neuroscience optional lecture - fiziologie · stedman’s medical dictionary, 25th edition. why...
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NeuroScience Optional LectureEnglish Module, Semester 2, 2019/2020
Lecture 1
Ana-Maria Zagrean M.D., Ph.D.
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Neurosciences = the scientific disciplines concerned with
the development, structure, function, chemistry,
pharmacology, clinical assessments, and pathology of the
nervous system
Stedman’s Medical Dictionary, 25th Edition.
Why Neuroscience?
… neural science during the next several decades may
develop the tools needed to probe the deepest of
biological mysteries – the biological basis of mind and
consciousnees.
Erik R. Kandel, 2000 - PRINCIPELS OF NEURAL SCIENCE
What are the Frontiers?
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Neuro-hat… in a Neuro-world… ☺• Neurosociety• Neuromarketing• Neuroeconomics• Neurofinancial• Neurotechnology• Neuroinformatics• Neuropharma• Neurogenetics• Neurosciences in law and policy / neurolaw• Cognitive enhancement• Contemporary neuro-self-help• Neurofeedback• Neuroethics• Neurodiagnostics• Neuroceuticals (Cogniceuticals, Emoticeuticals, and Sensoceuticals)• Neurocompetitive• Neuro-Linguistic Programming• Neuroimmunology• Neuro-oncology• Neuro-ophthalmology • Neuro revolution…
Tanja Schneider and Steve Woolgar (InSIS, Saïd Business School, University of Oxford): On the performativity of neuro market research: market research techniques and the enactment of ignorant consumers
http://brainwaves.corante.com/archives/2004/02/12/lynchs_15_laws_of_the_neurosociety.php
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Excitability – brains’ exquisite feature…
The capacity / condition for a live system to
-recognize and respond to specific signals, as a form
of updated information, necessary for its adaptive and
continuous organization;
-also to generate spontaneous activity.
Due to its ability to give rise to spontaneous activity, the
brain does not simply process information but also
generates information.
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What make neurons spike?
1. An external stimulus2. Intrinsic - spontaneous electric activity (correlates with
metabolic cellular activity), modulated by external stimuli…
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If ‘‘the connectome’’ represents a complete map of anatomical
and functional connectivity in the brain, it should also include glia!
Neuron, April 2015
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Functional correlations between the cellular types of the nervous system – role of glial cells
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Functions of the glial cells in the central nervous system
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Cellular types of the nervous system, their distribution and functions
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Exosomes – the body nanoparticles
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Barrier interfaces of the brain
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Barrier interfaces of the brain
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The glymphatic system is a recently discovered (still debated) macroscopic waste clearance system that utilizes a unique system of perivascular tunnels, formed by astroglial cells, to promote efficient elimination of soluble proteins and metabolites from the central nervous system.
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Physiological changes linking neural and vascular responses
http://www.scholarpedia.org/article/Neurovascular_coupling
Typical CBF
response to
brief neural
activation.
(CBF)
BBB & Neurovascular coupling
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Blood Brain Barrier functions
• BBB = structural and functional barrier which impedes and regulates the influx of most compounds from blood to brain
• BBB formed by – brain microvascular endothelial cells– astrocyte end feet– pericytes
• BBB is essential for normal function of CNS– Regulates passage of molecules in and out of brain to maintain neural
environment.– Responsible for metabolic activities such as the metabolism of L-dopa
to regulate its concentration in the brain.
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Neuroglia in neurovascular coupling
- an important glial function - isolation of the nervous tissue from the rest of the body by the blood–brain barrier (BBB)
- The barrier function of the cerebral endothlial cells is under astrocytic control.
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Blood brain barrier selectivity
• Free permeability (passive diffusion):
– small molecules: H2O, O2, CO2, NH3, ethanol
– lipid soluble molecules: steroid hormones
• Carrier mediated transport (apical-basal polarity):
– glucose: GLUT-1 (insulin independent)
– amino acids
– nucleosides, nucleobases
• Pinocytosis
• Aquaporin-4 is the main channel through which water enters and leaves the CNS
• Physical blockage to paracellular diffusion (ions, peptides,
immune cells)
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Glial Cells –Non-neuronal Cells
• It is now a myth that glial cells make up about 90% of the cells in the nervous system, even if the statement is written in the textbooks…
• The number of glial and neuronal cells depends on the nervous system region
• Recent studies suggests that the glial cell : neuron ratio can be 1:1 rather than 10:1… → the brain could contain about 1 billion glial cells along with the 1 billion neurons…
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Oligodendrocytes
• Form myelin electrical insulation,
increasing conduction velocity by at least
50 times.
• Provide vital metabolic support for axons
• Save energy consume in transmitting the
nerve impulse
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Microglia
- Highly motile and responsive to nervous
system injury and infection.
- Monitor electrical activity in neurons and prune
synaptic connections.
