Abstract

Nerve terminals of primary sensory neurons are influenced by their environment through target derived trophic factors, like nerve growth factor (NGF) or glial cell line-derived neurotrophic factor (GDNF). In mice, subpopulations of DRG neurons express receptors either for NGF or GDNF and therefore differentially respond to these neurotrophic factors. We probed neurite endings from porcine DRG neurons cultured in either NGF or GDNF and examined their shape, elongation and stimulus-evoked CGRP release. A compartmentalized culture system was employed allowing spatial separation of outgrown neurites from their somata and use of different growth factors in the compartments. We show that neurites of GDNF cultured somata extend into lateral compartments without added growth factor, unlike neurites of NGF cultured ones. Neurites of NGF cultured somata extend not only into NGF- but also into GDNF-containing compartments. GDNF at the site of terminals of NGF responsive somata led to a strong neurite arborization and formation of large growth cones, compared to neurites in medium with NGF. Functionally, we could detect evoked CGRP release from as few as 7 outgrown neurites per compartment and calculated release per mm neurite length. CGRP release was detected both in neurites from NGF and GDNF cultured somata, suggesting that also the latter ones are peptidergic in pig. When neurites of NGF cultured somata were grown in GDNF, capsaicin evoked a lower CGRP release than high potassium, compared to those grown in NGF. Our experiments demonstrate that the compartmented culture chamber can be a suitable model to assess neurite properties from trophic factor specific primary sensory neurons. With this model, insights into mechanisms of gain or loss of function of specific nociceptive neurites may be achieved.

Highlights

  • Peripheral endings of dorsal root ganglion (DRG) neurons respond to appropriate stimuli, but are influenced by target derived growth factors

  • The morphology of outgrown neurite endings of cultured porcine DRG neurons is affected by growth factors

  • It is well known that neurites from nerve growth factor (NGF)-cultured somata are predominantly capsaicin sensitive nociceptors. We focused on this population of somata and questioned whether their neurites cultured in NGF or glial cell line-derived neurotrophic factor (GDNF) differ in capsaicin-evoked calcitonin gene-related peptide (CGRP) release

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Summary

Introduction

Peripheral endings of dorsal root ganglion (DRG) neurons respond to appropriate stimuli, but are influenced by target derived growth factors. The nerve endings are accompanied by Schwann cells, the glia cells of the peripheral nervous system All these cells can secrete a variety of growth factors, like nerve growth factor (NGF), a member of the neurotrophic factor family, or glial cell-line derived factor (GDNF), a member of the transforming growth factor ß superfamily [1,2]. Multiple functions of these growth factors during neuronal development are well established, like survival, neurite outgrowth, and pathfinding [3]. They are potent regulators of nociceptive transcriptional functions of DRG neurons such as expression of various pain-related molecules like calcitonin gene-related peptide (CGRP) and the transient receptor potential vanilloid 1 (TRPV1) [7,8]

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