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Mindmap von chris.brees, aktualisiert more than 1 year ago
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Erstellt von chris.brees
vor fast 11 Jahre
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L02 - Development
and Anomalies of
Development in the
CNS
- Brain development
- Understanding pathology with age comes
from understanding the development
- Key points in development
- Development continues throughout life - not complete at birth
- First neurones are created at 3 weeks - early start to
development
- Damage easily caused by toxic substances
- Damage easily caused by toxic substances
- By 3 months there is an early brain plan
- 6-9 months white matter develops
- After being born for 12 months - no neuronal
proliferation, but slight ability to regenerate
- Myelination is 50% complete by 18 months (not complete until teens)
- By 20, the brain is mature in structure and it looks like this for the rest of your life
- Dynamic processes of the brain (formation & destruction of synapses) continues throughout life
- Development continues throughout life - not complete at birth
- Understanding pathology with age comes
from understanding the development
- Issues
- How do some cells end up as neurones?
- In the embryo, Gastrulation occurs
- Ball of cells polarised
- Head and tail discernible
- Layers
- Endoderm
- Viscera
- Viscera
- Ectoderm
- Musculoskeletal system
- Musculoskeletal system
- Ectoderm
- Nervous system (+skin)
- Neurulation
- Occurs 3 weeks after conception
- Therefore can be dysrupted by toxic agents
- Therefore can be dysrupted by toxic agents
- Formation of the neural plate
- Due to interactions between cell surface proteins
of the ectoderm, notochord and mesoderm
- Cells near the notochord form the neural plate
- Neural plate formation due to conc. gradient of secreted molecules by the notochord
- Neural folds form, with a neural groove in between
- Involves; (i) changes in cell shape, (ii)
movement of cells, (iii) interactions with
surrounding tissues
- Neural folds fuse, forming:
- Neural Tube
- Spinal Cord
- Brain Cells
- Clinical relevance
- Defective closure of neural tube
- Anteriorly
- Anencephaly
- Anencephaly
- Posteriorly
- Spina Bifida
- Spina Bifida
- Anteriorly
- Massive cell division
- Dependent on folic acid
- Dependent on folic acid
- Gene Defects
- Defects in protein expression
- Affect Cell-Cell interactions
- Often results in embryo death
- Often results in embryo death
- Affect Cell-Cell interactions
- Defects in protein expression
- Defective closure of neural tube
- Spinal Cord
- Neural crest
- Neurones with cells body in Peripheral NS
- e.g. Dorsal Root Ganglia, Sympathetic chain, Schwann cells
- e.g. Dorsal Root Ganglia, Sympathetic chain, Schwann cells
- Neurones with cells body in Peripheral NS
- Neural Tube
- Involves; (i) changes in cell shape, (ii)
movement of cells, (iii) interactions with
surrounding tissues
- Neural plate formation due to conc. gradient of secreted molecules by the notochord
- Due to interactions between cell surface proteins
of the ectoderm, notochord and mesoderm
- Occurs 3 weeks after conception
- Nervous system (+skin)
- Endoderm
- Layers
- Head and tail discernible
- Ball of cells polarised
- In the embryo, Gastrulation occurs
- How do they become organised in the developing brain?
- Anterior-Posterior patterning
- Anterior end
- 3 Vesicles
- All brain derived from walls
- All brain derived from walls
- 3 Vesicles
- Signals for polarity;
secreted and cell-surface
- Dickkopf ('fat brain' in German)
- Anteriorising, over-expression = large forehead
- Anteriorising, over-expression = large forehead
- Noggin
- Vit. A
- Used in organisation pathway
- Excess intake can
interrupt anterior
brain formation in
the embryo
- Excess intake can
interrupt anterior
brain formation in
the embryo
- Used in organisation pathway
- Dickkopf ('fat brain' in German)
- Anterior end
- Dorsal-Ventral (Top-Bottom) patterning
- Sonic Hedgehog (Shh)
- (Mutation causes spikey effect)
- Causes ventral formation
- Motor neurones of cranial nerves
- Dopaminergic neurones
- Impact in Parkinsons Disease
- Impact in Parkinsons Disease
- Serotonergic neurones
- Impact in psychiatric issues (depression) - therapy?
