Autoradiographic localization of angiotensin II receptors in developing rat cerebellum and brainstem.

The role of Angiotensin II (Ang II) as a growth promoting or modulating factor has recently become a field of intensive research. A central issue in developmental neurobiology is the understanding of mechanisms governing the formation of spatially ordered connections. In this study, we show the localization of Ang II receptor subtypes by autoradiography in 2-week-old rat hindbrains confronting these data with membrane binding assays. Competition studies done on membrane preparations evidence no major changes on the relative affinities for both receptor subtypes between 2-week-old and adult rat tissues. By autoradiography, we found that all the areas (1-10) of the 2-week-old cerebellum showed both receptor subtypes present in complementary adjacent layers. Areas expressing a high level of AT2 receptors follow: inferior colicullus (IC), dorso tegmental nucleus, central (DTgC), subcoeruleus, alpha, sensory root of the trigeminal nerve, principal sensory root trigeminal nucleus (Pr5, Pr5VL) supragenual nucleus, genu facial nerve, facial nucleus, cerebellar peduncles, vestibular and lateral nuclei. Spinal trigeminal, (oral) and Raphe nuclei express AT1 receptor subtype. The high level of Ang II AT2 receptors present in the cerebellar peduncles might have a meaning on the establishment of the olivo-cerebellar connection. The high expression of Ang II AT2 receptors on 2-week-old rat hindbrains, a critical age on development, as well as its disappearance in the adult, strongly suggests a probable role of these receptors in cell migration and neuronal synaptogenesis.