Ey. Eaker et Je. Sallustio, MYENTERIC PLEXUS NEURONS IN CULTURE - DEVELOPMENTAL-CHANGES IN NEUROFILAMENT AND RELATED PROTEINS, Digestive diseases and sciences, 43(2), 1998, pp. 270-278
Myenteric plexus neurons appear to have unique features in their expre
ssion of cytoskeletal proteins, In particular, neurofilaments have bee
n shown to be present in a subset of neurons, and the medium molecular
weight subunit of neurofilament is modified during the first week of
development. We utilized cultured myenteric plexus neurons to examine
if these changes could be reproduced outside of the intestinal wall. M
yenteric neurons from neonate rat small intestine were cultured using
a dissection and enzymatic dispersion technique previously described,
and cells were fixed after one day or seven days in culture. Antibodie
s to the neurofilament proteins, peripherin, alpha-internexin, nestin,
and microtubule-associated proteins tau and tubulin were studied. Sim
ilar to what was seen in tissues, cultured cells initially stained and
then lost staining for antibodies to one area of the carboxy terminal
region of neurofilament during the first week in culture, Peripherin
and alpha-internexin showed good staining both initially and after 7 d
ays in culture (differing from intact tissues), Developmental modifica
tions in immunoreactivity to neurofilament proteins in myenteric neuro
ns occur both in culture and in intact tissues. However, the intermedi
ate filament proteins peripherin and alpha-internexin immunolocalized
in cultured neuron cells differently than in intact tissues, Thus, fac
tors other than the intact intestinal wall appear to be responsible fo
r these unique cytoskeletal characteristics in myenteric plexus neuron
s.