# TGF-β and IL-4 + IL-13 induce neuroplasticity in an in vitro model of hPSC-derived sensory neurons

**Authors:** Carli S. Koster, I. Sophie T. Bos, Chiara Lavitola, Mihaly Balogh, Barbro N. Melgert, Reinoud Gosens

PMC · DOI: 10.3389/fimmu.2026.1705880 · Frontiers in Immunology · 2026-03-03

## TL;DR

The study shows that TGF-β and IL-4 + IL-13 can induce neuroplasticity in sensory neurons derived from human stem cells, offering a new model for studying inflammation-related changes in nerve function.

## Contribution

A novel in vitro model of hPSC-derived sensory neurons is developed and used to demonstrate cytokine-induced neuroplasticity.

## Key findings

- TGF-β and IL-4 + IL-13 both induce neuroplasticity in hPSC-derived sensory neurons.
- TGF-β induces stronger neuroplasticity than IL-4 + IL-13.
- The model neurons show increased network density and sensitivity after cytokine exposure.

## Abstract

Chronic type 2 inflammation is known to drive the neuroplasticity of both afferent and efferent vagal nerves innervating many organs. This results in increased neuronal density and sensitivity, possibly contributing to pathologies such as eczema and asthma. However, the mechanisms driving these neuronal changes, particularly in sensory pathways, remain poorly understood, and appropriate in vitro models for their study are lacking. Here, we describe the differentiation of sensory neurons from human pluripotent stem cells. The generation of sensory neurons was validated by verifying the expression of sensory neuron markers, such as β3-tubulin, PGP9.5, TRPV1, Nav1.8, and Piezo1/2, using immunofluorescence, flow cytometry, and RNA sequencing, as well as functional responsiveness to capsaicin using calcium imaging and spontaneous firing using a multi-electrode array. We exposed these hPSC-derived sensory neurons to TGF-β or type 2 cytokines IL-4 and IL-13, both of which play important roles in asthmatic airway remodeling. Both treatments induced neuroplasticity-related changes, such as increased network density and neuronal sensitivity in sensory neurons, albeit more strongly with TGF-β than with IL-4 + IL-13. Our results show robust and reproducible generation of functional hPSC-derived sensory neurons and their usability as a model to investigate the mechanisms underlying neuroplasticity. Furthermore, our findings support a role of TGF-β and type 2 cytokines in the development of neuroplasticity.

## Linked entities

- **Proteins:** TGFB1 (transforming growth factor beta 1), IL4 (interleukin 4), IL13 (interleukin 13), UCHL1 (ubiquitin C-terminal hydrolase L1), TRPV1 (transient receptor potential cation channel subfamily V member 1), SCN10A (sodium voltage-gated channel alpha subunit 10)
- **Chemicals:** capsaicin (PubChem CID 1548943)
- **Diseases:** eczema (MONDO:0004980), asthma (MONDO:0004979)

## Full-text entities

- **Genes:** TGFB1 (transforming growth factor beta 1) [NCBI Gene 7040] {aka CAEND1, CED, DPD1, IBDIMDE, LAP, TGF-beta1}, SCN10A (sodium voltage-gated channel alpha subunit 10) [NCBI Gene 6336] {aka FEPS2, Nav1.8, PN3, SNS}, UCHL1 (ubiquitin C-terminal hydrolase L1) [NCBI Gene 7345] {aka HEL-117, HEL-S-53, NDGOA, PARK5, PGP 9.5, PGP9.5}, IL4 (interleukin 4) [NCBI Gene 3565] {aka BCGF-1, BCGF1, BSF-1, BSF1, IL-4}, TRPV1 (transient receptor potential cation channel subfamily V member 1) [NCBI Gene 7442] {aka VR1}, IL13 (interleukin 13) [NCBI Gene 3596] {aka IL-13, P600}
- **Diseases:** asthmatic (MESH:D013224), Chronic type 2 inflammation (MESH:D007249), asthma (MESH:D001249), eczema (MESH:D004485)
- **Chemicals:** capsaicin (MESH:D002211), calcium (MESH:D002118)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12992014/full.md

## References

92 references — full list in the complete paper: https://tomesphere.com/paper/PMC12992014/full.md

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Source: https://tomesphere.com/paper/PMC12992014