In vivo genome-wide CRISPR screening identifies CITED2 as a driver of prostate cancer bone metastasis.
Juan Martin ArriagaKacey Ronaldson-BouchardFlorencia PicechFrancisca Nunes de AlmeidaStephanie AfariHoussein ChhouriGordana Vunjak-NovakovicCory Abate-ShenPublished in: Oncogene (2024)
Most cancer deaths are due to metastatic dissemination to distant organs. Bone is the most frequently affected organ in metastatic prostate cancer and a major cause of prostate cancer deaths. Yet, our partial understanding of the molecular factors that drive bone metastasis has been a limiting factor for developing preventative and therapeutic strategies to improve patient survival and well-being. Although recent studies have uncovered molecular alterations that occur in prostate cancer metastasis, their functional relevance for bone metastasis is not well understood. Using genome-wide CRISPR activation and inhibition screens we have identified multiple drivers and suppressors of prostate cancer metastasis. Through functional validation, including an innovative organ-on-a-chip invasion platform for studying bone tropism, our study identifies the transcriptional modulator CITED2 as a novel driver of prostate cancer bone metastasis and uncovers multiple new potential molecular targets for bone metastatic disease.