Project description:Tumor heterogeneity resulting from clonal evolution is a frequent feature in clear cell renal cell carcinoma (ccRCC) and could play a role in metastatic dissemination. However, the dynamics of metastatic evolution is not completely elucidated and could follow a complex seeding process. Using a unique experimental design with a rare matched primary-metastatic case prior to any medical treatment, we retraced the lineage of metastatic clones that showed a complex, multiple, polyphyletic seeding of two functionally interdependent subclonal populations originating from the primary tumor, in the direction of all metastatic sites.

Project description:A complex seeding of multiple metastases in clear cell renal cell carcinoma

Project description:A complex seeding of multiple metastases in clear cell renal cell carcinoma (expression)

Project description:Tumor heterogeneity resulting from clonal evolution is a frequent feature in clear cell renal cell carcinoma (ccRCC) and could play a role in metastatic dissemination. However, the dynamics of metastatic evolution is not completely elucidated and could follow a complex seeding process. Using a unique experimental design with a rare matched primary-metastatic case prior to any medical treatment, we retraced the lineage of metastatic clones that showed a complex, multiple, polyphyletic seeding of two functionally interdependent subclonal populations originating from the primary tumor, in the direction of all metastatic sites.

Project description:The understanding of metastatic spread is limited and molecular mechanisms causing particular characteristics of metastasis, like varying dormancy periods of Mets originating from the same primary tumor entity or the differing number of Mets in patients with the same primary tumor, are largely unknown. Knowing the molecular fundamentals of these phenomena would support the prognosis of patients´ outcome and facilitate the decision for an appropriate therapy regime. We analyzed the transcriptome-wide expression profiles of 20 pulmonary metastases of renal cell carcinoma in order to identify expression patterns associated with two important prognostic factors in RCC: the disease-free interval after nephrectomy (DFI) and the number of Mets per patient. Keywords: comparison of pulmonary metastases from patients with different clinical characteristics metastases manifested early or late after nephrectomy (DFI less than or equal to 9 vs. greater than or equal to 60 months) metastases derived from patients with only few or multiple pulmonary metastases (less than or equal to 8 vs. greater than or equal to 16)

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:The understanding of metastatic spread is limited and molecular mechanisms causing particular characteristics of metastasis, like varying dormancy periods of Mets originating from the same primary tumor entity or the differing number of Mets in patients with the same primary tumor, are largely unknown. Knowing the molecular fundamentals of these phenomena would support the prognosis of patients´ outcome and facilitate the decision for an appropriate therapy regime. We analyzed the transcriptome-wide expression profiles of 20 pulmonary metastases of renal cell carcinoma in order to identify expression patterns associated with two important prognostic factors in RCC: the disease-free interval after nephrectomy (DFI) and the number of Mets per patient. Keywords: comparison of pulmonary metastases from patients with different clinical characteristics

Project description:In this study, we investigated CNAs of 20 primary clear cell renal cell caricinomas (ccRCCs), 20 corresponding metastases and another subsets of 30 primary ccRCCs by 44k oligonucleotide-based array comparative genomic hybridization (array CGH). 20 primary ccRCCs, 20 corresponding metastases and another subsets of 30 primary ccRCCs.

Project description:In this study, we investigated CNAs of 20 primary clear cell renal cell caricinomas (ccRCCs), 20 corresponding metastases and another subsets of 30 primary ccRCCs by 44k oligonucleotide-based array comparative genomic hybridization (array CGH).

Project description:Following the removal of implanted mammary tumors, nude mice develop multiple-organ metastases at late stage. The metastases may originate from the primary tumors before the resection surgery, or alternatively, from some established metastases. By multiple approaches, we have proved that bone environment could invigorate cancer cells for further dissemination. this study aims to examine if metastatic dissemination from bone to other sites occurs in natural setting of metastatic spread. We herein apply the rapidly evolving barcode system using homing guide RNA/Cas9 to trace the metastases formation in mouse. hgRNA/Cas9 is a self-targeting Crispr system which allows the mutation occurs in the DNA sequence of guide RNA. Tumor cells wer labelled with doxycycline inducible evolving barcoding system. Upon doxycycline treatment the DNA sequence of hgRNA accumulate mutations with time. The diversity of barcodes in each lesion can infer the timeing of seeding while the mutation patterns of barcodes suggest the phylogenetic correlation of metastases. Several findings were made on this study. First, at the terminal stage, multi-organ metastases are not genetically grouped according to sites of metastases. Nonnegative Matrix Factorization (NMF) analysis of mutant barcodes suggested the early disseminated metastases, which have highest level of Shannon entropy, were featured with a common cluster of mutant barcodes irrespective of their locations. Second, most metastases are potentially multiclonal as indicated by multiple clusters of independent mutant barcodes. Third, when we use Shannon entropy as an index of metastasis age , putative parent-child relationship between metastases with unique mutant barcodes clearly exemplified secondary metastatic seeding from bone to other organs. Finally, we did not observe a clear correlation between tumor burden and Shannon entropy across different metastases, suggesting that putative parental metastases might remain small after seeding further metastases.