9.14 - Brain Structure and its Origins Spring 2005 Massachusetts … · 2019. 9. 12. · side view....
Transcript of 9.14 - Brain Structure and its Origins Spring 2005 Massachusetts … · 2019. 9. 12. · side view....
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9.14 - Brain Structure and its OriginsSpring 2005 Massachusetts Institute of Technology Instructor: Professor Gerald Schneider
9.14 MIT 2005
Class 6 completion
Neocortex introduced
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Neocortex and its elaboration in mammalsTopics
• "Shmoo 2“: the mammalian brain • Major ascending and descending connections
• General view of functions
In this introduction, we skip over the evolution of neocortex, but we will return to this major topic later.
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Shmoo brain with
neocortex indicated
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“Shmoo 2”– side view.
Top view, embryonic brain (with spinothalamic tract)
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Two major long pathways associated with neocortex of present-day mammals:
1) “Neolemniscus”: the dorsal column–medial lemniscus pathway.
2) Corticospinal tract.
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nucleusnucleus
1) The dorsal column – medial lemniscus pathway. 2) The corticospinal tract.
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1. Dorsal columns 2. Nuclei of the dorsal columns 3. Medial lemniscus 4. Ventrobasal nucleus of thalamus (n. ventralis posterior) 5. Thalamocortical axon in the “internal capsule” 6. Corticofugal axons, including corticospinal components. Called “pyramidal tract” in hindbrain below pons. 7. Pons
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nucleusnucleus
1) The dorsal column – medial lemniscus pathway. 2) The corticospinal tract.
1
1. Dorsal columns 2. Nuclei of the dorsal columns 3. Medial lemniscus 4. Ventrobasal nucleus of thalamus (n. ventralis posterior) 5. Thalamocortical axon in the “internal capsule” 6. Corticofugal axons, including corticospinal components. Called “pyramidal tract” in hindbrain below pons. 7. Pons
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1) The dorsal column – medial lemniscus pathway. 2) The corticospinal tract.
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1) The dorsal column – medial lemniscus pathway. 2) The corticospinal tract.
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But what does neocortex do?(i.e., why did it evolve?)
• In evolution there was an increasing specialization of thalamic and corresponding neocortical areas. – These specialized areas added greater sensory and motor acuity. – Such acuities affected both the triggering and execution of FAPs. – Separation of objects from background stimuli became better.
• More uniquely, neocortical expansion is associated with an increasing ability to anticipate stimuli, and an increasing ability to plan actions in advance. – Anticipation depends on imaging abilities, using an
internal model of the external world—a simulation. Imaging depends on posterior neocortex.
– Planning abilities use the internal model, and depend on anterior (frontal) areas.
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Review of a few basic points
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Behavioral recovery from diaschisis effects
• “Recovery” implies a return to normal.• However, this is not generally true for
recovery from deafferentation depression.• After depression of spinal reflexes caused by a
loss of descending connections to the spinal cord, the changes can go too far, resulting in hypersensitvity of spinal reflexes: “reflex spasticity”.
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Review:The long pathways which evolved with the neocortex:
• Rapid inputs to the neocortical mantle of the endbrain, via a synaptic connection in the diencephalon: We depicted a major one for somatosensory information.
• More direct outputs to the spinal motor mechanisms, bypassing the intervening structures: We depicted projections from somatosensory and motor areas of neocortex.
• STUDY THE FIGURES!
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Terms:
• “Projection”: the output pathway from a group of neurons via their long axons.
• Examples: – The projection from motor cortex to the spinal
cord is called the corticospinal tract (or pyramidal tract).
– The spinotectal projection, or spinotectal pathway: axons from the spinal cord, via the spinothalamic tract, to the midbrain tectum (roof of the midbrain).
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Taking stock of where we are in learning the anatomy of the CNS
Where do we go from here?
• We have a rudimentary outline. • How do we get more involved in learning
about these basic structural divisions?
• We will be aided by studies of CNS evolution and by studies of development in mammals, including humans.
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A sketch of the central nervous system and its origins
G. E. Schneider 2005 Part 4: Development and differentiation, spinal level
MIT 9.14 Class 7Neurulation, proliferation, migration &
differentiation, spinal level
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Note on evolution:
• We will study spinal cord first. But remember: – The brain did not evolve only after the evolution of
spinal cord. It – most obviously the hindbrain -evolved along with the primitive spinal cord.
– This is supported by data on the little non-vertebrate chordate Amphioxus.
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Spinal cord structure and the autonomic nervous system
topics
• Some embryology: a look at neurulation and the developing spinal cord
• Survey of adult spinal cord • Autonomic nervous system
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Developmental steps leading to a nervous system
1) Fertilized egg
2) Morula
3) Blastula
4) Gastrula
5) Neurula
As the basic form of the embryo is moulded in these early stages of development, what are the basic cellular activities?
