Characteristics of brain glial cells Mike Zuurman Med. Fysiologie.
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Transcript of Characteristics of brain glial cells Mike Zuurman Med. Fysiologie.
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Characteristics of brain glial cells
Mike Zuurman Med. Fysiologie
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Different brain cell types
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• Glial material was first described by Rudolf Virchow (1846). ”..substance that lies between the proper nervous parts, holds them together and gives the whole its form. ..its differences to other connective tissue has induced me to give it a new name, that of neuro glia.”
• In 1891 the cellular structure of the brain was recognized: H.W.G von Waldeyer`s created the term neurons and C. Golgi discoverd and described astrocytes and suggested a nutritive role of neuroglia
• In 1921 R.del Hortega distinguished 2 cells in brain which he named microglia and oligodendrocytes
• C.L Schleich (1894) suggested active and dynamic roles for glial cells in the whole specturm of brain functions
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Glial cell markers
Cell type Marker
Oligodendrocytes Myelin basicprotein (MBP)Galactocerebroside(GC)
Microglia ED-1, OX-42,F40/80, MAC-1
Astrocytes Glial fibrillaryacidic protein(GFAP),Glutamateastrocytictransporter(GLAST)
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NeuronsMicroglia AstrocytesOligodendrocytes
Neuroectoderm
Bone Marrow
There are 10 times as much astrocytes in human brain as there are neurons50% of the brain massThere are as much microglia or oligodendrocytes in human brain as neurons
Neuroepithelial stem cells from developing ventricular zones
?
Developmental origin of glial cells
Mesoderm
neuroectoderm
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Glial cell lineages
neuronal progenitor cellsglial progenitor cells
neurons
glial cells?
neuronal ventricular zone
stem cells
O2A lineage
O2A progenitor celltype 2 astrocyte
oligodendrocytes
GFAP +A2B5 +
GC +GFAP -A2B5 -
T1A lineage
T1A precursor type 1 astrocyte
radial glial cells
?
neurons
??
?
RAN-2 -A2B5 +
RAN-2 +A2B5 -
GFAP -
GFAP +RAN-2 +A2B5 -
+ growthfactors and ECM
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A2B5 GC
GFAP
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radial glial cells in the developing CNS
time
ventricular zone
survace of the developing cortex
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Radial glia: multi-purpose cells for CNS development
T1A lineage
T1A precursor type 1 astrocyte
radial glial cells
neurons
??
+mitosis
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Functions of oligodendrocytes in the brain
• synthesize, assemble and maintain myelin• form myelin sheath which are wrapped around
axons
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Oligodendrocytes and formation of myelin
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origin of microglial cells
Invasion of the brain by monocytes and development of microglia
ED 18 birth PD3-4 PD 5 PD 22
Invasion by monocytes
Formation of the BBB
Beginn of ramification
End of ramification
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Functions of microglia in the brain
• Major immuncompetent cell of the brain• MHCII expression and antigen presentation• beneficial (production of neurotrophins) and
detrimental (synaptic stripping, phagocytose) effects on neurons
resting (ramified) microgliafully activated (phagocytic) microglia
intermediate states
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different types of astrocytes
type 2 astrocytes type 1 astrocytes
GFAP +A2B5 -
GFAP +A2B5 +
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Functions of astrocytes in the brain
• formation of growth tracts to guide the migration of neurons during early devlopment
• production of trophic factors for neurons before they make connections with postsynaptic cells
• participate in the immune response of the brain• scar tissue formation following neuronal loss• storage of glycogen as an energy reserve in the brain• uptake and release of neuroactive compounds• buffering of the extracellular ion homeostasis (spatial
buffering of K+ ions)• participate in the formation of the blood brain barrier• metabolic coupling between astrocytes and
neurons• neuron-glia and glia-neuron communication
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calcium: metabolism and its role in neuronal death
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K+, Ca++
Na+
Non-NMDA
K+, Ca++
Mg++
NMDA
Na+
Ca++
Neuronal death
Mechanism of excitotoxicity
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Metabolic coupling between astrocytes and neurons
Termination of glutamate signaling and a subsequent activation of glycolysis
in cases of energy failiure (ischemia) astrocytes are the main source for the high extracellular glutamate concentrations
from Tsacopoulos and Magistretti (1996)
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Glutamate and intracellular calcium signaling: the basis for glia-glia, neurone-glia and glia-neurone
communication?
