Neurobiology 2: Autonomic Nervous System - Function, Divisions, Reflexes, Schemes and Mind Maps of Neurobiology

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BIO 354 - Neurobiology 2 1 Lecture 11 and 12 – Autonomic nervous system Raghav Rajan Bio 354 – Neurobiology 2 February 11th 2015 Material for lecture is from the following links 1) http://www.ib.cnea.gov.ar/~redneu/2013/BOOKS/Principles%20of%20Neural%20Science%20-%20Kan del/gateway.ut.ovid.com/gw2/ovidweb.cgisidnjhkoalgmeho00dbookimagebookdb_7c_2fc~57.htm 2) Links provided at the bottom of the slide BIO 354 - Neurobiology 2 2 Divisions of the nervous system http://serendip.brynmawr.edu/exchange/brains/structures BIO 354 - Neurobiology 2 5 Autonomic nervous system had 3 sub-divisions ● Sympathetic - “Fight or Flight” (Walter Cannon) ● Parasympathetic - “Rest and digest” (Walter Cannon) ● “Homeostasis” - main function to maintain constant internal environment (negative feedback regulation) ● Hypothalamus is the “boss” ● Enteric – related to the gut and mediates digestive reflexes – More independent than the other two – Very few connections to the rest of the nervous system http://faculty.clintoncc.suny.edu/faculty/michael.gregory/files/bio%20102/bio%20102%20lectures/nervous%20system/nervous1.htm BIO 354 - Neurobiology 2 6 An example of autonomic nervous system function Regulation of water in the body - thirst https://voer.edu.vn/c/water-balance/948ed3b1/04a5f05f BIO 354 - Neurobiology 2 7 Differences between somatic and autonomic motor systems : 1) location of motor neuron ● Motor neurons of autonomic nervous system are outside CNS – Preganglionic fiber from CNS – Postganglionic fiber to target ● One extra synapse in the path from CNS to peripheral target – autonomous nervous system BIO 354 - Neurobiology 2 10 Organisation of projections to sympathetic system ● 3 major types ● Depends on origin and target or projection https://voer.edu.vn/m/divisions-of-the- autonomic-nervous-system/1121e1d0#tbl- ch15_01 BIO 354 - Neurobiology 2 11 Organisation of parasympathetic nervous system ● Craniosacral system ● Cranial and spinal nerves – origins or preganglionic fibers ● Ganglia are close to targets or within targets ● Preganglionic fibers – long ● Postganglionic fibers - short https://voer.edu.vn/m/divisions-of-the- autonomic-nervous-system/1121e1d0#tbl- ch15_01 BIO 354 - Neurobiology 2 12 Example of autonomic nervous system – pupil dilation and contraction http://neuroscience.uth.tmc.edu/s3/chapter07.html BIO 354 - Neurobiology 2 15 Sympathetic and parasympathetic nervous system – work antagonistically http://web.stanford.edu/class/cs379c/ar chive/2012/suggested_reading_list/sup plements/figures/sympathetic_parasym pathetic.jpg BIO 354 - Neurobiology 2 16 How do you get different responses in the targets? ● Otto Loewi – Nobel prize in 1934 – for the discovery of chemical neurotransmission – ACh (Vagusstoff) ● His experiments were done in 1921 – at a time when it was not clear if neurotransmission was chemical or electrical http://en.wikipedia.org/wiki/Otto_Loewi BIO 354 - Neurobiology 2 17 Interesting history pertaining to his discovery On mature consideration, in the cold light of the morning, I would not have done it. After all, it was an unlikely enough assumption that the vagus should secrete an inhibitory substance; it was still more unlikely that a chemical substance that was supposed to be effective at very close range between nerve terminal and muscle be secreted in such large amounts that it would spill over and, after being diluted by the perfusion fluid, still be able to inhibit another heart. (Loewi 1921) While it remains unclear how much of Loewi's account is true, Loewi was fortunate in his choice of experimental preparation. In the species of frog used (Rana esculenta ), the vagus contains both inhibitory and stimulatory fibers. In the winter, inhibitory fibers predominate, so Loewi was also fortunate to have performed his experiments in February or March. Additionally,acetylcholinesterase activity (the enzyme that degrades acetylcholine) is low, particularly in an unheated laboratory, allowing the neurotransmitter to remain long enough to be collected and applied to a second heart. Thanks to this confluence of events, Loewi was able to describe the existence of vagusstoff and prove the existence of chemical synaptic transmission http://en.wikipedia.org/wiki/Vagusstoff BIO 354 - Neurobiology 2 20 Other neuropeptides also used BIO 354 - Neurobiology 2 21 Enteric nervous system ● Very large