- Involved in almost all nervous system diseases
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Microglia - 10-15% of all cells found within the brain
- are the immune cells/resident macrophages of the brain and spinal
cord (main form of active immune defense in the central nervous system,
constantly scavenging the CNS for damaged neurons and infectious
agents and decreasing inflammation).
- release substances that stimulate repair.
- microglia express receptors for neurotransmitters
- prune back synapses and rewire neural connections in a healthy brain
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Microglia
• ‘Synaptic pruning’ vs. apoptosis (PCD)
• Synaptic Pruning: the process by which extra neurons and synaptic connections are eliminated in order to increase the efficiency of neuronal transmissions
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Astrocytes
Influence nervous-system communication and plasticity
Primarily responsible for homeostasis of the central nervous system.
Ensheath synapses, regulate neuronal excitability and synaptic transmission.
Respond to injury by secreting extracellular matrix proteins.
Implicated in neurogenesis, cell migration, many neurological and psychiatric disorders.
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- Produce growth factors → regulate morphology, proliferation,
differentiation or survival of neurons and glial cells
- Role in regulation of synaptic function, volume transmission,
neuron-glia connection, network signalling
- Can also undergo remodeling (plasticity); astrogliosis in injury, neurodegeneration.
- The fine distal processes are interposed between all neuronal elements.Create a kind of synaptic island defined by its ensheathing processes.
- Role in processing information …
-Through perivascular processes astrocytes contribute to blood-brain barrier
and form the "glymphatic" drainage system of the CNS.
-Supplier of glutamine (neurotransmitters precursor).
-Contribute to neuropathologies through mounting complex defensive
programme generally known as reactive astrogliosis.
Astrocytes Roles
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- Regulation of ion concentration in the ECS:
Ex: High number of K+ channels (high permeability).
Transfere of K+ to sites of lower accumulation. High levels of K+ in ECS would
change neuronal exitability.
- Clear neurotransmitters (glutamate and GABA):
Astrocytes have distal processes rich in transporters that remove excess
neurotransmitters (especially glutamate)
If Glutamate is not removed:
Diffuses into the ECS. Presynaptic bind and inhibition of its own release.
Influence other synapses - “Intersynaptic cross-talk”
- Secrete large complex substances to the ECS: Important as structural
elements and cell to cell communication.
Ex: Promotion of the myelinating activity of oligodendrocytes through release of
cytokine leukemia inhibitory factor (LIF).
- Nervous system repair: upon injury to nerve cells within the central nervous
system, astrocytes become phagocytic to ingest the injured nerve cells. The
astrocytes then fill up the space to form a glial scar, repairing the area and
replacing the CNS cells that cannot regenerate
Astrocyte Role
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Synaptic astrocytes
1. regulate synaptic transmission by - responding to ATP and glutamate, released from the presynaptic neuron
- uptake of glutamate from the synaptic cleft via membrane transporters (green arrow) or the release of glutamate upon reversal of the transporter induced by [Na+]i- D-serine released from astrocyte strengthen synaptic transmission by coactivating NMDA receptors in the postsynaptic membrane, or reduce synaptic transmission by secreting transmitter-binding proteins (TBP)
2. communicate with adjacent astrocytes via gap junctions and with distant astrocytes via extracellular ATP.
3. the rise in Ca2+ causes release of glutamate from astrocytes, and ATP is released via an unknown mechanism, which propagates ATP signaling to adjacent cells.
GluR, glutamate receptor; Ado, adenosine; IP3, inositol trisphosphate; P1, adenosine receptor; P2, ATP receptor.
An electron micrograph of a synapse surrounded
by an astrocyte (yellow) from rat spinal cord.
Amzica, 2000
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Modulation and optimization of synapse:Regulation of chemical synapses function by
neuron – astroglia connections
GLAST = glutamat/aspartate transporter;
GLT-1 = glutamate transporter EEAT2
both Na+-dependent
[glutamate]i < 2-5 µM
[glutamate]o < 1-10 mM
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Physiological coupling of brain metabolism and neuronal activity:
Glutamate-induced glycolysis in astrocytes
phosphoglucokinase
As Neural activity there is an Energy requirement
To solve this…
Astrocytic uptake of Glutamate leads to> ADP leads to> Glycolysis within Astrocytic endfeet
which finally leads to > Lactate delivered to neuron
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Neuron-glia communication by volume transmission -
quadrupartite synapse
Neurons-to-neurons and neurons to glia communication by extrasynaptic “volume”
transmission, which is mediated by diffusion in the extracellular space (ECS) of the
CNS = the microenvironment of neurons and glial cells. Composition & size of ECS
change dynamically during neuronal activity and during pathological states.
ECS size, geometry, and composition, together with pre- and postsynaptic
terminals and glial processes, form the so-called “quadrupartite synpase”.
ECS diffusion parameters affect neuron-glia communication, ionic homeostasis and
the movement and/or accumulation of neuroactive substances in the brain → plays an
important role in extrasynaptic transmission, transmitter spillover, cross-talk between
synapses, and in vigilance, sleep, depression, chronic pain, memory formation and
other plastic changes in the CNS.