The Nervous System, Part 3 - Synapses!: Crash Course Anatomy & Physiology #10

CrashCourse

10 Mar 201510:57

Summary

TLDRThis script delves into the intricacies of synapses, the critical junctions between neurons that facilitate communication within our nervous system. It explains the vast number of synapses in the human brain and their role in learning, memory, and various mental states. The video also distinguishes between electrical and chemical synapses, highlighting their functions and the importance of neurotransmitters. Furthermore, it discusses the impact of drugs like cocaine on neurotransmitter balance and the potential for addiction and dysfunction, emphasizing the complexity and importance of maintaining a healthy electrochemical messaging system in our bodies.

Takeaways

🧠 The synapse is the meeting point between two neurons and is crucial for the nervous system's function.
🔗 Synapses are like tiny communication links that transform the structure of neurons into an active system.
🌐 The strength and purpose of neurons lie in their connections and the synapses that facilitate these connections.
📬 Synapses can be thought of as junctions or crossroads that convert electrical messages into chemical signals for transmission to other neurons.
🧬 The human brain contains an astounding 100 billion neurons, each with 1000 to 10,000 synapses, totaling 100 to 1000 trillion synapses.
🤖 Each synapse functions like a tiny computer, capable of running multiple programs and adapting to neuron firing patterns.
📚 Synapses are essential for learning and memory and are implicated in many psychiatric disorders and addictions.
📶 Nerve cells have two main communication settings: electrical synapses for fast transmission and chemical synapses for more controlled and selective messaging.
🚀 Electrical synapses are fast because they transmit signals directly without converting them to another type of signal, like in chemical synapses.
💊 Chemical synapses use neurotransmitters to transmit signals across a synaptic gap, allowing for various levels of control over the impulse.
🛑 Neurotransmitters are chemicals that can excite or inhibit neurons and are involved in a wide range of functions, from mood regulation to motor control.
🚫 Drugs, including cocaine, can disrupt the natural balance of neurotransmitters, leading to temporary euphoria but long-term negative effects.

Q & A

What is a synapse and why is it important?
-A synapse is the meeting point between two neurons. It is crucial because it allows neurons to communicate with each other, turning the structure of the nervous system into an actual functional system.
How does the word 'synapse' originate and what does it mean?
-The word 'synapse' comes from the Greek for 'to clasp or join,' essentially meaning a junction or a crossroads in the nervous system where neurons communicate.
What is the relationship between action potential and synapses?
-An action potential sends an electrical message to the end of an axon, which then hits a synapse. The synapse translates this electrical message into a different type of signal and passes it to another neuron.
How many synapses are estimated to be in the human brain?
-The human brain is estimated to have between 100 to 1,000 trillion synapses, given that there are 100 billion neurons each with 1,000 to 10,000 synapses.
How do synapses function in terms of learning and memory?
-Synapses are responsible for learning and memory as they can change and adapt in response to neuron firing patterns, strengthening or weakening over time based on usage.
What are the two main types of synapses and how do they differ?
-The two main types of synapses are electrical and chemical. Electrical synapses transmit signals directly through gap junctions, while chemical synapses use neurotransmitters to transmit signals across a synaptic gap.
Why are chemical synapses more abundant than electrical synapses in the human body?
-Chemical synapses are more abundant because they offer more precise control over the transmission of signals, allowing for selective communication and the ability to modify, amplify, inhibit, or split signals.
How do neurotransmitters play a role in the function of chemical synapses?
-Neurotransmitters are chemical signals that are released from the presynaptic neuron and diffuse across the synaptic gap to bind to receptors on the postsynaptic neuron, thereby transmitting the signal.
What is the significance of the synaptic cleft in chemical synapses?
-The synaptic cleft is the tiny gap between the presynaptic and postsynaptic neurons where neurotransmitters diffuse to transmit signals. It is crucial for the communication process in chemical synapses.
How do drugs like cocaine affect the function of synapses and neurotransmitters?
-Drugs like cocaine can block the reuptake of neurotransmitters, particularly dopamine, causing them to accumulate and leading to a temporary feeling of euphoria. However, this can deplete neurotransmitter supplies and lead to various negative effects.
What happens to neurotransmitters after they have delivered their message?
-After neurotransmitters deliver their message, they typically unbind from their receptors and either degrade, get recycled, or are reabsorbed by the presynaptic neuron through a process called reuptake.