Orchestrated response from heterogenous fibroblast subsets contributes to repair from surgery-induced stress after airway reconstruction
Jazmin Calyeca, Zakarie Hussein, Zheng Hong Tan, Lumei Liu, Sayali Dharmadhikari, Kimberly M. Shontz, Tatyana A. Vetter, Christopher K. Breuer, Susan D. Reynolds, Tendy Chiang
Jazmin Calyeca, Zakarie Hussein, Zheng Hong Tan, Lumei Liu, Sayali Dharmadhikari, Kimberly M. Shontz, Tatyana A. Vetter, Christopher K. Breuer, Susan D. Reynolds, Tendy Chiang
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Research Article Cell biology Transplantation

Orchestrated response from heterogenous fibroblast subsets contributes to repair from surgery-induced stress after airway reconstruction

Abstract

Surgery of the tracheobronchial tree carries high morbidity, with over half of the complications occurring at the anastomosis. Although fibroblasts are crucial in airway wound healing, the underlying cellular and molecular mechanisms in airway reconstruction remain unknown. We hypothesized that airway reconstruction initiates a surgery-induced stress (SIS) response, altering fibroblast communication within airway tissues. Using single-cell RNA-Seq, we analyzed native and reconstructed airways and identified 5 fibroblast subpopulations, each with distinct spatial distributions across anastomotic, submucosal, perichondrial, and paratracheal areas. During homeostasis, adventitial and airway fibroblasts (Adventitial-Fb and Airway-Fb, respectively) maintained tissue structure and created cellular niches by regulating ECM turnover. Under SIS, perichondrial fibroblasts (PC-Fb) exhibited chondroprogenitor-like gene signatures, and immune-recruiting fibroblasts (IR-Fb) facilitated cell infiltration. Cthrc1-activated fibroblasts (Cthrc1+ Fb), mainly derived from Adventitial-Fb, primarily contributed to fibrotic scar formation and collagen production, mediated by TGF-β. Furthermore, repeated SIS created an imbalance in fibroblast states favoring emergence of CTHRC1+ Fb and leading to impaired fibroblasts–basal cell crosstalk. Collectively, these data identify PC, IR, and Cthrc1+ Fb as a signaling hub, with SIS emerging as a mechanism initiating airway remodeling after reconstruction that, if not controlled, may lead to complications such as stenosis or anastomotic breakdown.

Authors

Jazmin Calyeca, Zakarie Hussein, Zheng Hong Tan, Lumei Liu, Sayali Dharmadhikari, Kimberly M. Shontz, Tatyana A. Vetter, Christopher K. Breuer, Susan D. Reynolds, Tendy Chiang

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Figure 6

CTHRC1+ collagen-producing Fb spatially localize at the sites of injury and has a distinct collagen production.

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CTHRC1+ collagen-producing Fb spatially localize at the sites of injury ...
(A) Cthrc1 expression plot on UMAP layout in normal airway and SIS at D14 and D28. (B) Heatmap showing the expression levels of genes from Collagens (Matrisome category) in each fibroblast cluster. Red indicates upregulation, and blue indicates downregulation. (C) Representative immunofluorescence staining showing the presence of fibroblasts (Vimentin+, red) and Cthrc1+ Fb (Vimentin+, red; CTHRC1+, green). (D) Quantification of individual Cthrc1+ Fb per mm2 (Vimentin+CTHRC1+ cells) per condition (Control, n = 4; D14, n = 4; D28, n = 5). (E) Violin plots showing higher Col1a1 and Col3a1 expression in Cthrc1+ Fb during homeostasis and D14 and D28 after reconstruction. (F) Spearman correlation analysis of collagen density and Cthrc1+ Fb numbers. (G) Representative immunofluorescence staining showing proliferation (Ki-67, white) of activated Cthrc1+ Fb (Vimentin+, red; CTHRC1+, green) and quantification of individual proliferative Cthrc1+ Fb per mm2 (Vimentin+CTHRC1+Ki-67+ cells) per condition (Control, n = 4; D14, n = 4; D28, n = 5). (H) Violin plots showing higher Pcna, Mki67, and Nasp expression in Cthrc1+ Fb during homeostasis and D14 and D28 after reconstruction. Data are shown as mean ± SD. Statistical analysis was performed using 1-way ANOVA with Dunnett’s multiple-comparison test. ***P <0. 001. Scale bars: 5 µm and 20 m as indicated.