New Insights Into the Mechanism of COP9 Signalosome-Cullin-RING Ubiquitin-Ligase Pathway Deregulation in Urological Cancers.

Urological cancers are a very common type of cancer worldwide and have alarming high incidence and mortality rates, especially in kidney cancers, illustrate the urgent need for new therapeutic targets. Recent publications point to a deregulated COP9 signalosome (CSN)-cullin-RING ubiquitin-ligase (CRL) pathway which is here considered and investigated as potential target in urological cancers with strong focus on renal cell carcinomas (RCC). The CSN forms supercomplexes with CRLs in order to preserve protein homeostasis and was found deregulated in several cancer types. Examination of selected CSN-CRL pathway components in RCC patient samples and four RCC cell lines revealed an interesting deregulated p27(Kip1)-Skp2-CAND1 axis and two p27(Kip1) point mutations in 786-O cells; p27(Kip1)V109G and p27(Kip1)I119T. The p27(Kip1) mutants were detected in patients with RCC and appear to be responsible for an accelerated growth rate in 786-O cells. The occurrence of p27(Kip1)V109G and p27(Kip1)I119T in RCC makes the CSN-CRL pathway an attractive therapeutic target.

Integrated microRNA and mRNA Signature Associated with the Transition from the Locally Confined to the Metastasized Clear Cell Renal Cell Carcinoma Exemplified by miR-146-5p.

BACKGROUND: MicroRNAs (miRNAs) regulate gene expression by interfering translation or stability of target transcripts. This interplay between miRNA and their mRNA has been proposed as an important process in cancer development and progression. We have investigated molecular networks impacted by predicted mRNA targets of differentially expressed miRNAs in patients with clear cell renal cell carcinoma (ccRCC) diagnosed with or without metastasis. MATERIAL AND METHODS: miRNA and mRNA microarray expression profiles derived from primary ccRCC from patients with (16 samples) or without diagnosed metastasis (22 samples) were used to identify anti-correlated miRNA-mRNA interaction in ccRCC. For this purpose, Ingenuity pathway analysis microRNA Target Filter, which enables prioritization of experimentally validated and predicted mRNA targets was used. By applying an expression pairing tool, the analysis was focused on targets exhibiting altered expression in our analysis, finding miRNAs and their target genes with opposite or same expression. The resulting identified interactions were revalidated by RT-qPCR in another cohort of ccRCC patients. A selection of the predicted miRNA-mRNA interactions was tested by functional analyses using miRNA knockdown and overexpression experiments in renal cancer cell lines. RESULTS: Among the significantly differentially expressed miRNAs, we have identified three miRNAs (miR-146a-5p, miR-128a-3p, and miR-17-5p) that were upregulated in primary tumors from patients without metastasis and downregulated in primary tumors from patients with metastasis. We have further identified mRNA targets, which expression were inversely correlated to these 3 miRNAs, and have been previously experimentally demonstrated in cancer setting in humans. Specifically, we showed that CXCL8/IL8, UHRF1, MCM10, and CDKN3 were downregulated and targeted by miR-146a-5p. The interaction between miR-146a-5p and their targets CXCL8 and UHRF1 was validated in cell culture experiments. CONCLUSIONS: We identified novel target genes of dysregulated miRNAs, which are involved in the transition from primary RCC without metastases into tumors generating distant metastasis.

Deregulation of the COP9 signalosome-cullin-RING ubiquitin-ligase pathway: mechanisms and roles in urological cancers.

The COP9 signalosome (CSN)-cullin-RING ubiquitin (Ub)-ligase (CRL) pathway is a prominent segment of the Ub proteasome system (UPS). It specifically ubiquitinates proteins and targets them for proteolytic elimination. As part of the UPS it maintains essential cellular processes including cell cycle progression, DNA repair, antigen processing and signal transduction. The CSN-CRL pathway consists of the CSN possessing eight subunits (CSN1-CSN8) and one CRL consisting of a cullin, a RING-domain protein and a substrate recognition subunit (SRS). In human cells approximately 250 CRLs exist each of which interacting with a specific set of substrates and the CSN. The CSN-CRL interplay determines the activity and specificity of CRL ubiquitination. The removal of the Ub-like protein Nedd8 from the CRL component cullin by the CSN (deneddylation) reduces the ubiquitinating activity and at the same time enables reassembly of CRLs in order to adapt to substrate specificity requirements. On the other hand, CRLs as well as substrates negatively influence the deneddylating activity of the CSN. In recent years evidence accumulated that deregulation of the CSN-CRL pathway can cause cancer. Here we review current knowledge on modifications of CSN and CRL components including CSN subunits, SRSs and cullins causing tumorigenesis with emphasis on urological neoplasia. The CSN-CRL pathway is a target of tumor-viruses as well as of a multitude of miRNAs. Recently evaluated miRNAs altered in urological cancers might have impact on the CSN-CRL pathway which has to be analyzed in future experiments. We propose that the pathway is a suitable target for future tumor therapy.