Gaining insight into the molecular mechanisms behind squamous cell cancer

Gaining insight into the molecular mechanisms behind squamous cell cancer
Hypothetical model of NUP62 action in regulating cell fate.* Rho-associated protein kinase (ROCK)A kinase (that is, an enzyme that catalyzes the transfer of phosphate groups) involved in regulating the shape and movement of cells by acting on the cytoskeleton. Credit: Kanazawa University

Researchers at Kanazawa University report in EMBO Reports about a new molecular mechanism regulating cellular fate of squamous cell carcinomas. Squamous cell carcinoma (SCC) is a lethal cancer arising from the stratified epithelia of skin, esophagus, cervix, and head and neck tissues. Genomic analysis of SCCs identified genomic amplification of TP63 in up to 30 percent of tumors, with overexpression of its mRNA in the majority of SCCs.

One of the proteins encoded by TP63, called ΔNp63α, has an important role in epithelial development and maintenance. In SCCs, ΔNp63α functions as a key transcriptional regulator of different gene subsets in order to maintain or enhance malignant phenotypes. However, the mechanism controlling the of this protein, were, up to now, unclear.

Nucleoporins (NUPs) are a family of proteins building (NPC) and mediating nuclear across the nuclear envelope. Recent evidence suggests a cell-type-specific function for certain NUPs; however, the significance of NUPs in SCC biology remains unknown.

In the present study, Hazawa et al. show that one particular nucleoporin, nucleoporin 62 (NUP62), is highly expressed in stratified squamous epithelia, and is further elevated in SCCs. They further demonstrate that depletion of NUP62 inhibits proliferation and augments differentiation of SCC cells, suggesting NUP62 is required for preventing epidermal differentiation of SCCs. The impaired ability to maintain the undifferentiated status is associated with defects in ΔNp63α nuclear transport. Finally, they unmasked the detailed traffic machinery where the pro-differentiation Rho kinase (an enzyme that catalyzes the transfer of phosphate groups) inhibits the nuclear transport of ΔNp63α by reducing the interaction between NUP62 and ΔNp63α.

This study demonstrates the role of NUP62 regulating cellular fate of SCCs through ΔNp63α nuclear transport. However, whether these NUPs regulates cell identity in different tissues (or in other types of cancer ) is still an open question. As the authors comment in the paper: "Our finding of convertible trafficking activity of NUP62 highlights the potential for therapeutic targeting of nuclear transport of this oncogene."


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More information: Masaharu Hazawa et al, ROCK‐dependent phosphorylation of NUP62 regulates p63 nuclear transport and squamous cell carcinoma proliferation, EMBO reports (2017). DOI: 10.15252/embr.201744523
Journal information: EMBO Reports

Citation: Gaining insight into the molecular mechanisms behind squamous cell cancer (2017, December 19) retrieved 29 October 2020 from https://medicalxpress.com/news/2017-12-gaining-insight-molecular-mechanisms-squamous.html
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