Cholinergic projections from the brainstem have been shown to be important modulators of visual activity in the dorsal lateral geniculate nucleus (dLGN) of the adult, but little is known about the role of these modulatory inputs during development. We examined the postnatal development of the cholinergic innervation of the dLGN by using an monoclonal antibody against choline acetyl transferase (ChAT). We also investigated the development of GABAergic interneurons in the dLGN by using an antibody against glutamic acid decarboxylase (GAD), and the developmental expression of brain nitric oxide synthase (BNOS) by using an antibody against this enzyme. We found that brainstem cells surrounding the brachium conjunctivum express ChAT at birth, although axons in the dLGN do not express ChAT until the end of the first postnatal week. Cholinergic synaptic contacts were observed as early as the second postnatal week. The number of axons stained with the ChAT antibody increased slowly during the subsequent weeks in the dLGN and reached adult levels by the eighth postnatal week. GABAergic interneurons were present at birth and reached their adult soma size by the third postnatal week. GABAergic fibers are dense at birth but change during development from a diffuse pattern to clustered arrangements that can be recognized as distinct rings of GAD staining by P35. Cellular expression of BNOS was seen within all dLGN laminae during development. The BNOS-stained cells are tentatively identified as interneurons because their soma sizes were similar to those of GAD-stained cells. Although cellular BNOS staining remained robust in the C1-3 laminae through adulthood, cellular expression of BNOS in the A laminae declined during the first five postnatal weeks and remains sparse in the adult. As cellular BNOS staining declined, there was a steady increase in BNOS-stained fibers, which paralleled the increase of ChAT-stained fibers that are known to colocalize BNOS in the adult. Our results emphasize the continued transformations of intrinsic as well as extrinsic innervation patterns that occur during the development, of the dLGN.