How is the brain composed? Weight?
77% water
12 % lipids
8 % protein
2 % soluble organic substances
1 % carbohydrates
Weight: 1 and a half bottle of water
Which part of the brain contains most of the neurons? Which part contains most of the weight?
most of the neurons: Cerebellum
(although it represents only 10% of the weight)
most of the weight: Cortex
(In human: cerebral cortex with sulci and gyri – surface 2.600 cm2)
What do we have to recognize when performing mice/rat experiments?
Ratio neurons/non-neurons is different in human and rodent (1:1 vs. 1:4)
How is neurogenesis during development performed?
Cell proliferation
Cell migration
Cell differentiation
Where does the cell proliferation in neurogenesis during development take place and how?
radial glial cells = neural progenitor cells, located in the ventricular zone (near the inner surface of the neural tube))
initially: symmetric cell division = vertical cleavage
—> expansion of progenitor cells
later: asymmetric cell division predominates = horizontal cleavage
—> daughter cell migrates to the cortex and never divides again
—> the other daughter cell remains in the ventricular zone to continue dividing
What are the sourced of the cerebral cortex cells? Which zone and part of the telencephalon do they come from?
pyramidal neurons
= glutamateric neurons
ventricular zone of the dorsal telencephalon
radial migration
cortical astrocytes
GABAergic interneurons
ventricular zone of the ventral telencephalon
tangential migration
Oligodendrocytes
Why is the migration of glutamergic and GABAergic neurons different?
glutamergic migrate radial
origin in dorsal part of the telencephalon
lays under the cortex
GABAergic migrate tangential
origin in ventral part of the telencephalon
far away from dorsal cortex
Which cells are important for the migration of the proliferated cells? What is special about the migration? Which plate do they build?
radial glial cells in ventricular zone
Cajal-Retzius cells in marginal zone
= inside out development of the cerebral cortex
layer VI
layer V
…
—> form the cortical plate
Which protein regulates the assembly of the cortex?
Reelin (ECM protein, secreted into marginal zone by Cajal-Retzius cells)
Reeler mouse: = Reeler mutant
cortical plate cannot be fomred
cells cannot migrate
inverted layer order
Which structure lays above the marginal zone?
Pia mater
Which receptor may also be crucial in the development of the cortex (in mice)?
the cannabinoid CB1 receptor
regulates migration of cortical neurons
the inside-out development is disrupted
In which sequence do the cells differentiate?
neuronal differentiation
astrocyte differentiation
oligodendrocyte differentiation
What can influence the differentiation of the cells?
source
timely sequence
intracellular signals
Semaphorine 3A
in marginal zone
responsible for polarisation e.g. neurons
—> repels growing axons (causing them to move away from the surface) and attracts apical dendrites (causing them to grow toward the brain's surface)
What do we know about neurogenesis in the adult brain?
NOT in cortex (very old)
in Hippocampus (crucial for learning and memory)
700 neurons daily (same number we lose every day)
too limited to repair CNS damage
What do we see here? What do Filopodia do?
The growth cone of an axone
Filopodia prode the environment and direct the growth of the neurite towards attractive cues
What are cues?
attracte cues for axons = Netrin
secreted by cells of ventral midline
—-> axons with Netrin receptor grow to midline
<-> Slit (rejects axone)
—> axons with Slit receptor (“Robo”) grow away from midline
—> axon grows to the midline until it crosses the midline
—> change of expression (Netrin receptor —> Slit receptor “Robo”)
—> grows away from midline
What is a molecular highway and what is the difference to fasciculation?
fasciculation: axons grow together in bundles by adhering to one another with the help of cell adhesion molecules (CAMs)
molecular highways: Laminin and Integrin molecules = ECM = determine growth direction
What has to happen that a neuromuscular synapse is built?
a growth cone must to get in contact with it´s target
interaction between proteins secreted by
the growth cone = e.g. Agrin
the target membrane = e.g. MuSK (Agrin receptor) in muscle cell membrane
—> ACh receptors in postsynaptic membrane are built via Rapsyn
What has to happen that a CNS synapse is built?
dendritic Filopodium contacts an axon (that passes by)
presynaptic: recruitment of synaptic vesicles + active zone proteins
postsynaptic: neurotransmitter receptors accumulate
adhesion molecules are expressed by both presynaptic and postsynaptic membranes
Why can´t neurons in CNS regenerate in humans?
mechanisms that ensure
stability and speed in the adult human brain (such as myelin and the associated proteins)
simultaneously block the ability to reorganize and heal after an injury (e.g. specific environment that inhibits axonal growth)
What is apoptosis in relation to the development of the nervous system? Why is this curcial?
Cells that do not receive enough of survival factors activate a genetic suicide program = apoptosis
factors e.g. NGF, released by target tissues
—> crucial for precisely matching the number of neurons to the size of the target area
What is activity dependance?
neural connections occur in three phases
[pathway selection (based on chemical signals)]
[target selection (based on chemical signals)]
address selection (based on neuronal activity and synaptic transmission)
activity dependence plays a crucial role
includes synaptic rearrangement in the end
Hebb´sche Regeln
—> only synapses whose activity correlates with that of their target cells persist over time
What are the Hebb´sche Regeln?
LTP (long-term potentiation): „Neurons that fire together, wire together“
LTD (long-term depression): „Neurons that fire out of sync, lose their link“
Which receptor plays a crucial role in activity dependance? And why?
NMDA receptor
—> acts as a coincidence detector for LTP and LTD
Where does the development of the nervous system start?
Ectoderm —> neural plate —> neural tube —> CNS
Ectoderm —> neural plate —> neural crest —> all neurons with cell bodies in PNS
When does the formation of the neural tube begin and how is the process terminated?
22 days after conception
= neurulation
Which 3 vesicles are built in the CNS? Are there any secondary vesicles?
Forebrain
Optic vesicle
Thalamus / Diencephalon
Telencephalon
Midbrain
Hindbrain / Rhombencephalon
How does the Forebrain differentiate?
Retina
Optic nerve
Dorsal thalamus
Hypothalamus
Third ventricle
Olfactory bulb
Cerebral cortex
Basal telencephalon
Corpus callosum
Cortical white matter
Internal capsule
Lateral ventricles
How does the midbrain differentiate?
Tectum
Tegmentum
Cerebral aqueduct
How does the Hindbrain differentiate?
Hindbrain (Rhombenecephalon)
rostral Hindbrain
Cerebellum
Pons
fourth ventricle
caudal Hindbrain
Medulla
Medullary pyramids
How does the spinal cord differentiate?
White matter columns
Spinal canal
Spinal gray matter
Dorsal horn
Ventral horn
Intermediate zone
To summarize: To which main structures develop the primary vesicles?
cortex
basal telencephalon
olfactory bulb
Diencephalon
Thalamus
Mesencephalon
Hindbrain
Spinal cord
To summarize: To which brain structure relate the ventricles and the cerevral aqueduct?
lateral ventricles
third ventricle
cerebral aqueduct
What do we know about neocortical evolution?
volume (surface area) of the neocortex has changed
Differences in the duration of cell division during development result in a significantly larger surface area of the human cortex compared to other species
basic structure (layered architecture) remained largely the same
<-> expansion of association areas (Bordmann-Areas) in the human brain as a recent evolutionary trait
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