The effects of treatment with L-thyroxine (3 micrograms by subcutaneous injection daily from birth) on cell acquisition in the rat brain were studied during the first 3 postnatal weeks. In the forebrain, thyroxine has no effect on cell proliferation in the first 6 days, but it causes decreased cell acquisition from 12 to 21 days so that cell number becomes significantly reduced. Estimates of cell proliferation kinetics and of cell death in the lateral ventricular subependymal layer show no apparent abnormality. In the cerebellum, treatment from birth leads to increased cell proliferation during the first week: in comparison with controls, the rate of [3H]thymidine incorporation into DNA, thymidine kinase activity, and the number of cells both in the major germinal site (external granular layer: EGL) and in the whole cerebellum are elevated. This initial effect of thyroxine appears by day 3 and is short-lived, being no longer evident after day 6. The build-up of cell numbers in the EGL at day 6 seems to be related to a preceding, transient retardation of cell migration from this layer rather than to an acceleration of cell replication, since cell cycle parameters are normal. From day 12 the rate of [3H]thymidine incorporation into DNA is severely reduced in treated rats. Advancement of cellular differentiation rather than increased cell death in the EGL appears to be involved in this phenomenon.