Abstract Ba/F3 is a murine pro-B cell line that is dependent on interleukin-3 (IL-3) for its survival and proliferation. It has been widely used for identifying oncogenes and mechanisms of drug-resistance. Using this cell line, we conducted a genome-wide CRISPR knockout screen to identify genes whose loss can confer IL-3 independence, hence may be implied as tumor suppressor genes (TSGs). We identified several genes that map to human chromosome 6q, a frequent deletion hotspot in B-cell malignancies, that may act as TSGs. One of these putative novel TSGs is Slc35a1, which encodes the membrane solute carrier that facilitates the transport of nucleotide sugar (CMP-sialic acid) into the Golgi apparatus for subsequent sialylation. Interestingly, in addition to Slc35a1, pathway analysis of hits from the CRISPR screen identified several genes in the sialic acid metabolism pathway, Nans, Cmas, and St3gal5. We confirmed that their silencing led to decreased protein sialyation and could confer IL-3-independent cell survival and growth in Ba/F3 cells. We continued to characterize Slc35a1 since its homozygous and heterozygous deletions are seen in 7-40% of different types of B-cell malignancies, including approximately 40% of patients with Diffuse Large B-cell Lymphoma. Slc35a1 deletion in murine and human cell-lines conferred cytokine-independent growth. Tail-vein injection of Slc35a1-silenced Ba/F3 cells resulted in allograft tumor growth presenting with splenomegaly and lymphadenopathy. Using Maackia amurensis lectin II (MAL II) to pull down sialylated proteins for mass spectrometry, we identified proteins that were differentially sialylated in Slc35a1 wild-type and knockout cells, among which are the α and β subunits of the integrin receptor, lymphocyte functional antigen 1 (LFA-1). As integrin desialylation can promote its constitutive activation, we are currently studying the impact of LFA-1 sialylation on B-cell function and transformation. We have also developed mouse models with B-cell specific ablation of Nans and Slc35a1 to further evaluate the role of sialylation on B-cell development and tumorigenesis in vivo. Overall, our study demonstrates that sialylation may function as a tumor suppressive mechanism and serve as a therapeutic target in B-cell cancers. Citation Format: Namratha Sheshadri, Rongrong Li, Muhammad Usama Tariq, Jianliang Shen, Jaeyong Jung, Junrong Yan, Kevin Lu, Zhiyuan Shen, Ping Xie, Wei-Xing Zong. Genome-wide CRISPR knockout screen identifies sialylation as a tumor suppressive mechanism in B-cell malignancies [abstract]. In: Proceedings of the Fourth AACR International Meeting on Advances in Malignant Lymphoma: Maximizing the Basic-Translational Interface for Clinical Application; 2024 Jun 19-22; Philadelphia, PA. Philadelphia (PA): AACR; Blood Cancer Discov 2024;5(3_Suppl):Abstract nr PO-035.
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