COP9 signalosome subunit 6 binds and inhibits avian leukosis virus integrase

The Emerging Role of CSN6 in Biological Behavior and Cancer Progress

BACKGROUND

The Constitutive Photomorphogenesis 9 (COP9) signalosome (CSN) subunit 6 (CSN6) noticeably acts as a regulator of the degradation of cancer-related proteins, which contributes to cancerogenesis. The aims of this paper are to expound the research advances of CSN6, particularly focusing on roles of CSN6 in the regulation of biological behavior and cancer progress.

METHODS

Literature from PubMed and Web of Science databases about biological characteristics and application of CSN6 published in recent years was collected to conduct a review.

RESULTS

CSN6, not only the non-catalytic Mpr1p and Pad1p N-terminal (MPN) subunit of CSN, but also a relatively independent protein molecule, has received great attention as a regulator of a wide range of developmental processes by taking part in the ubiquitin-proteasome system and signal transduction, as well as regulating genome integrity and DNA damage response. In addition, phosphorylation of CSN6 increases the stability of CSN6, thereby promoting its regulatory capacity. Moreover, CSN6 is overexpressed in many types of cancer compared with normal tissues and is involved in the regulation of several important intracellular pathways, consisting of cell proliferation, migration, invasion, transformation, and tumorigenesis.

CONCLUSION

We mainly present insights into the function and research development of CSN6, hoping that it can help guide the treatment of developmental defects and improve clinical care, especially in the regulation of cancer signaling pathways.

CSN6: a promising target for cancer prevention and therapy

CSN6 has recently received increased attention as a multifunctional protein involved in protein stability. CSN6 plays an important role in controlling cellular proliferation, apoptosis and metastasis, modulating signal transduction, as well as regulating DNA damage and repair. Most studies have demonstrated that CSN6 is significantly upregulated in human malignant tumors such as cervical cancer, papillary thyroid cancer, colorectal cancer, breast cancer, lung adenocarcinoma, and glioblastoma, and its expression is usually correlated with poor prognosis. In this review, we summarize recent available findings regarding the oncogenic role of CSN6 in tumors, and provide a better understanding of CSN6 function at the molecular level and its potential therapeutic implications in combating human cancers.

Ubiquitination of non-lysine residues in the retroviral integrase

Retroviral integrase catalyzes the integration of retroviral genome into host chromosomal DNA, which is a prerequisite of effective viral replication and infection. The human immunodeficiency virus type 1 (HIV-1) integrase has previously been reported to be regulated by the ubiquitination, but the molecular characterization of integrase ubiquitination is still unclear. In this study, we analyzed the ubiquitination of avian leukosis virus (ALV) integrase in detail. The ubiquitination assay showed that, like HIV-1, ALV integrase could also be modified by ubiquitination when expressed in 293 T and DF-1 cells. Domain mapping analysis revealed that the ubiquitination of ALV integrase might mainly occurred in the catalytic core and the N-terminal zinc-binding domains. Both lysine and non-lysine residues within integrase of ALV and HIV-1 were responsible for the ubiquitin conjugation, and the N-terminal HHCC zinc-binding motif might play an important role in mediating integrase ubiquitination. Interestingly, mass spectrometry analysis identified the Thr10 and Cys37 residues in the HHCC zinc-binding motif as the ubiquitination sites, indicating that ubiquitin may be conjugated to ALV integrase through direct interaction with the non-lysine residues. These findings revealed the detailed features of retroviral integrase ubiquitination and found a novel mechanism of ubiquitination mediated by the non-lysine residues within the N-terminal zinc-binding domain of integrase.