Differential regulation of morphine antinociceptive effects by endogenous enkephalinergic system in the forebrain of mice

The aim of the present study was to determine the organization of the afferents of the mediodorsal thalamic nucleus in relation to the reciprocal connections of this nucleus with different areas of the prefrontal cortex. For this purpose injections of horseradish peroxidase, or horseradish peroxidase conjugated to wheatgerm agglutinin were placed in different parts of the mediodorsal nucleus. These experiments revealed the organization of the reciprocal mediodorsal-prefrontal connections since wheatgerm agglutinin-horseradish peroxidase is transported effectively in anterograde and retrograde directions. Injections of wheatgerm agglutinin-horseradish peroxidase or fluorescent tracers were placed in different portions of the prefrontal cortex, and the lectin Phaseolus vulgaris leucoagglutinin was injected in the mediodorsal nucleus in order to verify in more detail the point-to-point relationship in the mediodorsal-prefrontal connections. The organization of a number of the subcortical afferents to the mediodorsal nucleus was determined in detail using injections of Phaseolus vulgaris leucoagglutinin, wheatgerm agglutinin-horseradish peroxidase, or tritiated amino acids in areas identified as a source of mediodorsal afferents in the retrograde tracing experiments. These anterograde tracers were injected in different parts of the pallidal complex, the amygdala, the lateral hypothalamus, the lateral entorhinal cortex, the ventral mesencephalon, the superior colliculus and the dorsal tegmental region. The results of the present experiments indicate that the mediodorsal nucleus, on the basis of its cyto-, myelo- and chemoarchitecture as well as the organization of its reciprocal connections with the prefrontal cortex, can be subdivided into a medial, a central, a lateral and a paralamellar segment. Apart from this subdivision along a mediolateral axis, rostrocaudal and dorsoventral differences are also evident in the structural organization and connectivity of the mediodorsal nucleus. A number of subcortical structures send fibres to all parts of the mediodorsal nucleus. The reticular thalamic nucleus projects to the mediodorsal nucleus in a topographical way such that its rostral part is connected with the rostral part of the nucleus, whereas more caudal and ventral areas in the reticular thalamic nucleus are connected with more caudal parts of the mediodorsal nucleus. Regions in the brainstem that project to all parts of the mediodorsal nucleus include the mesencephalic raphé nuclei, the locus coeruleus, the rostral part of the central gray substance and the reticular formation.(ABSTRACT TRUNCATED AT 400 WORDS)

The mediodorsal nucleus of the rat thalamus has been divided into medial, central and lateral segments on the basis of its structure and axonal connections, and these segments have been shown by experiments using the autoradiographic method of demonstrating axonal connections to project to seven distinct cortical areas covering most of the frontal pole of the hemisphere. The position and cytoarchitectonic characteristics of these areas are described. The medial segment of the nucleus projects to the prelimbic area (32) on the medial surface of the hemisphere, and to the dorsal agranular insular area, dorsal to the rhinal sulcus on the lateral surface. The lateral segment projects to the anterior cingulate area (area 24) and the medial precentral area on the dorsomedial shoulder of the hemisphere, while the central segment projects to the ventral agranular insular area in the dorsal bank of the rhinal sulcus, and to a lateral part of the orbital cortex further rostrally. (The term "orbital" is used to refer to the cortex on the ventral surface of the frontal pole of the hemisphere.) A ventral part of this orbital cortex also receives fibers from the mediodorsal nucleus, possibly its lateral segment, but the medial part of the orbital cortex, and the ventrolateral orbital area in the fundus of the rhinal sulcus receive projections from the paratenial nucleus and the submedial nucleus, respectively. All of these thalamocortical projections end in layer III, and in the outer part of layer I. The basal nucleus of the ventromedial complex (the thalamic taste relay) has been shown to have a similar laminar projection (layer I and layers III/IV) to the granular insular area immediately dorsal to, but not overlapping, the mediodorsal projection field. However, the principal nucleus of the ventromedial complex appears to project to layer I, and possibly layer VI, of the entire frontal pole of the hemisphere. The anteromedial nucleus does not appear to project to layer III of the projection field of the mediodorsal nucleus, although it may project to layers I and VI, especially in the anterior cingulate and medial precentral areas. A thalamoamygdaloid projection from the medial segment of the mediodorsal nucleus to the basolateral nucleus of the amygdala has also been demonstrated, which reciprocates an amygdalothalamic projection from the basolateral nucleus to the medial segment. The habenular nuclei also appear to project to the central nucleus of the amygdala. These results are discussed in relation to the delineation and subdivision of the prefrontal cortex in the rat, and to amygdalothalamic and amygdalocortical projections which are described in a subsequent paper (Krettek and Price, '77).