Neurotrophin-4 dependency of intraepithelial vagal sensory nerve terminals that selectively contact pulmonary NEBs in mice

• Autores: Fusun Oztay, Inge Brouns, Isabel Pintelon, Marion Raab, W. Neuhuber, Jean-Pierre Timmermans, Dirk Adriaensen
• Localización: Histology and histopathology: cellular and molecular biology, ISSN-e 1699-5848, ISSN 0213-3911, Vol. 25, Nº. 8, 2010, págs. 975-984
• Idioma: inglés
• Enlaces
  • Texto completo
• Resumen

  • Important physiological functions of neurotrophins (NTs) in airways and lungs are the early development, differentiation and maintenance of peripheral sensory neurons. The main pulmonary sensory innervation is of vagal origin, with several nerve fibre populations that selectively contact complex morphologically well-characterized receptor end-organs, called neuroepithelial bodies (NEBs). NEBs in mouse lungs are innervated by at least two separated muyelinated vagal sensory nerve fibre populations, of which the neurochemical coding is suggestive of a mechanosensory funstion. Since neurotrophin-4 (NT-4) has been especially described to be important for the maintenance of mechanosensory nerve terminals, the present study aimed at investigating the NT-4 dependency of the two myelinated vagal sensory nerve fibre populations innervating mouse pulmonary NEBs.

    Multiple immunostaining in 21-day-old and adult mouse lungs revealed the expression of the NT-4 receptor TrkB on the two different myelinated vagal sensory nerve fibre populations, i. e., the vesicular glutamate transportes/calbindin-positive and the P2X2/3- positive fibres, which selectively contact pulmonary NEBs.

    Examination of the effect of the lack of NT-4 on these NEB-related nerve fibre populations, by comparing adult NT-4 and wild-type mice, revealed that in NT-4 mice the percentage of NEBs contacted by P2X2/3 is reduced by 75% while the VGLUT+/CB+ pupulation seemed to be unaffected.

    This study demonstrated that although mouse pulmonary NEBs are contacted by two distinct TrkB expressing populations of vagal myelinated afferents, only one is distinctly reduced in NT-4 deficient mice, suggesting the involvement of NTs. In view of the growing evidence for the involvement of NTs in neuronal plasticity associated with airway diseases, pulmonary NEBs innervated by NT-sensitive vagal afferents may play a significant role.