Abstract
Prostate cancer is the second most diagnosed cancer in men. It is a slow progressing cancer, but when the disease reaches an advanced stage, treatment options are limited. Sequencing analyses of cancer samples have identified genes that can potentially drive disease progression. We implemented the CRISPR/Cas9 technology to simultaneously manipulate multiple genes in the murine prostate and thus to functionally test putative cancer driver genes in vivo. The activating protein-1 (AP-1) transcription factor is associated with many different cancer types, with the proto-oncogenes JUN and FOS being the two most intensely studied subunits. We analyzed expression of FOS and JUNB in human prostate cancer datasets and observed decreased expression in advanced stages. By applying CRISPR/Cas9 technology, the role of these two transcription factors in prostate cancer progression was functionally tested. Our data revealed that loss of either JunB or Fos in the context of Pten loss drives prostate cancer progression to invasive disease. Furthermore, loss of Fos increases Jun expression, and CRISPR inactivation of Jun in this context decreases cell proliferation. Overall, these in vivo studies reveal that JunB and Fos exhibit a tumor suppressor function by repressing invasive disease, whereas Jun is oncogenic and increases cell proliferation. This demonstrates that AP-1 factors are implicated in prostate cancer progression at different stages and display a dual function as tumor suppressor and as an oncogene in cancer progression.
Highlights
Prostate cancer (PCa) is the second-most diagnosed cancer in men worldwide and numbers are expected to rise [1]
We applied the CRISPR/Cas9 technology to study gene alterations in the murine prostate www.oncotarget.com using orthotopic viral delivery of multiplexed sgRNAs, targeting multiple genes to evaluate their functions in PCa progression [11,12,13]
Loss of Fos increased cell proliferation and lead to an invasive tumor, whereas inactivation of Pten led to lesions that remained indolent and classified as high grade prostatic intraepithelial neoplasia (PIN) [11]
Summary
Prostate cancer (PCa) is the second-most diagnosed cancer in men worldwide and numbers are expected to rise [1]. We applied the CRISPR/Cas9 technology to study gene alterations in the murine prostate www.oncotarget.com using orthotopic viral delivery of multiplexed sgRNAs, targeting multiple genes to evaluate their functions in PCa progression [11,12,13]. We applied CRISPR-mediated gene editing to generate loss of function of Fos as well as JunB and Jun in PCa, in the context of one of the major PCa mutation Pten.
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