The Neurotransmitters of the Mind – Part 1

Overview

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This course explores how synaptic communication in the brain shapes movement, mood, anxiety, and sleep, with a strong emphasis on pharmacological principles and real-world clinical applications. Learners will examine how specific neurotransmitter systems—including dopamine, GABA, and serotonin—regulate neural circuits and behavior, and how disruptions in these systems contribute to common neurological and psychiatric disorders. Using Parkinson’s disease as a central example, the course investigates the dopaminergic synapse and how molecular changes in dopamine signaling alter motor control. Learners will explore the mechanism of action of L-DOPA, examine alternative therapeutic strategies, and consider patient perspectives on treatments such as deep brain stimulation. The course then turns to anxiety and insomnia, highlighting inhibitory GABA synapses and explaining how benzodiazepines and Z-drugs enhance the brain’s natural braking systems to reduce symptoms and promote sleep. Finally, learners will examine depression through the amine hypothesis, studying how antidepressants such as tricyclics and selective serotonin reuptake inhibitors modify neurotransmitter signaling, as well as emerging treatments such as ketamine. Throughout the course, molecular mechanisms are linked to neural circuits, behavior, and lived patient experiences. This course provides a strong foundation for learners interested in neuroscience, pharmacology, psychology, medicine, and related health sciences.

Syllabus

The dopamine synapse and Parkinson's Disease

This module focuses on the dopaminergic synapse, using Parkinson's disease as a key example. Students will explore how molecular disruptions in dopamine signaling lead to changes in neural circuits, movement, and behavior. The mechanism of action of L-DOPA, the primary treatment for Parkinson's disease, will be discussed, along with an overview of alternative drug targets, including an individual's account of deep brain stimulation.

Inhibitory GABA synapses and anxiety & insomnia

This module focuses on the neurobiology of anxiety and insomnia, two of the most common conditions affecting mental health. Students will explore the function of inhibitory GABA synapses and learn how drugs such as benzodiazepines and Z-drugs enhance the brain’s natural “braking system” to reduce anxiety and promote sleep.

Serotonin synapses and depression

This module explores depression through the lens of the amine hypothesis, focusing on how changes in neurotransmitter signaling contribute to mood regulation. We will learn the mechanisms of action of antidepressant drugs such as tricyclic antidepressants and selective serotonin reuptake inhibitors, along with their efficacy, side effects, and limitations. The module also introduces emerging treatments such as ketamine and concludes with a reading that presents a personal account of living with depression.