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Development of Complex Curricula for Molecular Bionics and Infobionics Programs within a consortial* framework**
Consortium leader
PETER PAZMANY CATHOLIC  UNIVERSITY
Consortium members
SEMMELWEIS UNIVERSITY, DIALOG CAMPUS PUBLISHER
The Project has been realised with the support of the European Union and has been co-financed by the European Social Fund ***

**Molekuláris bionika és Infobionika Szakok tananyagának komplex fejlesztése konzorciumi keretben
***A projekt az Európai Unió támogatásával, az Európai Szociális Alap társfinanszírozásával valósul meg.

PETER PAZMANY
CATHOLIC UNIVERSITY

SEMMELWEIS
UNIVERSITY

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INFOBLOKK

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Peter Pazmany Catholic University  
Faculty of Information Technology

BASICS OF NEUROBIOLOGY

NERVE ENDINGS

www.itk.ppke.hu

Neurobiológia alapjai

(Idegvégződések)

ZSOLT LIPOSITS


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NERVE ENDINGS

NEURONS COMMUNICATE WITH NON-NEURONAL ELEMENTS VIA SPECIALIZED NERVE ENDINGS BELONGING TO EFFECTOR AND RECEPTOR CATEGORIES
I.EFFECTORS
1.MOTOR END-PLATE
2.  AUTONOMIC FIBER PLEXUS
II.RECEPTORS
1.MUSCLE RECEPTORS
2.  SENSORY EPITHELIAL CELLS
3.  MECHANORECEPTORS 
4.  THERMORECEPTORS 
5.   PAIN RECEPTORS
6.   CHEMORECEPTORS 
NEURONS COMMUNICATE WITH OTHER NEURONAL ELEMENTS VIA SPECIALIZED
STRUCTURAL AND FUNCTIONAL UNITS
I.SYNAPSES
1. CHEMICAL SYNAPSE
2. ELECTRICAL SYNAPSE


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MOTOR ENDPLATE

AXONS OF SOMATIC MOTONEURONS INNERVATE SKELETAL MUSCLE FIBERS
THE JOINT UNITS OF THE NERVE TERMINALS AND  MUSCLE FIBERS  ARE CALLED MOTOR END PLATES. SYNONYMS: MYONEURAL JUNCTION, NEUROMUSCULAR JUNCTION
MOTONEURONS PROJECTING FROM THE BRAIN STEM AND SPINAL CORD SEND AXONS TO THE STRIATED MUSCLE FIBERS FOR INNERVATION
THE TERMINAL AXON LOSES ITS MYELIN SHEATH AND THE TERMINAL BOUTONS  JUXTAPOSE TO THE SARCOLEMMA, THE  MEMBRANE OF THE MUSCLE FIBER
THE AXON TERMINAL CONTAINS SYNAPTIC VESICLES FILLED WITH THE NEUROTRANSMITTER ACETYLCHOLINE
ACTIVATION OF THE NERVE TERMINAL LEADS TO THE RELEASE OF THE TRANSMITTER THAT BINDS TO ITS RECEPTORS EMBEDDED INTO THE MUSCLEMEMBRANE. THE RECEPTOR ACTIVATION EVOKES CASCADE EVENTS RESULTING IN THE CONTRACTION OF THE MUSCLE FIBERS 


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MOTOR ENDPLATE

THE MECHANISM OF ACTIVATION OF THE NERVE TERMINAL
FEATURES OF ACETYLCHOLINE RELEASE AND ITS BINDING TO RECEPTORS
INACTIVATION OF THE TRANSMITTER
POSTSYNAPTIC EVENTS
THE CONTRACTION OF THE SARCOMERES



ULTRASTRUCTURAL SCHEME OF THE MOTOR END PLATE
SCHWANN CELL
MOTONEURON AXON TERMINAL
SYNAPTIC  VESICLE
SARCOLEMMA
MITOCHONDRION



THE SARCOMERE

THE SMALLEST FUNCTIONAL UNIT OF A MYOFIBRIL


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CELLULAR DETAILS OF THE MUSCLE INNERVATION


THE SILVER IMPREGNATED AXONS APPEAR IN BLACK. THEY SHOW A 
REMARKABLE TERMINAL ARBORIZATION. THE THIN, INDIVIDUAL AXON TERMINALS  SPREAD  OVER  AND INNERVATE STRIATED  MUSCLE FIBERS SHOWN IN ORANGE. THE NERVES CAN TRANSMIT SENSORY INFORMATION TO THE CNS AND ALSO CONVEY  MOTOR COMMANDS FROM THE CNS TO THE MUSCLE FIBERS    


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THE AUTONOMIC PLEXUS

POSTGANGLIONIC NERVE FIBERS OF THE SYMPATHETIC AND PARASYMPATHETIC
BRANCHES OF AUTONOMIC NERVOUS SYSTEM INNERVATE THE CARDIAC MUSCLE, SMOOTH MUSCLE BUNDLES OF VISCERAL ORGANS AND GLANDS
THESE AXONS DO NOT ESTABLISH SYNAPSES WITH THE TARGET CELLS
THEY RELEASE THE TRANSMITTER INTO THE EXTRACELLULAR SPACE FROM THEIR  AXON VARICOSITIES
SPECIFIC RECEPTORS OF THE TARGET CELLS PICK UP THE TRANSMITTERS AND INITIATE THE CELLULAR RESPONSES



