Optimized Ex Vivo Differentiation of CD103 ⁺ Dendritic Cells and High-Efficiency Retroviral Transduction of Mouse Bone Marrow HSCs

Mukta Asnani
Jiekun Yang

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Abstract

CD103 ⁺ conventional dendritic cells (cDC1s) are key drivers of antitumor immunity, but their scarcity and resistance to genetic manipulation make them difficult to study. We optimized a two-stage ex vivo culture system using key cytokines and growth factors to efficiently generate CD103 ⁺ cDC1-like cells from mouse bone marrow progenitors. These cells closely mimicked their in-vivo counterparts, displaying CD103 expression, robust cytokine production, and functional responses to immune stimulation. Additionally, we established a high-efficiency retroviral transduction method using ecotropic pseudotyped virus and retronectin-coated plates, significantly improving gene delivery into mouse hematopoietic stem cells. This integrated platform provides a powerful approach for dissecting CD103 ⁺ cDC1 biology and advancing dendritic cell–based immunotherapy research.

Version published to 10.1101/2025.09.21.677651 on bioRxiv
Sep 23, 2025

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Optimized Ex Vivo Differentiation of CD103 ⁺ Dendritic Cells and High-Efficiency Retroviral Transduction of Mouse Bone Marrow HSCs

Discuss this preprint

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WS6 enables scalable ex vivo expansion and gene editing of human basal epithelial cells

Myeloid Specific Ablation of SHIP1 Boosts ex vivo Expansion and Regulatory Function of Myeloid-Derived Suppressor Cells in Inflammatory Arthritis

Inhibition of cGAS in dendritic cells suppresses maturation and prolongs allograft survival in mice

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WS6 enables scalable ex vivo expansion and gene editing of human basal epithelial cells

Myeloid Specific Ablation of SHIP1 Boosts ex vivo Expansion and Regulatory Function of Myeloid-Derived Suppressor Cells in Inflammatory Arthritis

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