Retinoic acid signaling is essential for airway smooth muscle homeostasis
Felicia Chen, … , Ramaswamy Krishnan, Alan Fine
Felicia Chen, … , Ramaswamy Krishnan, Alan Fine
Published August 23, 2018
Citation Information: JCI Insight. 2018;3(16):e120398. https://doi.org/10.1172/jci.insight.120398.
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Research Article Pulmonology

Retinoic acid signaling is essential for airway smooth muscle homeostasis

Abstract

Airway smooth muscle (ASM) is a dynamic and complex tissue involved in regulation of bronchomotor tone, but the molecular events essential for the maintenance of ASM homeostasis are not well understood. Observational and genome-wide association studies in humans have linked airway function to the nutritional status of vitamin A and its bioactive metabolite retinoic acid (RA). Here, we provide evidence that ongoing RA signaling is critical for the regulation of adult ASM phenotype. By using dietary, pharmacologic, and genetic models in mice and humans, we show that (a) RA signaling is active in adult ASM in the normal lung, (b) RA-deficient ASM cells are hypertrophic, hypercontractile, profibrotic, but not hyperproliferative, (c) TGF-β signaling, known to cause ASM hypertrophy and airway fibrosis in human obstructive lung diseases, is hyperactivated in RA-deficient ASM, (d) pharmacologic and genetic inhibition of the TGF-β activity in ASM prevents the development of the aberrant phenotype induced by RA deficiency, and (e) the consequences of transient RA deficiency in ASM are long-lasting. These results indicate that RA signaling actively maintains adult ASM homeostasis, and disruption of RA signaling leads to aberrant ASM phenotypes similar to those seen in human chronic airway diseases such as asthma.

Authors

Felicia Chen, Fengzhi Shao, Anne Hinds, Sean Yao, Sumati Ram-Mohan, Timothy A. Norman, Ramaswamy Krishnan, Alan Fine

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Figure 7

Consequences of RA deficiency in ASM are long-lasting despite restoration of RA activity.

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Consequences of RA deficiency in ASM are long-lasting despite restoratio...
(A) Diagram of the experimental design. Adult mice were given 5 days of CTR and BMS diet followed by 28 days of vitamin A–sufficient diet (CTR-28R and BMS-28R, respectively). (B) mASM sorted from Acta2-hrGFP;Cspg4-DsRED;RARE-lacZ lungs shows a persistent increase in Myh11 and Col1a2 expression in BMS-28R mASM compared with CTR-28R, though RA activity, as demonstrated by the level of RARE-lacZ (lacZ) expression, is not different between CTR-28R and BMS-28R lungs (n = 6 per group). (C) Airway responsiveness in BMS-28R mice (right panel) is better compared with BMS mice (left panel), but airway resistance (Res) remains significantly higher with methacholine (MeCh) challenge compared with that of the CTR-28R mice, indicating residual AHR despite restoration of RA activity (n = 9 per group). Scale bar: 10 μm. (D and E) Immunostaining of p-SMAD2 and α-SMA showing persistent p-SMAD2 signals in BMS-28R ASM despite 28-day washout period (yellow arrows) (n = 3 per group). Data represent the mean ± SEM (B) or mean ± range (C). Student’s t test was used to calculate P values in B. Two-way ANOVA was used to compare the curves in C. *P < 0.05, n.s., P ≥ 0.05.