Topic 102 - Autonomic Nervous System

Question 1

Words to include

Answer 1

• Automated control
• Effector function
• Efferentation
• Somatic motor system
  
  • Somatic efferent
• Autonomic
  
  • Involuntary action
• Visceral
  
  • Cardiac muscles
  • Smooth muscles
  • Exocrine glands
  • Endocrine gland
  • Enteric nervous system
• Behavior
  
  • Food-intake
  • Excretion
  • Heat production
  • Reproduction
• Vegetative
  
  • Metabolic processes
• Centeal components of ANS
  
  • Cortex
  • Limbic system
  • Hypothalamus
  • Brain stem
  • Medulla oblongata
  • Spinal cord
• Final common efferent
  
  • Sympathetic
  • Parasympathetic
• Peripheral neuron
  
  • ​Individual ganglion
  • Intramural ganglion
• Efferentation postganglionic
  
  • ​(C-type) fiber
• Efferentation pregangionic
  
  • ​(B-type) fiber
• Afferentation
• ANS elements in CNS
  
  • Cortex
    
    • ​External stimuli
    • Behavioral response
    • Frontal cortex
    • Parietal association cortex
  • Limbic system
    
    • ​Behavioral response
    • Emotional response
    • Vegetative functions
  • Pons & medulla
    
    • ​Respiration
    • Circulation
    • Digestion
  • Hypothalamus
    
    • ​Internal stimuli
    • Endocrine system connection
      
      • Hypophyseal hormones
        
        • Inhibiting factors
    • Heat production
    • Osmotic homeostasis
    • Endogenous rhythms
    • Hunger
    • Thirst
    • Internal clock
    • Reproduction
  • Nuclei of crainal nerves
    
    • Parasympathetic afferent autonomic neurons
    • Parasympathetic efferent autonomic neurons
    • III (n. oculomotorius)
    • VII (n. facialis)
    • IX (n. glossopharyngeus)
    • X (n. vagus)
• Neurotransmitters
  
  • preganglionic axons
    
    • Acetylcholine
  • Main integrator
    
    • Postganglionic neuron
      
      • Preganglionic neuron
      • Visceral afferents
      • Enteric nervous system
  • Postganglionic sympathetic neurons
    
    • Norepinephrine
    • Acetylcholine
    • Co-transmitters
      
      • Postganglionic axon
  • Postganglionic parasympathetic transmission
    
    • Acetylcholine
    • Muscarinic Ach receptors
  • Sympathetic endocrine signals
    
    • Epinephrine
  • Sympathetic transmitter signals
    
    • Epinephrine
    • Dopamine
• Cell surface receptor
  
  • Alpha
  • Beta
  • D1
  • D2
• Preganglionic transmission
  
  • Main integrator
    
    • Postganglionic neuron
  • Pregnagionic neuron
  • Collaterals
  • Visceral afferents
  • Enteric nervous system
  • Pregangionic synapse
    
    • Acetylcholine vesicles
    • Acetylcholine
      
      • Choline
        
        • Preganglionic axon
      • Acetylcholinestherase enzyme

Sympathetic ANS

• Sympathetic nervous system
• Fight-or-fight response
• Peripheral sympathetic ANS
  
  • Mobilization
    
    • Redistribution of blood
    • Vasodilation
      
      • Smooth muscles
      • Skeletal muscles
  • Thoracolumbar spinal cord segment (location)
    
    • Intermediomedial nuclei
      
      • ​Thoracolumbar grey matter
        
        • Preganglionic neuron
          
          • Myelinated (B-type) preganglionic fibers
            
            • Ventral root
            • Paravertebral sympathetic ganglia
            • Postganglionic neuron
          • Unmyelinated (C-type) postganglionic fiber
            
            • Ventral root
            • White rami
          • Sympathetic gangial
            
            • Walls of innervated organs
• Sympathetic efferentation
  
  • Intermediolateral cell
• Preganglionic fibers → postganglionic neurons
• Sympathetic postgangionic fibers
  
  • Eye
  • Lacrimal gland
  • Salivary glands
  • Heart
  • Lung
  • Stomach
  • Liver
  • Pancreas
  • Kidney
  • Intestine
  • Rectum
  • Urinary bladder
  • Genital organs
• Sympathetic postgangionic trasnmission
  
  • Postgangionic cell
    
    • Preganglionic fiber
    • Feed-back of visceral afferents
    • Enteric nervous system
  • Neurotransmitter
    
