Sympathetic and Parasympathetic Action
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This answer is oriented to dentistry students.
Autonomic Centers in the CNS[edit | edit source]
- Mechanisms related to maintaining homeostasis acts on three major systems
Spinal Cord, Brain Stem[edit | edit source]
Autonomic centers integrate signals from autonomic and somatic receptors, and from the higher brain centers (hypothalamus, limbic system)
- Spinal cord →Intermediolateral cell column (thoracolumbar & sacral division)
- Brain stem → Cranial nuclei and autonomic centers
- Respiratory centers
- Vasomotor & cardioregulatory centers
- Control of pupil diameter center
- Micturition center
- Sexual reflexes center
- GIT motility & secretion center
Hypothalamus[edit | edit source]
- Control functions
- Energy balance, food intake
- Body fluid homeostasis, water balance, water intake
- Thermoregulation
- Sexual function
- Autonomic control (respiration, vasomotor reactions, activity of heart)
- Body rhythms
- Mechanisms of immunity
- Emotional behavior
- Receptor functions
- Glucoreceptors
- Osmoreceptors
- Thermoreceptors
- Receptors for hormones
- Effector functions
Epithalamus, Pineal Gland[edit | edit source]
- Body rhythms → Circadian, annual cycles
Basic characteristics of Sympathetic & Parasympathetic functions[edit | edit source]
- Synaptic transmitters
- All preganglionic neurons are cholinergic (acetylcholine, nicotinic) in both SYM & PAR fibers
- The postganglionic neurons of PAR are cholinergic (acetylcholinergic, muscarinic)
- The postganglionic neurons of SYM are adrenergic (Norepinephrine)
- Post sympathetic neurons to sweat glands, piloerector muscle and some few blood vessels are cholinergic
- Post sympathetic neurons to sweat glands, piloerector muscle and some few blood vessels are cholinergic
- Acetylcholine
- Is synthesized and stored in the terminal endings of cholinergic nerve fibers
- Secreted acetylcholine is split to acetate & choline by enzyme (acetylcholinesterase) in the local connective tissue
- Choline is then transported back into the terminals and used for the synthesis of new Acetylcholine
- Norepinenphrine
- Synthesis of Norepinephrine begins in the axoplasm of the terminal nerve endings of adrenergic fibers and is completed inside the vesicles
- Tyrosine → DOPA → Dopamine → Transport into vesicles → Norepnienphrine
- After secretion Norepinephrine is removed
- Norepinephrine secreted into a tissue remains active for few seconds
- Norepinephrine secreted into the blood remain active for 10 to 30 seconds (up to several minutes) and then it is destroyed (mainly in liver)
- Synthesis of Norepinephrine begins in the axoplasm of the terminal nerve endings of adrenergic fibers and is completed inside the vesicles
Receptors of acetylcholine & catecholamines[edit | edit source]
- The receptor is usually on the outside of the cell membrane. When the transmitter binds, it causes conformational change in the structure of protein molecule, causing:
- A change in the cell membrane permeability to one or more ions (Ca2+, Na2+ - depolarization, K+ - hyperpolarization)
- Activation of an enzyme attached to the other and of the receptor protein protruding in the interior of the cell (Adenylcyclase – cAMP)
- Acetylcholine activates two different types of receptors
- Muscarinic receptors
- In all effector cells of the postganglionic PAR neurons and postganglionic cholinergic neurons of the SYM system
- Nicotinic receptors
- In synapses between the pre- & post ganglionic neurons of both the SYM & PAR system
- Neuromuscular junctions of the skeletal muscle
- Muscarinic receptors
- The are two major types of adrenergic receptors
- Alpha receptors
- Excited by epinephrine, and strongly sensitive to norepinephrine
- Certain alpha functions are excitatory, other are inhibitory
- Beta receptors
- Excited be epinephrine, weakly sensitive to norepinephrine
- Certain beta functions are excitatory, other are inhibitory
- Alpha receptors
