FAVL elevation in human tumors disrupts Fanconi anemia pathway signaling and promotes genomic instability and tumor growth
Jun Zhang, … , Julian R. Molina, Peiwen Fei
Jun Zhang, … , Julian R. Molina, Peiwen Fei
Published April 19, 2010
Citation Information: J Clin Invest. 2010;120(5):1524-1534. https://doi.org/10.1172/JCI40908.
View: Text | PDF
Research Article Oncology

FAVL elevation in human tumors disrupts Fanconi anemia pathway signaling and promotes genomic instability and tumor growth

Abstract

Fanconi anemia (FA) is a rare human genetic disease caused by mutations in any one of 13 known genes that encode proteins functioning in one common signaling pathway, the FA pathway, or in unknown genes. One characteristic of FA is an extremely high incidence of cancer, indicating the importance of the FA pathway in tumor suppression. However, the role of this pathway in the development and progression of human cancers in individuals who do not have FA has not been clearly determined. Here, we report that elevated expression of what we believe to be a novel splice variant of FA complementation group L (FANCL), which we identified and named FAVL, can impair the FA pathway in non-FA human tumor cells and act as a tumor promoting factor. FAVL expression was elevated in half of the human carcinoma cell lines and carcinoma tissue samples tested. Expression of FAVL resulted in decreased FANCL expression by sequestering FANCL to the cytoplasm and enhancing its degradation. Importantly, this impairment of the FA pathway by FAVL elevation provided human cancer cells with a growth advantage, caused chromosomal instability in vitro, and promoted tumor development in a xenograft mouse model. These data indicate that FAVL impairment of the FA pathway likely contributes to the development of non-FA human cancers and therefore add a challenging layer of complexity to the pathogenesis of human cancer. We further believe that these data will prove useful for developing additional tools for fighting human cancer.

Authors

Jun Zhang, Deping Zhao, Hwan Ki Park, Hong Wang, Roy B. Dyer, Wanguo Liu, George G. Klee, Mark A. McNiven, Donald J. Tindall, Julian R. Molina, Peiwen Fei

×

Figure 4

FAVL impairment of the FA-BRCA pathway is attributed to a low level of FANCL, resulting from FAVL regulation at posttranslational level.

Options: View larger image (or click on image) Download as PowerPoint
FAVL impairment of the FA-BRCA pathway is attributed to a low level of F...
(A) The level of FANCL protein, not that of FANCM (data not shown) or FANCA, is low in cells expressing high levels of FAVL compared with A459 cells. (B) Downregulating FAVL enhances levels of FANCL protein but not those of FANCM (data not shown) or FANCA. (C) Levels of FANCL mRNA remain similar among cells expressing low and high levels of FAVL. The ethidium bromide intensity of the high band (indicating the expression level of FANCL mRNA) in each reaction appears to be similar, but the intensity for the low band (indicating the expression level of FAVL mRNA) is stronger in HT182, Hop62, and Calu-6 cells than in A549 cells. (D) FANCL protein can be clearly detected in Calu-6, HT182, and Hop62 cells after MG132 treatment. Total cell lysates were prepared from Calu-6, HT182, and Hop62 cells, treated with or without 10 μM MG132 for 20 hours. Levels of FANCL, FANCM, and FANCA protein were analyzed. FANCL protein level was increased clearly in cells treated with MG132 compared with control cells but not too much for FANCM protein (data not shown) or FANCA protein. Relative expression levels of FA proteins tested were generated using the level of gray intensity of Western bands, measured using the NIH ImageJ program. (A, B, and D) Relative fold level increase is shown for each protein.