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The Nervous System: Neurotransmitters By Josephina, Ben, Andrew, and Jacob

The Nervous System: Neurotransmitters By Josephina, Ben, Andrew, and Jacob. Photo: http://total-body-psychology.com.au/wp-content/uploads/2012/07/neurotransmitter.gif. What are Neurotransmitters and Chemical Synapses?. Neuron → Nerve Cell (3)

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The Nervous System: Neurotransmitters By Josephina, Ben, Andrew, and Jacob

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  1. The Nervous System: Neurotransmitters By Josephina, Ben, Andrew, and Jacob Photo: http://total-body-psychology.com.au/wp-content/uploads/2012/07/neurotransmitter.gif

  2. What are Neurotransmitters and Chemical Synapses? • Neuron→ Nerve Cell (3) • Neurotransmitters → Signaling molecules which carry nerve impulses between neurons by diffusing across Chemical (3) Synapses → A narrow cleft between a neuron's’ output area and the input end of another cell (7) • Neuron - neuron or neuron - other cell (e.g. muscle) (10) Photo: http://www.google.com/url?sa=i&rct=j&q=&esrc=s&source=images&cd=&docid=Li8YVDJMckV3cM&tbnid=5WoEACCv3HccsM:&ved=0CAIQjBw&url=http%3A%2F%2Ftotal-body-psychology.com.au%2Fwp-content%2Fuploads%2F2012%2F07%2Fneurotransmitter.gif&ei=lhd3UtOoE9as4AOYw4DwBg&bvm=bv.55819444,d.cWc&psig=AFQjCNGi47hO8noNSO-uL5slBG3aXKwxqA&ust=1383622930610294

  3. Where are neurotransmitters stored? • At the chemical synapse a neuron stores neurotransmitters in synaptic vesicles in the cytoplasm (3) Synaptic vesicles! Photo: http://www.brainfacts.org/~/media/Brainfacts/Article%20Multimedia/Brain%20Basics/Cell%20Communication/Neurotransmitters_.ashx

  4. Step 1: Action Potential • Action potential → a change in the electrical gradient of a cell membrane b/c of a signal which reaches the neuron, causing changes in ion concentration, making the inside temporarily positive (8)

  5. Release of Neurotransmitters Step 2: Calcium Ion Release • Calcium channels (made of protein) span the membrane of the neuron (1) • These channels open in response to an action potential(10) • More calcium ions (Ca2+) outside → concentration gradient → calcium ions flow into the cell and bind to receptors inside membrane (2) Photo: http://scientopia.org/img-archive/scicurious/img_374.png

  6. Step 3: Converting Electrical Signals into Chemical Signals • Calcium ion flow induces currents which cause the synaptic vesicles to move toward the plasma membrane • Vesicles fuse with the plasma membrane and either • 1. Release neurotransmitters into the chemical synapse (8) (What type of transport is this?) • 2. Open briefly, release some neurotransmitter then return to interior (“kiss and run”) (3) Photo: http://scientopia.org/img-archive/scicurious/img_373.png

  7. The release of synaptic vesicles is an example of what type of transport? Active Transport - Exocytosis!

  8. Step 4: Crossing the Synapse • The neurotransmitters then diffuse across the synaptic region (3) Photo: www.maddgraphix.com/images/lightbox/DMAE Boosting Neurotransmitters.jpg http://faculty.washington.edu/chudler/chnt1.html

  9. How are neurotransmitters received by an adjacent neuron? (Step 5: Protein receptors) • Postsynaptic cell membrane → has protein receptors on gated channel proteins that bind specific neurotransmitters • Protein receptors change shape, creating a passageway into the inside of the cell (what type of diffusion is this?) (9) • Ions flow into the postsynaptic cell by diffusing through this passage - starts process again(3) www.daviddarling.info/encyclopedia/N/neurotransmitter.html

  10. Protein receptor analogy: Lock and Key • Receptors on postsynaptic cell are important - many different receptors for one type of neurotransmitter, affect how cell reacts to signal (3) • Analogy: for a neurotransmitter to have an effect on the postsynaptic neuron, must bind to a receptor with the right shape Photos:http://www.ablongman.com/html/psychplace_acts/synapse/images/lockkey.gif http://biowiki.ucdavis.edu/@api/deki/files/690/=08neurotranskinase.gif