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As the basic form of the embryo is moulded in these early stages of development, what are the basic cellular activities?
According to Wolpert (1992, ch. 2): • Contractions • Changes in adhesion (via expression of CAMs)• Cell movement • Growth
These activities are how cells accomplish developmental changes.
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From blastula to gastrula: Note the role of filopodia in gastrulation
Figure by MIT OCW.
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Precursers of skeleton find their way along the inner wall of the embryo
Figure by MIT OCW.
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Development of the CNS: 4 major events
1. Neurulation, formation of neural tube
2. Proliferation 3. Migration 4. Differentiation, with growth of axons and
dendrites
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Focus on the developing spinal cord
• Formation of the neural tube from the embryonicectoderm (neurulation)
• Alar and basal plates; sulcus limitans (can be followed up to midbrain)
• Neural crest cells: form the dorsal root ganglia,and the ganglia of the autonomic nervous system, plus adrenal gland cells (as well as some other cells)
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Closure of neural tube
Neural groove
Neural tube and
Roof plate
NotochordNeural plate
neural crest
Alar plate
Basal plate Floor plate
Ectoderm
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“Neurulation”
• Separation of neuronal cells from the ectoderm and formation of the neural tube is called neurulation.
• When this occurs, the cells of the peripheral nervous system separate from those of the central nervous system. They come from the “neural crest”.
• We will look at what happens using several different pictures and animations.
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Neurulation and formation of neural tube
• Discovery of induction of CNS by notochord region
• Discovery of inducing molecules– SHH (sonic hedgehog protein) diffuses from
notochord
– SHH functions also as a "ventralizing factor" influencing the differentiation of basal plate cells
• Discovery of "dorsalizing factors" secreted by ectoderm adjacent to neural plate – BMP-4 & 7 (BMP=bone morphogenetic protein).
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Neural tube
Closing Somites
Neural Groove
Neural Groove
Brain Primordium
Neural Tube
Figure by MIT OCW.
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Neurulation: animation
Screenshots from neurulation videos removed due to copyright reasons.
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Neurulation in Xenopus, movie
Screenshots from neurulation videos removed due to copyright reasons.
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Neural Tube Formation
Screenshots from neurulation videos removed due to copyright reasons.
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Neural Tube formation, 18-day human
Figure by MIT OCW.
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Neural Tube formation, 22-day human
22 days
24 days
Central canal
Brain plate
Neural tube
Neural crest
Telencephalon
BrainDiencephalon
Neural tube
Spinal cord
Mesencephalon
Rhombencephalon
Dorsal rootganglion
Figure by MIT OCW.
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Closure of neural tube with formation of sympathetic ganglia: learn the terms!
Neural plate Ectoderm Notochord
Neural groove
Roof plateNeural tube and Alar plate
neural crest Basal plate Floor plate
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Fate of the neural crest cells along the rostro
spinal cord.
caudal axis of the embryonic CNS
We will mention some of these cells after we review the developing
CranialCranial
Vagal
Trunk
Lumbosacral
Connective tissue and skeletal contributions to faceConnective tissue and skeletal contributions to face
Schwann cellsSchwann cells
Ciliary and cranial sensory gangliaCiliary and cranial sensory ganglia
Enteric (gut) nervous system
Enteric (gut) nervous system
MelanocytesSensory and sympathetic ganglia
Schwann cells
Adrenomedullary cells
Figure by MIT OCW.
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Proliferation in the early neural tube
• Mitoses adjacent to the ventricle – Symmetric cell division:
• two daughter cells remain in proliferative state. – Asymmetric cell division:
• one daughter cell becomes post-mitotic and migrates away from ventricular layer.
• Ventricular layer is called the “matrix layer” of the developing spinal cord – The neural tube is a one-cell thick "pseudostratified
epithelium". – Cell nucleus moves within the elongated cell:
• During the steps of cell division (proliferation by mitoses) • During migration by the post-mitotic cell
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Neurogenesis: Cell proliferation (by mitosis)
BASAL
APICAL
G1 S G2 M SYMMETRIC ASYMMETRIC
Figure by MIT OCW.
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Neuroepithelial Cells (Cajal)
Figure removed due to copyright reasons.
Please see:Cajal, S., and Ramón Y. Histology of the Nervous System of Man and Vertebrates.
Translated from the French by Neely Swanson and Larry W. Swanson. 2 vols. New York,
NY: Oxford University Press, 1995. ISBN: 0195074017.
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Neuroepithelium,chick spinal cord, day 3 (Cajal)
Figure removed due to copyright reasons.
Please see:Cajal, S., and Ramón Y. Histology of the Nervous System of Man and Vertebrates.
Translated from the French by Neely Swanson and Larry W. Swanson. 2 vols. New York,
NY: Oxford University Press, 1995. ISBN: 0195074017.
