocytosis and clearance. Downregulation of praja2 in RCC cells, thus, sustains RTK signaling and promotes kidney cancer growth and diffusion.

Project description:IPMN tumors are considered precancerous and starting from low grade dysplasia some of them develop IPMN associated or concomitant pancreatic cancer. The prognosis of IPMN is good if the tumor is operated before malignant transformation occurs. On the other hand, not nearly all IPMNs undergo malignant transformation during the patient’s life time. differences in proteins found in serum samples could provide a way to differentiate IPMNs with different states of dysplasia. The aim of our study was to compare the serum protein profiles in sera of patients with IPMN with low or high grade dysplasia, IPMN associated carcinoma and healthy controls. We have quantified 436 serum proteins with two or more unique peptides from 55 serum samples including 11 healthy controls. These proteomic dataset was analyzed with advanced multivariate statistical data analysis techniques to find the protein features which could be used as potential biomarkers of various grades of dysplasia as well as to differentiate dysplasia samples from pancreatic carcinoma.

Project description:Genome-wide SNP profilling for loss of heterozygosity (LOH) during FOXM1B-induced malignant transformation in a human premalignant oral keratinocyte line SVpgC2a. Keywords: oral cancer, keratinocytes, head and neck squamous cell carcinoma, FOXM1, genomic instability, SNP array, loss of heterozygosity, malignant transformation

Project description:Understanding gene expression changes during transformation from normal tissue to primary RCC and then to metastasis is important. Such analysis is pivotal for undertanding biology in renal cancer and also to unearth novel gene targets. Hence, we examined global transcriptome profile of normal renal tissue, primary RCC and metastasis RCC tumors, identifying important RCC biomarkers