Human intraepithelial mast cell differentiation and effector function are directed by TGF-β signaling
Tahereh Derakhshan, Eleanor Hollers, Alex Perniss, Tessa Ryan, Alanna McGill, Jonathan Hacker, Regan W. Bergmark, Neil Bhattacharyya, Stella E. Lee, Alice Z. Maxfield, Rachel E. Roditi, Lora Bankova, Kathleen M. Buchheit, Tanya M. Laidlaw, Joshua A. Boyce, Daniel F. Dwyer
Tahereh Derakhshan, Eleanor Hollers, Alex Perniss, Tessa Ryan, Alanna McGill, Jonathan Hacker, Regan W. Bergmark, Neil Bhattacharyya, Stella E. Lee, Alice Z. Maxfield, Rachel E. Roditi, Lora Bankova, Kathleen M. Buchheit, Tanya M. Laidlaw, Joshua A. Boyce, Daniel F. Dwyer
View: Text | PDF
Research Article Immunology

Human intraepithelial mast cell differentiation and effector function are directed by TGF-β signaling

Abstract

Mast cells (MCs) expressing a distinctive protease phenotype (MCTs) selectively expand within the epithelium of human mucosal tissues during type 2 (T2) inflammation. While MCTs are phenotypically distinct from subepithelial MCs (MCTCs), signals driving human MCT differentiation and this subset’s contribution to inflammation remain unexplored. Here, we have identified TGF-β as a key driver of the MCT transcriptome in nasal polyps. We found that short-term TGF-β signaling alters MC cell surface receptor expression and partially recapitulated the in vivo MCT transcriptome, while TGF-β signaling during MC differentiation upregulated a larger number of MCT-associated transcripts. TGF-β inhibited the hallmark MCTC proteases chymase and cathepsin G at both the transcript and protein level, allowing selective in vitro differentiation of MCTs for functional study. We identified discrete differences in effector phenotype between in vitro–derived MCTs and MCTCs, with MCTs exhibiting enhanced proinflammatory lipid mediator generation and a distinct cytokine, chemokine, and growth factor production profile in response to both innate and adaptive stimuli, recapitulating functional features of their tissue-associated counterpart MC subsets. Thus, our findings support a role for TGF-β in promoting human MCT differentiation and identified a discrete contribution of this cell type to T2 inflammation.

Authors

Tahereh Derakhshan, Eleanor Hollers, Alex Perniss, Tessa Ryan, Alanna McGill, Jonathan Hacker, Regan W. Bergmark, Neil Bhattacharyya, Stella E. Lee, Alice Z. Maxfield, Rachel E. Roditi, Lora Bankova, Kathleen M. Buchheit, Tanya M. Laidlaw, Joshua A. Boyce, Daniel F. Dwyer

×

Figure 5

TGF-β selectively reshapes MC proinflammatory cytokine, chemokine, and growth factor production following IgE crosslinking.

Options: View larger image (or click on image) Download as PowerPoint
TGF-β selectively reshapes MC proinflammatory cytokine, chemokine, and g...
(A) Row-normalized heatmap of differentially expressed genes associated with cytokine, chemokine, and growth factors across nasal polyp MC clusters. Columns show averaged expression by donor; scale bar denotes z score. FDR < 0.05, log2FoldChange > 0.5 (DESeq2). (B) Heatmap showing differentially expressed transcripts in TGF-β1–stimulated cells. Columns show individual donors; scale bars indicate log2FoldChange versus unstimulated controls. FDR < 0.05 (DESeq2) (C and D) Row-normalized average data of n = 6 individual donors showing protein secretion of cytokines, chemokines, and growth factors at 6 hours following anti-IgE activation by (C) PB-MCTCs versus PB-MCTs and (D) PB-MCTCs cultured with or without TGF-β1 for 6 days. (E and F) Row-normalized average data of n = 6 individual donors showing release of cytokines, chemokines, and growth factors at 6 hours after IL-33 stimulus by (E) PB-MCTCs versus PB-MCTs and (F) PB-MCTCs cultured with or without TGF-β1 for 6 days. Scale bars denote z score. *Padj < 0.05 between activated PB-MCT and PB-MCTC (ANOVA).