Abstract Mutations in tumour suppressors and un-druggable oncogenes dominate the landscape of cancer driver genes. Only a minority of colon cancers have mutations in druggable cancer drivers, such as PIK3CA. Conversely, mutations in tumour suppressors such as APC and TP53 are frequent, as are mutations in the notoriously difficult to drug KRAS target. There is an urgent need for new therapeutics to target tumours driven by these mutations: immune checkpoint approaches are likely to only prove effective in the fraction of patients whose tumours bear high mutation loads, which is colon cancer may be restricted to the minority of mismatch repair deficient cancers. The concepts of non-oncogene addiction and synthetic lethality provide a conceptual framework for finding therapeutic targets in these cancers. We have used arrayed siRNA and pooled CRISPR-Cas9 libraries to screen a panel of isogenic and non-isogenic colon cancer cell lines under conditions designed to increase the cells dependency on oncogenic pathways. This panel contains cell lines with mutations in TP53, APC, KRAS, PIK3CA and/or FBXW7 for which we are aiming to identify co-dependencies that consistently segregate with genotype. Our screens have identified a number of novel targets for which reduced expression imposes specific fitness defects on cells with mutant PIK3CA, mutant TP53 or mutant FBXW7. Few of these targets were identified by both siRNA and CRISPR-Cas9 approaches. Furthermore, isogenic pairs of cell lines have not proved helpful for identifying synthetic lethal targets in the KRAS or PIK3CA genotypes. However, we believe the increased penetrance of the CRIPSR-Cas9 approach has uncovered novel candidate synthetic lethal genes that were not found by RNA interference. Although our current screens are not saturating, we have confirmed several previously reported genetic interactions including the requirements for expression of MDM2 in TP53 wild-type cancers and HK2 in colon cancer lines with KRAS mutations. The screens in the FBXW7 genotype were particularly interesting: in addition to identifying a potential synthetic lethal interaction with a target for which a drug has recently entered the clinic, we also found that FBXW7 itself seemed to be required in many of the colon cancers with FBXW7 mutations. This suggests that FBXW7 may sometimes act as an oncogene, rather than as a tumour suppressor in cancer initiation or progression. Finally, we have attempted to validate some of the candidate synthetic lethal genes identified by RNA interference via ultra-deep CRISPR-CAS9 pooled screening, extending the approach of the Vakoc lab (Nature Biotech. 33, 661-667, 2015). We can confirm this method can highlight functional domains of particular significance to a protein's function, but note that many-fold drop outs of sgRNAs can also occur where they target multiple sites in the genome, presumably via a DNA damage response. Citation Format: Jonathan D. Moore, Chantelle Hudson, Paul Russell, Gaganpreet Tiwana, David Walter, Ceri M. Wiggins, Joanne Yarker. Synthetic lethal CRISPR-Cas9 screen imply an oncogenic role for FBXW7 mutations in colon cancer [abstract]. In: Proceedings of the AACR Precision Medicine Series: Opportunities and Challenges of Exploiting Synthetic Lethality in Cancer; Jan 4-7, 2017; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Ther 2017;16(10 Suppl):Abstract nr A25.