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Journal Article
Research Support, Non-U.S. Gov't
Single-cell transcriptome profiling reveals the mechanism of abnormal proliferation of epithelial cells in congenital cystic adenomatoid malformation.
Experimental Cell Research 2020 November 16
OBJECTIVES: Congenital cystic adenomatoid malformation (CCAM) is the most common congenital pulmonary anomaly with unknown etiology. Here, single-cell RNA sequencing (scRNA-seq) was used to map its cellular landscape and identify the underlying cellular and molecular events related to CCAM.
METHODS: This study involved a 4.25 year old patient with grade Ⅱ-Ⅲ CCAM at the Children's Hospital of Fudan University. Samples of lesioned and non-lesioned areas were collected during surgery for scRNA-seq.
RESULTS: In total, 19,904 cells were obtained with median UMI counts of 7032 per cell and 1995 median genes per cell. In terms of lesioned and non-lesioned areas, epithelial cells accounted for 27.23% and 17.85%, respectively, while mesenchymal cells accounted for 2.67% and 16.06%, respectively (P < 0.0001). Further clustering of epithelial cells revealed that the fractions of alveolar type 1 cells (AT1, N: 23.65%; L: 49.81%), AT2(N: 2.02%; L: 5.26%), club-1(N: 9.02%; L: 17.57%), club-3(N: 1.18%; L: 4.15%), and basal cells (N: 0.34%; L: 2.93%) were increased in lesioned samples (P < 0.0001). Pseudotime trajectory analysis showed tracks of club-1/basal cells→AT2→club-3→AT1 and club-1,2/basal→AT2. Mast cells (N: 0.63%; L: 2.48%) were also increased in lesioned samples and interactions of CD44 with HBEGF and FGFR2 were detected between mast and epithelial cells.
CONCLUSIONS: AT1, AT2, club, and basal cells were increased in CCAM patients, and newly defined club-1/3 and basal cells might be the origin of proliferating AT1 and AT2 cells. Increased mast cells might promote epithelial cell proliferation through interactions of CD44 with HBEGF and FGFR2.
METHODS: This study involved a 4.25 year old patient with grade Ⅱ-Ⅲ CCAM at the Children's Hospital of Fudan University. Samples of lesioned and non-lesioned areas were collected during surgery for scRNA-seq.
RESULTS: In total, 19,904 cells were obtained with median UMI counts of 7032 per cell and 1995 median genes per cell. In terms of lesioned and non-lesioned areas, epithelial cells accounted for 27.23% and 17.85%, respectively, while mesenchymal cells accounted for 2.67% and 16.06%, respectively (P < 0.0001). Further clustering of epithelial cells revealed that the fractions of alveolar type 1 cells (AT1, N: 23.65%; L: 49.81%), AT2(N: 2.02%; L: 5.26%), club-1(N: 9.02%; L: 17.57%), club-3(N: 1.18%; L: 4.15%), and basal cells (N: 0.34%; L: 2.93%) were increased in lesioned samples (P < 0.0001). Pseudotime trajectory analysis showed tracks of club-1/basal cells→AT2→club-3→AT1 and club-1,2/basal→AT2. Mast cells (N: 0.63%; L: 2.48%) were also increased in lesioned samples and interactions of CD44 with HBEGF and FGFR2 were detected between mast and epithelial cells.
CONCLUSIONS: AT1, AT2, club, and basal cells were increased in CCAM patients, and newly defined club-1/3 and basal cells might be the origin of proliferating AT1 and AT2 cells. Increased mast cells might promote epithelial cell proliferation through interactions of CD44 with HBEGF and FGFR2.
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