Project description:An analysis of the biphasic epithelioid (E-) and sarcomatoid(S-) components of sarcomatoid RCC and advanced stage non-sarcomatoid RCC (E*) showed that: the E- and S- components shared a similar transcriptomic signature, despite morphologic differences; and that the transcriptome of sarcomatoid RCC was sharply distinct from non-sarcomatoid RCC. The E- and R- components of rhabdoid RCC were also transcriptomically similar but distinct from RCC lacking rhabdoid/sarcomatoid features (E*). Total RNA processed and spotted on Illumina microarrays from the following patient samples: 38 sarcomatoid RCC (37 paired E- and S and 1 unpaired S-), 4 rhabdoid RCC (paired E- and R-) and 56 non-sarcomatoid RCC. There are 8 replicate samples (7 sarcomatoid RCC and 1 rhabdoid RCC).
Project description:The biphasic epithelioid (E-) and sarcomatoid(S-) components of sarcomatoid RCC and epithelioid (E-) and rhabdoid (R-) components of rhabdoid RCC shared a similar transcriptomic signature, despite morphologic differences; by contrast, the transcriptome of sarcomatoid and rhabdoid RCC was sharply distinct from non-sarcomatoid RCC. Total RNA was processed for RNA-seq from the following patient samples: 7 sarcomatoid RCC (E- and S- pairs), 4 rhabdoid RCC (E- and R- pairs) and 15 non-sarcomatoid RCC.
Project description:The genome wide DNA copy number profiles of the biphasic epithelioid (E-) and sarcomatoid (S-) components of sarcomatoid clear cell renal cell carcinoma were analyzed using SNP arrays. The E- and S- components showed a similar DNA copy number profile, despite morphologic differences.
Project description:An analysis of the biphasic epithelioid (E-) and sarcomatoid(S-) components of sarcomatoid RCC and advanced stage non-sarcomatoid RCC (E*) showed that: the E- and S- components shared a similar transcriptomic signature, despite morphologic differences; and that the transcriptome of sarcomatoid RCC was sharply distinct from non-sarcomatoid RCC. The E- and R- components of rhabdoid RCC were also transcriptomically similar but distinct from RCC lacking rhabdoid/sarcomatoid features (E*).
Project description:The biphasic epithelioid (E-) and sarcomatoid(S-) components of sarcomatoid RCC and epithelioid (E-) and rhabdoid (R-) components of rhabdoid RCC shared a similar transcriptomic signature, despite morphologic differences; by contrast, the transcriptome of sarcomatoid and rhabdoid RCC was sharply distinct from non-sarcomatoid RCC.
Project description:We performed a transcriptomic analysis in a cohort of 6 Collecting Duct Carcinoma, 5 Clear Cell Renal Cell Carcinoma and 4 non-matched normal renal tissues to unravel the underlying biological and molecular determinants and to identifiy specific genes and pathways of this rare tumor type.
Project description:Multi-Omics analysis to gain novel insights into clear cell renal carcinoma aetiology and progression. The DNA methylation data of 121 clear clear renal carcinoma (ccRCC) were integrated with WGS and transcriptomic data using Multi-Omics Factor Analysis (MOFA) to detect the inter-patient variations related to aetiological and disease progression related factors.
