The Neurotransmitters of the Mind β Part 2
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The Neurotransmitters of the Mind β Part 2
This course is part of Synaptic Pharmacology Specialization
Instructor: Anna Lee, Ph.D.
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March 2026
6 assignments
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There are 3 modules in this course
This course explores the neurobiology and pharmacology of pain and synaptic signaling, with a focus on how drugs targeting specific receptor systems shape perception and behavior. Learners will examine fundamental mechanisms of pain transmission and gain a deeper understanding of G-protein coupled receptors using the opioid receptor as a central example.
The course begins with opioid pharmacology, explaining how opioid receptor agonists produce analgesia at the molecular and circuit levels, and how repeated exposure can lead to tolerance and dependence. Current clinical guidelines and best practices in opioid prescribing are integrated to connect receptor biology with insight into medical decision-making. The course then examines endocannabinoid signaling, highlighting its unique retrograde communication system, endogenous ligands, and receptors. Students will explore the pharmacological effects of THC and synthetic cannabinoids, as well as emerging therapeutic applications and documented health risks. Finally, the course broadens its scope to consider more complex forms of synaptic communication, including silent synapses and tripartite synapses involving neuronβastrocyte interactions. Learners will also be introduced to modern genetic tools used to map neuronal connectivity, emphasizing how advances in technology continue to reshape our understanding of brain circuits. To be successful in this course, learners should have a background in biology. This course provides a strong foundation for students interested in neuroscience, pharmacology, pain research, addiction science, and related biomedical and health fields. Learners should be comfortable with basic cell biology, receptor signaling, and introductory physiology. This course is particularly well suited for learners preparing for careers in medicine, pharmacy, nursing, psychology, biomedical research, or other health-related professions. The course is also appropriate for trainees and healthcare professionals seeking a deeper mechanistic understanding of opioid and cannabinoid pharmacology, especially in the context of pain management and substance use.
This module introduces the basic mechanisms of pain transmission and explores G-protein coupled receptors using the opioid receptor as a key example. We will learn how opioid receptor agonists produce analgesia and how their use can lead to dependence. The module also includes a video covering current guidelines and best practices in opioid prescribing.
What's included
3 videos2 readings2 assignments
3 videosβ’Total 20 minutes
- Introduction to pain transmissionβ’6 minutes
- Pain and opioid receptor subtypesβ’6 minutes
- G-protein coupled receptors and opioid actionsβ’9 minutes
2 readingsβ’Total 20 minutes
- Course Syllabusβ’10 minutes
- Video: News clip on updated guidelines for opioid drug prescribing, March 17, 2016β’10 minutes
2 assignmentsβ’Total 60 minutes
- Opioid receptors and pain practice quizβ’30 minutes
- Opioid receptors and pain quiz β’30 minutes
This module examines the unique features of endocannabinoid signaling compared to other neurotransmitter systems. We will study the endogenous endocannabinoids and their receptors, along with the pharmacological actions of THC and synthetic cannabinoids. Assigned readings will highlight current developments in the therapeutic use of cannabinoids and the health risks linked to synthetic analogs.
What's included
3 videos2 readings2 assignments
3 videosβ’Total 15 minutes
- Introduction to endocannabinoids and retrograde signalingβ’7 minutes
- THC and cannabinoid actionsβ’4 minutes
- Synthetic cannabinoids and negative effectsβ’3 minutes
2 readingsβ’Total 80 minutes
- Cannabis, cannabinoids and health: a review of evidence on risks and medical benefitsβ’60 minutes
- Synthetic Cannabinoids - "Spice" can induce a psychosis: A brief reviewβ’20 minutes
2 assignmentsβ’Total 60 minutes
- Endocannabinoids and THC practice quizβ’30 minutes
- Endocannabinoids and THC quizβ’30 minutes
This module provides a broader view of synaptic function by examining silent synapses, where presynaptic signaling fails to elicit postsynaptic activation, and tripartite synapses, which involve interactions between neurons and astrocytes. A short video highlights recent advances in genetic tools for mapping neuronal connectivity.
What's included
2 videos1 reading2 assignments
2 videosβ’Total 11 minutes
- Silent synapsesβ’4 minutes
- Tripartite synapsesβ’7 minutes
1 readingβ’Total 10 minutes
- Brainbows: Synaptic signpostsβ’10 minutes
2 assignmentsβ’Total 60 minutes
- The not-so-unusual synapse practice quizβ’30 minutes
- The not-so-unusual synapse quizβ’30 minutes
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