We examined the postnatal development of putative Y cells in the dorsal lat
eral geniculate nucleus (dLGN) using the SMI-32 antibody, which has been de
monstrated in the adult cat to stain cells with Y cell morphology. At birth
, SMI-32 stained cells were concentrated in the interlaminar zones. During
postnatal development, the SMI-32 staining gradually becomes more disperse
and by P21 stained cells are found throughout the A and magnocellular C lam
inae. By the end of the first postnatal week, and in all later ages examine
d, the SMI-32 stained eel is were significantly larger than the overall pop
ulation of Nissl stained cells and interneurons (stained with an antibody a
gainst glutamic acid decarboxylase), Postnatal SMI-32 staining revealed a d
ramatic increase in soma sizes and the expansion of putative geniculate Y c
ell dendritic arbors that continued past the second postnatal month. in con
trast, the growth of interneurons appeared to be complete by 3-4 postnatal
weeks, at which time cell somas stained with SMI-32 have only reached a lit
tle over one half of their adult size. Similar to the adult cat, SMI-32 app
ears to selectively stain the Y cell population during development and may
provide a useful morphological marker to examine the participation of Y cel
ls in the developing postnatal circuitry of the dLGN. This further establis
hes the cat dLGN as a novel model system to study the normal function and p
athological reorganization of neurofilaments. (C) 2000 Published by Elsevie
r Science ireland Ltd.