  11. Step 6: Signals in The Postsynaptic Neuron • Neuron input area has excitatory and inhibitory graded potentials (short distance signals) reaching it all at once • Synaptic integration → combining postsynaptic signals that determines the output of the thousands of signals (3) • Allows signals to be weakened or increased • EPSP (excitatory postsynaptic potential) → depolarizing effect (drives membrane close to threshold) (10) • Cycle repeated: Synapse empty, vesicles filled,action potential, calcium ready to flow back in • IPSP (inhibitory postsynaptic potential) (10) Photo: http://classes.midlandstech.edu/carterp/Courses/bio210/chap11/Slide23.JPG

  12. (What happens to the “used” neurotransmitters?) • Can be either (10) • 1. broken down by enzymes • 2. presynaptic neuron transporters take it back in to be degraded or reused • However the neurotransmitter can become stuck inside the cleft - e.g. cocaine blocks the intake of dopamine (3)

  13. Examples of Neurotransmitters: Epinephrine Epinephrine- Another term for adrenaline. • Both a hormone and a neurotransmitter, the difference in the two being that the hormones are released into the bloodstream by the adrenal gland, while neurotransmitters cross between the chemical synapses between neurons and the receiving cell. (4) • When in danger crosses synapses, which increases heart rate and turns on the body and mind’s “Fight or Flight” mode. Photo: http://sd.keepcalm-o-matic.co.uk/i/keep-calm-and-carry-epinephrine.png

  14. Another Neurotransmitter Example: Dopamine Dopamine • Acts as a neurotransmitter in the substantia nigra and the ventral tegmental area (parts of the brain) (8). • Involved in many processes including movement, emotion, reward, memory, behavior and cognition, attention, inhibition of prolactin production, sleep, learning, pain processing, and nausea. (8) http://www.cs.stedwards.edu/chem/Chemistry/CHEM43/CHEM43/NeuroT/Dopamine.htm

  15. Neurotransmitters in action Animation: http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter14/animation__transmission_across_a_synapse.html

  16. References 1. "Animation: Transmission Across a Synapse." Animation: Transmission Across a Synapse. N.p., n.d. Web. 4 Nov. 2013. <http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter14/animation__transmission_across_a_synapse.html>. 2. Augustine, George J. "How Does Calcium Trigger Neurotransmitter Release." Columbia University. Elsevier Science, n.d. Web. <http://www.columbia.edu/cu/biology/courses/g6002/2003/ Augustine.pdf>. 3. Brookshire, Bethany. "Back to Basics 1: Neurotransmission." Sciencetopia. Sciencetopia, n.d. Web. 3 Nov. 2013. <http://scientopia.org/blogs/scicurious/2010/08/23/ back-to-basics-1-neurotransmission/>. 4. "Can It Ever Be Too Much? The effects of epinephrine on the brain." Serendip Studio. Serendip, n.d. Web. 3 Nov. 2013. <http://serendip.brynmawr.edu/exchange/node/430>. 5. "Dopamine." St. Edwards University. St. Edwards University, n.d. Web. 3 Nov. 2013. <http://www.cs.stedwards.edu/chem/Chemistry/CHEM43/CHEM43/NeuroT/Dopamine.htm>. 6. "Epinephrine." University of Delaware. U of Delaware, n.d. Web. 3 Nov. 2013. <http://www.udel.edu/ chem/C465/senior/fall00/Performance1/epinephrine.htm.html>. 7. Ophardt, Charles E. "Nervous System Overview." Virtual ChemBook. Ed. Charles E. Ophardt. Elmhurst College, n.d. Web. <http://www.elmhurst.edu/~chm/vchembook/661nervoussys.html>. 8. Mandal, Ananya, Dr. Md. "Dopamine Functions." Ed. April Cashin-Garbutt. News Medical. AZo, n.d. Web. <http://www.news-medical.net/health/Dopamine-Functions.aspx>. 9. "Neurotransmitter Postsynaptic Receptors." 3. Neurotransmitter Postsynaptic Receptors. N.p., n.d. Web. 4 Nov. 2013. <http://web.williams.edu/imput/synapse/pages/III.html>. Copy & Paste 10. Starr, Cecie, and Ralph Taggart. Biology: the unity and diversity of life. 6th ed. Belmont, Calif.: Wadsworth Pub. Co., 1992. Print.

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