number of sensory, motor and interneurons ● Controls smooth muscles of the gut, local blood vessels and secretions of the mucosa ● Two major networks of nerves and vessels – Myenteric plexus – gut motility – Submucous plexus – secretions of mucous BIO 354 - Neurobiology 2 22 Multiple time-scales of responses mediated by the different transmitters and different receptors ● Synapses in the sympathetic chain ganglia of bullfrog ● Single pre-synaptic stimulation in both evokes fast EPSPs ● Repetitive stimulation evokes different responses in both ● Peptidergic EPSP evoked in second synapse only when first one is stimulated BIO 354 - Neurobiology 2 25 Central autonomic network - outputs ● NST, and other nuclei in the brainstem and medulla provide direct outputs to sympathetic ganglion ● A number of other forebrain and midbrain nuclei are also connected to this system ● Anterior insula – visceral sensory cortex – gets information about internal state – Topographic map of internal organ systems – Lesions cause loss of appreciation of visceral sensations ● Infralimbic area – part of cingulate cortex – visceral motor cortex – Lesions – abulia – loss of emotional responses to external stimuli BIO 354 - Neurobiology 2 26 Hypothalamus ● Integrates autonomic responses and endocrine function with behavior – Controls blood pressure and electrolyte composition – Regulates body temperature – Controls energy metabolism – Regulates reproduction – Controls emergency responses to stress BIO 354 - Neurobiology 2 27 Three main mechanisms used by the hypothalamus to function ● Gets all sensory input – From all sense organs (direct or indirect) ● visual input used to send information to suprachiasmatic nucleus to regulate circadian rhythm – Has internal sensory neurons that respond to changes in temperature, glucose, etc. – Circulating hormones can also enter near the margin and directly interact with hypothalamic neurons ● Compares sensory information with biological set points ● If there is a deviation from set point, it triggers various behavioral, autonomic and endocrine responses to restore homeostasis BIO 354 - Neurobiology 2 30 The paraventricular nucleus is a part of the complex control of autonomous and endocrine functions ● Magnocellular hormone releasing neurons BIO 354 - Neurobiology 2 31 Eg: regulation of body temperature ● Pigs can be trained to switch on IR heaters ● Thermodes to cool or heat the hypothalamus http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1365459/pdf/jphysiol01120-0154.pdf BIO 354 - Neurobiology 2 32 Both ambient temperature and hypothalamus temperature influence warmth seeking behavior http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1365459/pdf/jphysiol01120-0154.pdf BIO 354 - Neurobiology 2 35 Model for thermoregulation and neuronal basis ● Heat loss effector neurons ● Heat production effector neurons http://jap.physiology.org/content/100/4/1347 BIO 354 - Neurobiology 2 36 Putative heat-effector neurons ● Recording from EPSP driven neurons ● http://jap.physiology.org/content/100/4/1347 BIO 354 - Neurobiology 2 37 Putative heat production effector neurons ● Cold-sensitive neurons ● Synaptic blockade makes them lose their cold-sensitivity http://jap.physiology.org/content/100/4/1347 BIO 354 - Neurobiology 2 40 Important differences between earlier models ● Temperature insensitive neurons do not respond to peripheral temperature changes (thought to respond to cold- sensitive peripheral inputs) ● Warm-sensitive neuron is potentially a sensor as well as an integrator (thought to respond to warm-sensitive peripheral inputs) http://jap.physiology.org/content/100/4/1347 BIO 354 - Neurobiology 2 41 General model for regulation of different body parameters with a set-point ● Set-point is the balance between synaptic inhibition and synaptic excitation ● Can be moved around by changing firing rates of either neuronal type http://jap.physiology.org/content/100/4/1347 BIO 354 - Neurobiology 2 42 What is the function of the autonomic nervous system? ● “Fight or Flight” ● ● Largely co-ordinates visceral and reflexive actions ● Mostly not under conscious control (there are exceptions) ● Senses the internal environment of the body and acts accordingly – Consists of both visceral sensory and motor neurons ● Also called “involuntary nervous system” ● Pretty complex ● Has a number of specializations that help co-ordinate a variety of responses with small set of fibers ● Important for homeostasis – maintenance of constant internal environment of the body