- Impact in psychiatric issues (depression) - therapy?
- Motor neurones of cranial nerves
- (Mutation causes spikey effect)
- Sonic Hedgehog (Shh)
- Organisation into regions/nuclei
- Cortical Layering
- Migration of neuroblasts (created
weeks 5-20) from the Ventricular Zone
into the Cortical Plate
- Along Radial Glia
- Migration Abnormalities
- Cortical Dysgenesis
- Many syndromes with differing
degrees of migration issues and
differing degrees of impact
- Many syndromes with differing
degrees of migration issues and
differing degrees of impact
- Lissencephaly
- Significant cortical dysgenesis
- Smooth cortex
- Large functional issues
- Significant cortical dysgenesis
- Other disorders
- Autism
- Schizophrenia
- Epilepsy
- Dyslexia
- Cerebral palsy
- Specific disorders due to
cortical dysgenesis in
particular areas
- Autism
- Cortical Dysgenesis
- Differentiation
- Cell maturation and differentiation
- Inputs - Dendritic
Processes form
- Outputs - Axons form
- No further division (after
processes formed)
- This is why damage is such a problem
- This is why damage is such a problem
- Inputs - Dendritic
Processes form
- Differential gene activation
- Transmitters/Receptors
- Transmitters/Receptors
- Cell maturation and differentiation
- Along Radial Glia
- Migration of neuroblasts (created
weeks 5-20) from the Ventricular Zone
into the Cortical Plate
- Cortical Layering
- Anterior-Posterior patterning
- How do they make appropriate connections with each other?
- Axons Need to...
- Extend
- Lamellipodia
- Receptors on the axon which attach to the
extracellular environment (proteins such as
laminin) and promote growth
- Receptors on the axon which attach to the
extracellular environment (proteins such as
laminin) and promote growth
- Grow in groups
- Form white matter tracts (bundles)
- Fasciculation into fascicles
- Cell adhesive molecules allow this - surface receptors
- Form white matter tracts (bundles)
- Lamellipodia
- Grow towards correct targets
- Chemoattractants
- Attract axon
- e.g. netrin
- Attract axon
- Chemorepellants
- Repel axon
- e.g. ephrin
- Repel axon
- This occurs due to axon
receptor expression -
creating a specific
chemical environment
- Chemoattractants
- Extend
- Synaptogenesis
- Two-way signalling
- Presynaptic sends an invitation
- Postsynaptic must accept/reject signal
- Signalling via trophic
factors such as NGF
- Presynaptic sends an invitation
- Synaptic loss important
in degeneration of brain
function
- Two-way signalling
- Refinement
- Organised apoptosis
of neuronal cells
- Removing sub-standard/incorrect
signalling cells
- Controlled by gene expression
- Controlled by gene expression
- Also occurs pathologically
- Alzheimer's Dementia
- Parkinsons Disease
- Alzheimer's Dementia
- Removing sub-standard/incorrect
signalling cells
- Organised apoptosis
of neuronal cells
- Neurodevelopmental disorders
- Autism
- Schizophrenia
- Cerebral palsy
- Epilepsy
- Dyslexia
- Gene expression vital in development
- Autism
- Axons Need to...
- How do some cells end up as neurones?
- Therapeutic Revevance
- Hijack processes
- Stem cells
- Activating stem cells in adults
- CNS repair?
- CNS repair?
- Spinal cord damage
- Stem cell transplant in
neurodegenerative disorders?
- SC must develop in neurone
in developing brain - problem
- SC must develop in neurone
in developing brain - problem
- Activating stem cells in adults
- Hijack processes
Medienanhänge
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