Modulation of dopamine from ventral tegmental area neurons by the LC-REM-OFF and PPT-REM-ON neurons in REMS regulation in freely moving rats.

Deshdeepak Ratna, Amal Chandra Mondal, Birendra Nath Mallick

Neuropharmacology 2023 Oct 01

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The role of dopamine (DA)-ergic neurons in ventral tegmental area (VTA) in schizophrenia, depression, hallucinations have been extensively studied. Rapid eye movement sleep (REMS), the closest objective correlate of dream and hallucination, is disrupted during these psychological dysfunctions; however, it was unknown if there is any common neuronal substrate for their regulation. Interactions among locus coeruleus (LC) REM-OFF and pedunculopontine tegmentum (PPT) REM-ON neurons have been reported to regulate REMS in health and diseases. Recently we have reported that PPT neurons modulate VTA and REMS. However, although VTA-DA neurons receive projections from LC and PPT, their role in REMS regulation was unclear. We proposed that the LC and PPT might intermittently modulate VTA-DA neurons and modulate REMS. Male Wistar rats were surgically prepared and electrophysiological wakefulness-sleep-REMS recorded in chronic freely moving condition. We employed RNAi induced downregulation of tyrosine hydroxylase (TH) to evaluate the role of VTA-DA in regulating REMS. We observed that TH-knockdown in VTA decreased REMS in experimental rats, which returned to baseline upon PPT stimulation. Thus, VTA-DA neurons are activated by the REM-ON neurons to modulate REMS, the closest objectively recordable correlate of dreams. In these animals, LC stimulation altered Non-REMS and waking. Based on the findings we have discussed the role of VTA neurochemical circuitry in REMS regulation and their possible implications with REMS-associated dreaming and hallucination in health and diseases. Copyright © 2023 Elsevier Ltd. All rights reserved.

Citation

Deshdeepak Ratna, Amal Chandra Mondal, Birendra Nath Mallick. Modulation of dopamine from ventral tegmental area neurons by the LC-REM-OFF and PPT-REM-ON neurons in REMS regulation in freely moving rats. Neuropharmacology. 2023 Oct 01;237:109621