Neurochemical organization of reptilian thalamus. Comparative analysis of amniote optical centers

Study of neurochemical characteristics of the turtle thalamus was performed using antibodies against several biologically active compounds; monoamines (5-HT, TH), neuropeptides (SP, m-Enk, NPY), against ChAT and by histochemical detection of NADPH-d. Based on our own results and literature data obtained on other representatives of reptiles, birds, and mammals, a comparative analysis was carried out of neurochemical organization of two thalamic optical centers—relay nuclei of thalamofugal (GLd) and tectofugal (Rot/LP-Pulv) systems of amniotes. Features of similarities and differences of these centers in representatives of non-mammalian and mammalian amniotes are revealed. GLd has a great similarity of the studied neurochemical characteristics in all amniotes. It receives innervation from all studied transmitter-modulatory systems with predominance of serotonin-, choline- and NPY-ergic projections. Neurochemical organization of Rot comparable with the tectorecipient part of mammalian LP-Pulv has a great resemblance in reptiles and birds, with considerable interspecies differences inside each class. In the majority of the studied systems, Rot is characterized by scant innervation. On the contrary, LP-Pulv receives sufficiently massive innervation from these systems. The most characteristic of this complex are rich SP- and cholinergic projections that are scant in Rot of reptiles and birds. The similar feature of Rot and LP-Pulv is the presence of massive serotonin- and NO-ergic (NADPH-positive) projections. The revealed similarities and differences of the neurochemical characteristics of thalamic optical centers among amniotes seem to reflect various transformations of thalamo- and tectofugal visual systems in the course of phylogenetic and adaptive evolution.