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AuthorOuhtit A.
AuthorGupta I.
AuthorGaur R.L.
AuthorFernando A.
AuthorAbd El-Azim A.O.
AuthorEid A.
AuthorBecker T.M.
Available date2023-02-13T10:51:13Z
Publication Date2020
Publication NameFrontiers in Bioscience - Elite
ResourceScopus
URIhttp://dx.doi.org/10.2741/E868
URIhttp://hdl.handle.net/10576/40020
AbstractWe have previously characterized the role of p16/Rb in coordinating the early events in UVB-irradiated skin. As an extension to this work, normal melanocytes and mutant p16-inducible melanoma cell models were employed to elucidate further the coordinated molecular mechanisms occurring during early UVB exposure. Our results showed that melanocytes expressed p16 only at a high UVB dose, with undetectable p53. The Bax/Bcl2 ratio increased at higher dose, indicating that the cells had selected apoptosis program. In the wt-p16 melanoma cells, while low UVB dose upregulated p16, the high dose suppressed it, and further abrogated Cdk6 but not Cdk4. Interestingly, while induction of mutant-p16 increased Cdk4, cdk6 and pRb proteins, UVB exposure did not affect this increase. More interestingly, p16 mutant cells increased their resistance to apoptosis at high UVB-dose, associated with decreased Bax and increased Bcl2 expression. Thus, mutant-p16 appears to dictate a deregulation of cell cycle and increased resistance to apoptosis in melanoma cells. Together, the data indicate a deregulation of p16INK4/Rb pathway as an early event in UVB-induced melanomagenesis. 2020 Frontiers in Bioscience. All rights reserved.
SponsorQatar UniversityThe authors have no conflict of interest. This work was supported by the following Qatar University grants, grant numbers: QUUG-CAS-DBES-15/16-22, QUST-CAS-SPR-15/16-14, QUST-2-CAS-2017-16, and QUST-1-CAS-2019-2. Finally, publication fees were covered by the Qatar National Library (QNL). We would like to thank Dr. Zakaria Abdelmageed for his assistance with Flow cytometry analysis.The authors have no conflict of interest. This work was supported by the following Qatar University grants, grant numbers: QUUG-CASDBES-15/16-22, QUST-CAS-SPR-15/16-14, QUST-2-CAS-2017-16, and QUST-1-CAS-2019-2. Finally, publication fees were covered by the Qatar National Library (QNL). We would like to thank Dr. Zakaria Abdelmageed for his assistance with Flow cytometry analysis.
Languageen
PublisherFrontiers in Bioscience
SubjectApoptosis
Cell cycle
Melanoma
P16INK4a/Rb pathway
UVB irradiation
TitleDeregulation of cell growth and apoptosis in UV-induced melanomagenesis
TypeArticle Review
Pagination223-236
Issue Number2
Volume Number12
dc.accessType Open Access


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