    • Norepinephrine
      
      • Adrenergic receptor
        
        • Alpha receptor
        • Beta receptor
    • Peptiderg synaptic cotransmission
      
      • Peptide receptor
  • Varicosity
    
    • Final transmission
    • Specific peptide cotransmitters
      
      • Somatosin
      • Galanin
      • NPY
      • Encephalins
      • ATP

Parasympathetic ANS

• Rest-and-digest
• Feed-and-breed
• Rest
• Cranial part
  
  • Nuclei of cranial nerves (parasympathetic preganglionic neuron)
    
    • III (n. oculomotorius)
    • VII (n. facialis)
    • IX (n. glossopharyngeus)
    • X (n. vagus)
  • Postganglionic neuron
    
    • Wall of innervated tissue
• Sacral part
  
  • Parasympathetic preganglionic neuron
    
    • Grey matter, intermediomedial region
      
      • S1-S3
  • Axon of preganglionic neuron
    
    • Wall of innervated organ
• Long strait pregangionic axon
• Short postganglionic axon
  
  • Several collaterals
• Dorsal root
  
  • Visceral afferent fibers
    
    • C-type
    • Unmyelinated
  • Somatosensory fibers
  • Pseudounipolar neuron
  • Spinal ganglion
• Energy stores (↑)
• Processing food
  
  • GI motility & secretion (↑)
• Parasympathetic vasodilation
  
  • Pia mater
  • Corpus ciliaris
  • Salivary glands
  • Erectile tissues
• Spinal parasympathetic division
  
  • Pregangionic cells
    
    • Sacral spinal cord
      
      • Intermedioradial region
    • N. splanchnicus
  • Postgangionic cells
    
    • Plexus pelvicus
• Parasympathetic postganglionic transmission
  
  • Postgangionic fibers
    
    • Target cell
      
      • ACh release
      • m-AchR
        
        • M1 type
        • M2 type
        • M3 type
      • Activation
      • Inhibition

Question 2

Topics to include in the essay

Answer 2

1. Role of ANS
2. Terms for ANS
3. ANS elements in CNS
4. Neurotransmitters in ANS
5. Preganglionic transmission
6. Sympathetic ANS
   
   • Peripheral sympathetic ANS
   • Sympathetic postganglionic transmission
7. Parasympathetic ANS
   
   • General structures of parasympathetic system
   • Parst of PNS
     
     • Cranial part
     • Sacral part
   • Parasympathetic postgangionic transmission

Question 3

What is ANS responsible for?

Answer 3

• Automated control of metabolic processes
• Connection between the organism and the external environment
• Mainly effector function
• Efferentation is independent from the somatic motor system

Question 4

Which terms describes the ANS?

Answer 4

• Autonomic: has essentially involuntary actions
• Visceral: controls mainly the visceral organs
• Vegetative: controls the metabolism required to maintain the life of the organism

Question 5

ANS elements in the CNS

Answer 5

• ANS in cortex
  
  • ​The frontal cortex and parietal association cortex integrates information coming from receptors sensing the external stimuli initiating behavioral response
  • Affects the viscera indirectly through lower centers of ANS
• ANS in limbic system
  
  • ​Behavioral response
  • Emotional response
  • Related to vegetative functions
• ANS in hypothalamus
  
  • ​Integration of internal stimuli
  • Connection to the endocrine system
    
    • ​Controlling hypophyseal hormones by:
      
      • Inhibiting factors
      • Releasing factors
  • Role:
    
    • Internal clock
    • Reproductive functions
    • Heat production
    • Osmotic homeostasis
    • Endogenous rhythms
    • Hunger
    • Thirst
    • Species-specific behvior
• ANS in nuclei
  
  • ​The nuclei of selected cranial nerves contain afferent and efferent autonomic (parasympathetic) neurons
    
    • ​III. n. oculomotorius
    • VII. n. facialis
    • IX. n. glossopharyngeus
    • X. n. vagus
• ANS in pons and medulla
  
  • Center essential for life
  • ​Role:
    
    • Respiration
    • Circulation
    • Vomiting
    • Belching
    • Sneezing
    • Rumination
    • Salivation

Question 6

Neurotransmitters in the ANS

Answer 6

• The peripheral (sympathetic and parasympathetic) transmission is build up by:
  
  1. Transmitter of pregangionic axion: Acetylcholine
     
     • ​Binds to neural nicotinic Ach receptor (n-AchR)
  2. Main integrator: Postganglionic neuron
  3. Transmission in the postganglionic sympathetic neurons:
     
     • Norepinephrin (95%)
     • Acetylcholine (5%)
  4. Postganglionic parasympathetic transmission uses:
     
     • Acetylcholine
     • Muscarinic acetylcholine receptors (m-AchR)
  5. Sympathetic endocrine signals (epinephrine) and transmitter signals (norepinephrine & dopamine) cause the opposite effect on the target cells
     