• glutamate is the major exitatory neurotransmitter in brain
• ionotropic receptors and metabotropic receptors, which are expressed by neurons and astrocytes
• stimulation of glutamate receptors may induce calcium signaling
• over stimulation with glutamate leads to neuronal death, glutamate induced neurotoxicity is the major damage in ischemia
• calcium is important intracellular messenger and has a vast array of different functions in the cell
• calcium signals can be distinguished in singel calcium spikes and calcium waves
• calcium waves can occur intracellular as well as intercellular and they can occur in nearly all cells
• the function of calcium waves are still unkown
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• Allmost all receptors found on neurones were expressed by astrocytes as well (neurotransmitters, neuropeptides, growth factors, cytokines…)
• they express a great variety of ion channels (voltage gated and transmitter gated)
• transport systems for ions, neurotransmitters…….• formation of “networks” via gap junctions• size of astrocytic networks is brain region dependent
Features of astrocytes in the brain
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Calcium signaling in cultured astrocytes
Calcium signals in astrocytes are (partly) stimulus specific, reproducible, complex in terms of strengh, velocity (10-30 um/s) and spacial aspects
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Questions?
what is the neuron-astrocytesignal?
how does the calcium signal spread through the astrocyte network?
what is the astrocyte-neurone signal?
what does it all mean, are therephysiological effects, is this real communication between neurones and astrocytes?
Calcium signals observed in various brain cell preparations
stimulation of neurones causes calcium signals in astrocytes in culture, (1992) in vivo like systems (1996)
Calcium waves spread through astrocytes
in culture, (1990)
in vivo like systems (1995)
Astrocytic calciumsignaling induces calcium signals in neurones (1994)
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Neuron-astrocyte signaling
Hippocampal slicesneurons in Schaffer collateralsastrocytic intracellular calcium in stratum radiatum
high frequency Calcium transients in astrocytes
low frequency no effect
Transmitter: glutamate
Astrocytic calcium waves are dependent on neuronal activityPorter and McCarthy, 1996; Pasti et al., 1997
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Astrocyte-astrocyte signaling
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Astrocyte-astrocyte signaling
ATPCotrina et al., 1998, 2000
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Synaptic neuronal activity controls the development of astrocytic networks(Rouach et al., 2000)
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astrocyte - neuron signaling
Glutamate- Parpura et al., 1994and several other papers
Gap-junctions- Nedergaard, 1994
- gap-junctions between neurons and astrocytes in culture (Froes et al., 1999)- gap-junctions between neurons and astrocytes in locus ceruleus (Alvarez-Maubecin et al., 2000)
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Araque et al., - astrocytic glutamate modulates the magnitude of action potential-evoked transmitter release (1998a) - as well as the the probability of transmitter release in unstimulated synapses (1998b)
Astrocytes may control synaptic plasticity
- astrocytes mediate potentiation of inhibitory synaptic transmission in hippocampal slices (Kang et al., 1998)- astrocytic modulation of neuronal activity in the retina (Newman and Zahs, 1998)
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Astrocytes, integrators of synaptic activity?
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Two principles of signal transmission in brain:
Wiring against Volume transmission(Zoli and Agnati, 1985)
• Single “transmission channel” made by cellular structures and with a region of discontinuity not larger than a synaptic cleft
• Hardware for WT neurons and astrocytes, synapses and calcium signaling
• Diffusion of a cell source of chemical signals in the extracellular fluid for a distance larger than the synaptic cleft
• NO, dopamine, adenosine neuropeptides are known to diffuse for more than 1mm in brain
• neuromodulators differ from neurotransmitters in that their effects are generally more global and longer lasting than the effects of the latter (F. Bloom, 1988)
• Hardware for VT extracellular fluid in the interstitial volume fraction (20% of the brain volume)
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Swelling of astrocytes may influence “volume wiring” in the brain
open synapse closed synapse
This has not been shown so far, it is a theory. But it is pretty clear that astrocytic volume changes occur in in-vivo like preparations and that the swelling and shrinkage of astrocytes is controlled by intracellular calcium signaling
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leech rodents human10:1 1:1 1:10
neuron : astrocyte ratio
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Conclusions
• Like neurons are glial cells derived from ventricular zone stem cells
• oligodendrocytes built up the myelin sheath around axons
• miroglia are the major immunocompetent cell of the CNS
• astrocytes are involved in CNS pattern formation• astrocytes and neurons are metabolically coupled• glutamate and intra- inter-cellular calcium signals
between astrocytes and neurons are capable of modulating synaptic activity
• “….one now begins to feel more comfortable with the concept that the majority of cells in the CNS are no longer “passive partners” to neurons” A. Vernadakis (1996)