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. 2025 Nov 1;36(11):ar141.
doi: 10.1091/mbc.E25-06-0301. Epub 2025 Sep 24.

Harnessing fusion of genome-edited human stem cells to rapidly screen for novel protein functions in vivo

Samantha L Smith  1 Yuichiro Iwamoto  1 Aadhithya Manimaran  1 David G Drubin  1
Affiliations

Harnessing fusion of genome-edited human stem cells to rapidly screen for novel protein functions in vivo

Samantha L Smith et al. Mol Biol Cell. .

Abstract

Genome editing has enabled the integration of fluorescent protein coding sequences into genomes, resulting in expression of in-frame fusion proteins under the control of their natural gene regulatory sequences. While this technique overcomes the well-documented artifacts associated with gene overexpression for biological processes sensitive to altered protein stoichiometry, such as clathrin-mediated endocytosis (CME), editing genomes of metazoan cells incurs a significant time cost compared with simpler organisms, such as yeast. Editing two or more genes to express multiple fluorescent fusion proteins in a single cell line has proven to be a powerful strategy for uncovering spatial dynamic, and therefore functional, relationships among different proteins, but it can take many months to edit each gene within the same cell line. Here, by utilizing cell fusions, we quickly generated cells expressing pairwise permutations of fluorescent fusion proteins in genome-edited human cells to reveal previously undetected protein-organelle interactions. We fused human induced pluripotent stem cells (hiPSCs) that express in-frame fusions of CME and actin cytoskeleton proteins with hiPSCs that express fluorescently tagged organelle markers, uncovering novel interactions between CME proteins, branched actin filament networks, and lysosomes.

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Conflict of interest statement

Conflict of interest: The authors declare no competing financial interests.

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