     • Dependeing on the type of cell surface receptors​

Question 7

Preganglionic transmission

Answer 7

• Main integrator: Postganglionic neuron
• ​​Postganglionic neuronreceives information frompreganglionic neuronandcollaterals of:
  
  • Visceral afferents
  • Enteric nervous system
• Preganglionic synapse contains acetylcholine vesicles
  
  • ​From acetylcholine only choline is taken up by the preganglionic axon
  • Acetylcholine in the synaptic cleft binds to the receptor, or metabolized by acetylcholinestherase enzyme

Question 8

Sympathetic ANS

Function

Answer 8

• Function: moblilzation
  
  1. ​Redistribution of blood in the circulation
  2. Vasodliation of smooth muscles and skeletal muscles
  3. Result: Redistribution of the circulating blood into the skeletal muscle according to the increased needs

Question 9

Sympathetic ANS

Type of response

Answer 9

Fight-or-flight response

Question 10

Sympathetic ANS

Peripheral sympathetic ANS: location

Answer 10

• Location: thoracolumbar spinal cord segment
• Preganglionic neurons of the sympathetic nervous system are located in the thoracolumbar grey matter in the intermediomedial nuclei
  • Myelinated (B-type) preganglionic fibers
    
    • ​Leave the spinal cord through the ventral root → paraverterbral sympathetic ggl → postganglionic neuron
  • Unmyelinated (C-type) postganglionic fiber
    
    • ​Returns to the ventral root through white rami
  • Sympathetic ggl. is located in the walls of the innervated organs

1. Sympathetic efferentation starts at the intermediolateral cell of the thoracolumbar spinal cord
2. Preganglionic fibers leaves the spinal cord → postganglionic neurons that extends to the target organ
3. Sympathetic postganglionic fibers are innervating:
   
   1. ​Eye (m. dilatator pupillae)
   2. Lacrimal gland
   3. Heart
   4. Lung
   5. Stomach
   6. Gut
   7. Liver
   8. Pancreas
   9. Adrenal gland
   10. Kidney
   11. Rectum
   12. Urinary bladder
   13. Genital organs

Question 11

Sympathetic ANS

Peripheral sympathetic ANS: sympathetic postganglionic transmission

Answer 11

• Postganglionic cell integrates the information from:
  
  • Preganglionic fibers
  • Feedback of the visceral afferents
  • Enteric nervous system
• Postganglionic fiber reaches the tissue after several divisions, and the neurotransmitters are released in varcosisites of the axon collaterals along the tissue
• Main neurotransmitter: Norepinephrine
  
  • ​Released alone or with other peptide transmitters: peptiderg synapsic contrasmission
  • Released peptides modify the effect of norepinephrine, and makes the effect specific
• Varcosity: place of final transmission
  
  • Norepinephrine is synthesized and released, and binds to alpha receptor and beta receptor of the target cell
• Not consumed norepinephrine is taken up by varcosities
• Varcosity contains specific peptide contransmitters:
  
  • ​Somatosin
  • Galanin
  • NPY
  • Encephalins
  • ATP

Question 12

Parasympathetic ANS

Type of response

Answer 12

Rest-and-digest / feed-and-breed

Occurs when the body is at rest, especially after eating

Question 13

Parasympathetic ANS

Parasympathetic division

Answer 13

Divided into cranial and sacral parts

• Cranial part:​
  
  • Parasympathetic preganglionic neuron is located near the nuclei of the cranial nerves:
    
    • ​III. n. oculomotorius
    • VII. n. facialis
    • IX. n. glossopharyngeus
    • X. n. vagus
  • Postganglionic neuron can be found in the wall of the innervated tissue
• Sacral part:
  
  • ​Sacral part of parasymp. preganglionic neuron is located in the grey matter in the intermediomedial region of S1-S3
  • Axon of preganglionic neuron is extended to the wall of the innervated organ
  • General feature of parasymp. division:
    
    • Long straight preganglionic axon
    • Short postganglionic axon giving several collaterals
• Spinal parasympathetic division originates from preganglionic cells in the intermediomedial region of the sacral spinal cord
  
  • ​Contributing nerve: n. splanchnicus
  • Switching over of the postganglionic cells happens in the plexus pelvicus

Question 14

Parasympathetic ANS

Parasympathetic postganglionic transmission

Answer 14

• Postganglionic fibers transmits the information to the target cell by acetylcholine release
• Target cell receptor: m-AChR
• Effect of acetylcholine depends on the type of muscarinic receptors
  
  • ​M1
  • M2
  • M3