Heterogeneous distribution of neurotensin-like immunoreactive neurons and fibers in the midbrain periaqueductal gray of the rat

Abstract

The midbrain periaqueductal gray (PAG) has been shown to be a site where various manipulations induce pain suppression. Recent physiological evidence (Behbehani and Pert, 1984; Behbehani et al., 1987) suggests that neurotensin has pronounced physiological actions in PAG and effects pain suppression. We have performed immunohistochemical studies in order to determine the magnitude and distribution of neurotensin-like immunoreactive (NT-IR) cell bodies and fibers in PAG. NT-IR cell bodies were common throughout PAG, although there were more in the caudal than the rostral half. NT-IR neurons were much more numerous in the ventral than the dorsal half of PAG, and some appeared to be located within the dorsal raphe nucleus. The pattern of NT-IR fibers was analyzed with the aid of image enhancement/analysis and densitometry. The fibers were found to be heterogeneously distributed, being most heavily concentrated in the region adjacent to the cerebral aqueduct in the caudal two-thirds of PAG. The distribution of NT fibers closely matches sites where exogenously applied NT elicits long-lasting excitation of PAG neurons (Behbehani et al., 1987). Based on the known physiological and behavioral actions of NT in PAG, the present anatomical results suggest that NT acts on elements located predominantly in the medial and ventrolateral parts of PAG. Neurons activated by NT may project directly to the nucleus raphe magnus and adjacent ventral medulla (Behbehani and Pert, 1984) to activate neurons that project to the spinal cord and modulate nociceptive circuits.