INNERVATION OF SMOOTH MUSCLE CELLS
BY AN AUTONOMIC NERVE FIBER. SMOOTH 
MUSCLE CELLS ARE COUPLED BY GAP 
JUNCTION, ARROWS INDICATE THE OUTFLOW 
OF THE TRANSMITTER.
BEADED AXON
TRANSMITTER-CONTAINING VESICLES
SMOOTH MUSCLE CELLS


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MUSCLE RECEPTORS

THE ACTUAL STRETCHING STATE OF MUSCLE AND TENDON FIBERS IS  CONTINUOUSLY MONITORED BY THE CNS  USING THE MUSCLE SPINDLE AND GOLGI TENDON RECEPTORS





MUSCLE SPINDLE IS A CAPSULATED RECEPTOR COMPOSED 
OF SPECIAL, THIN STRIATED MUSCLE FIBERS. THE STRUCTURE 
IS  EMBEDDED AMONG EXTRAFUSAL MUSCLE FIBERS. 
THE STRETCHING OF THE EXTRAFUSAL MUSCLE FIBERS 
ACTIVATES THE RECEPTOR THAT INFORMS THE CNS AND 
EVOKES THE COMPENSATORY ACTION, THE CONTRACTION




GAMMA MOTONEURON
NERVE FIBERS

SENSORY TYPE Ia 
NERVE FIBERS

SENSORY  TYPE II 
NERVE FIBERS

NUCLEAR  BAG  
MUSCLE FIBER 

NUCLEAR  CHAIN  
MUSCLE  FIBER 



THE MUSCLE SPINDLE CONSISTS OF NUCLEAR 
BAG AND NUCLEAR CHAIN MUSCLE FIBERS.  
BOTH  FIBER TYPES RECEIVE MOTOR (GAMMA) 
AND SENSORY (Ia and II) NERVES


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.

.


SCHEME OF THE SPINAL STRETCH REFLEX


A

B

C


MUSCLE SPINDLES  ARE THE RECEPTORS OF THE 
SPINAL STRETCH REFLEX. IT RECEIVES MOTOR
AND SENSORYINNERVATIONS . THE EXTRAFUSAL 
MUSCLE FIBERSARE INNERVATED BY ALPHA
MOTONEURONS

IT IS A MONOSYNAPTIC REFLEX PROVIDING 
AUTOMATIC REGULATION OF SKELETAL 
MUSCLE LENGTH


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SENSORY EPITHELIAL CELLS

SENSORY EPITHELIAL CELLS ARE CAPABLE OF SENSING SPECIAL STIMULI (ODOR, FLAVOR, LIQUID MOVEMENT). THEY ARE RELATED TO THE SPECIAL SENSE ORGAN
SYSTEM. PRIMARY SENSORY CELLS CONVEY THE INFORMATION TO THE CNS BY THEIR OWN PROCESSES, SECONDARY SENSORY CELLS FORWARD THE INFORMA-TION BY THE PERIPHERAL PROCESSES OF SENSORY GANGLION NEURONS    

MECHANORECEPTORS

THEY ARE SENSORY RECEPTORS THAT RESPOND  TO PRESSURE AND
DISTORSION. MECHANORECEPTORS ARE NUMEROUS IN THE SUPERFICIAL
AND DEEP LAYERS OF THE SKIN. THEY ARE EITHER FREE OR ENCAPSULATED NERVE ENDINGS. CHARACTERISTIC MEMBERS INCLUDE: FREE NERVE ENDINGS, MEISSNER’S-,  KRAUSE’S-, PACININIANCORPUSCULES, AND RUFFINIBODIES
FEATURES OF RECEPTOR POTENTIALS
AMPLITUDE
SIGNAL INTENSITY
ADAPTATION 

RECEPTOR




CNS


STIMULUS




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THERMORECEPTORS

SENSORY RECEPTORS THAT CODE ABSOLUTE AND RELATIVE CHANGES IN TEMPERATURE. THEY ARE FREE-NERVE ENDINGS OF UNMYELINATEDAND THIN MYELINATED FIBERS. THERE ARE COLD AND WARM SENSITIVE TYPES
THE COLD RECEPTOR: TRANSIENT RECEPTOR POTENTIAL ION CHANNELS (TRPM8)

PAIN RECEPTORS

SENSORY RECEPTORS THAT RESPOND TO TISSUE DAMAGING NOXIOUS STIMULI.
THEY ARE ALSO ADDRESSED AS NOCICEPTORS. THEY PLAY A PIVOTAL ROLEIN AVOIDING THE HARMFUL INSULTS OF THE ENVIRONMENT AND HELP TO PRESERVE THE INTEGRITY OF THE BODY. THE ACTIVATION OF NOCICEPTORS ALARMS THE BODY.  THEYHAVEFAST AND SLOW CONDUCTING SYSTEMS. THEY ARE INTEGRATED WITHIN THE NOCICEPTOR REFLEX ARC

CHEMORECEPTORS

SENSORY RECEPTORS THAT MONITOR CHANGES IN THE CHEMICAL COMPOSITION OF THE CIRCULATING BLOOD. THEY SENSE OXYGEN, CARBON DIOXIDE SATURATION AND pH. THEY CONTRIBUTE TO THE REGULATION OF RESPIRATION AND CIRCULATION