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Migration: three types
• Nuclear translocation • Guidance of cell movement by radial glia cells
• Guidance of cell movement by other substrate factors
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A definitive demonstration of nuclear translocation as a mechanism of cell “migration” in the CNS
• Development of the Shepherd’s Crook Cell in Chick Optic Tectum
• Why was this important? Think about the techniques being used, and the nature of the controversy about the mechanism of cell migration in the developing CNS.
Domesick V.B. and Morest D.K. (1977) Migration and differentiation of shepherd's crook cells in the optic tectum of the chick embryo. Neuroscience 2: 477-492
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Midbrain surface
Ventricle
1 2 3 4
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• Other mechanisms of cell migration in the CNS will be considered later.
• After – or even during -- neuronal migration in the spinal cord, the neurons are starting to differentiate.
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Neuroepithelium, chick spinal cord, day 3 (Cajal)SHOWN EARLIER
Figure removed due to copyright reasons.
Please see:Cajal, S., and Ramón Y. Histology of the Nervous System of Man and Vertebrates.
Translated from the French by Neely Swanson and Larry W. Swanson. 2 vols. New York,
NY: Oxford University Press, 1995. ISBN: 0195074017.
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Figure removed due to copyright reasons.
Please see:Cajal, S., and Ramón Y. Histology of the Nervous System of Man and Vertebrates.
Translated from the French by Neely Swanson and Larry W. Swanson. 2 vols.
New York, NY: Oxford University Press, 1995. ISBN: 0195074017.
Chick spinal cord, day 3
(Cajal), showing early differentiation
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Differentiation: Growth of dorsal and ventral roots
We will return to axonal growth later. First, a look at the adult spinal cord and brain.
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REVIEWSome neurodevelopment terms to be familiar with
ectoderm (vs. mesoderm and endoderm),ventricular layer, mantle layer, marginal layermodes of migration, radial glia (radial astrocytes),ependyma, sulcus limitans, alar and basal plates, neural crest,dorsal and ventral roots and rootlets.
From Nauta & Feirtag, ch.10, and other texts
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Survey of adult human spinal cord
• Different levels, illustrated
• The sensory channels (reflex, spinocerebellar and spinothalamic tracts, origin of dorsal column axons)
• Major descending pathways (cortico-, rubro-, reticulo-, and vestibulo-spinal)
• “Propriospinal” fibers.
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Left: Internal structure of spinal cord
Right:
Levels, rostral to caudal
Figure by MIT OCW.
INTERNAL STRUCTURE OF THE SPINAL CORD
Dorsal RootFibers
Fasc.Gracilis
Nuc cornucommissuralis PosteriorSubstantia Gelatinosa
Nuc. Posteromarginalis
Zone of LissauerLat. Corticospinal Tr.
Nuc. Proprius Cornu DorsalisNuc. ReticularisNuc. Dorsalis (of Clarke)
Ant. Spinocerebellar Tr.Lat. Spinothalamic Tr.
Nuc. Motorii LateralisFasc. Proprius
Ant. Spinothalamic Tr.Vestibulospinal Tr.
Nuc. Motorii MedialisVentral Root Fibers
Internal Structure
Spinal Cord Segment C1
Segment C5
Segment C8
Segment T2
Segment T10
Segment L1
Segment L4
Segment S4
III
IIIIV
V
VI
VII
VIIIIX
IXIX
IX
X M
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Different levels, illustrated:Note the following things
• Gray vs. white matter. Gray matter: dorsal and ventral horns
• Changes in amount of white matter, rostral to caudal – More and more descending axons leave the white
matter – More and more ascending axons join the white matter
• Cervical and lumbar enlargements – See p.222 of Striedter for picture of Brontosaurus
• Presence of “lateral horn” in thoracic and upper lumbar cord
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Comparisons, speculations
• Role of myelin – “A crucial vertebrate innovation” (Allman p. 78):
Why? – Not found in any invertebrate or in the jawless
vertebrates (hagfish, lampreys) • How does spinal cord of humans differ from
spinal cords of other mammals?
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Spinal cord cross sectionLumbar level
Figure by MIT OCW.
Zona Terminalis
Substantia Gelatinosa
IIIIII
IV
V
VI
VII
VIIIIX
Drawing based on cell - body stain
Note the laminae ofRexed.
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Survey of adult human spinal cord
• Different levels, illustrated
• The sensory channels (reflex, spinoreticular & spinothalamic, and spinocerebellar tracts; origin of dorsal column axons)
• Major descending pathways (reticulo-, vestibulo-, rubro-, and corticospinal)
• “Propriospinal” fibers
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Selected References
Slide 21: Wolpert, L. The Triumph of the Embryo. New York, NY: Oxford University Press, 1991, chapter 2. ISBN: 0198542437. Slide 22: Wolpert, L. The Triumph of the Embryo. New York, NY: Oxford University Press, 1991, chapter 2. ISBN: 0198542437.