Cholinergic neuronal differentiation factor/leukemia inhibitory factor (CDF/LIF) is a multifunctional cytokine that affects neurons as well as many other cell types. Toward elucidating its neural functions in vivo, we previously investigated the distribution of CDF/LIF binding sites with iodinated native CDF/LIF in embryonic to postnatal day 0 (P0) rats. In the present study, we have extended our examination to postnatal ages and find that specific CDF/LIF binding sites are present at defined developmental stages in additional brain regions not previously exhibiting binding by P0. High levels of binding are detected in all P7 sensory and autonomic ganglia examined, but only in restricted postnatal central nervous system structures. Cranial motor and mesencephalic trigeminal neurons maintain high levels throughout, while binding to spinal motor neurons, which decreases to low levels at P0, reappears by P14 and increases with age. Most other structures, which show detectable binding by P0, exhibit higher levels at postnatal ages, including the red, deep, ventral cochlear, trapezoid, superior olivary, vestibular, ventral tegmental, and ventral posterior thalamic nuclei as well as the glomerular layer of the olfactory bulb. High levels are also detected in several structures for the first time after P0, including the cerebellar cortex (molecular and Purkinje cell layers), lateral reticular nucleus of the medulla and reticular formation, as well as the reticulotegmental, medial geniculate, solitary (rostral, dorsomedial, and commissural regions), medial septal, lateral mammillary, and lateral habenular nuclei. These results not only identify regions of potential CDF/LIF-responsive neurons and glia throughout development but suggest new CDF/LIF roles in the nervous system.