Cell Neuroscience - Neurons and Glia - Part 2 Flashcards
This MAP is an ATPase responsible for retrograde transport from nerve ending towards the negative end of the microtubule, soma. It is also the motor protein causing movement of cilia and flagella. It becomes inactivated in the soma and is carried back to the nerve ending to be re-activated. What is it?
Dynein
Slowing down of the ___ transport may lead to neurodegeneration and cell death, and also may play part in the development of some neurodegenerative diseases
retrograde dynein dependent
What are the functions of Astrocytes in the CNS?
role in
- maintaining homeostasis at the synapse,
- regulating neuronal signalling,
- protecting neurons from oxidative damage by releasing antioxidant enzymes
- determining the fate of endogenous neural precursors by e.g. releasing growth factors
Which antioxidant enzymes are released by Astrocytes to protect neurons from oxidative damage
- Mn- and CuZn
- superoxide dismutase, SOD
Why is it important that astrocytes in the CNS release cholesterol?
important for increasing the number of synapses and thus the synaptic activity and plasticity of neurons
What are the four morphologic classes of GFAP (glial fibrillary acidic protein) positive astrocytes present in the human brain?
- interlaminar astrocytes
- protoplasmic astrocytes
- varicose projection astrocytes
- Fibrous astrocytes
Where in the CNS are interlaminar astrocytes found?
Densely packed in cortical layer 1.
Where are protoplasmic astrocytes found in the CNS?
Cortical layers 2-6
Where in the CNS are varicose projection astrocytes found?
Cortical layers 5-6
Where in the CNS are Fibrous astrocytes found?
White matter
There are also astrocytes in the ___, which have recently been suggested to have functional roles in pathological pain partly by modulating synaptic transmission between neurons and nociceptive pathway.
spinal cord
Astrocytes display ___, which can then trigger the release of gliotransmitters, such as ___, ___ and___.
- spontaneous and neuronal activity-evoked oscillations in their intracellular Ca2+ concentration
- glutamate
- D-serine
- ATP
The excitability of astrocytes are not based on action potentials (as in neurons) but rather on changes in the ___.
-intracellular Ca2+ ion concentration.
Astrocytes associated with the neurovascular unit are responsible for ___ in the brain. Damage to the neurovascular unit may be a factor in ___, where vascular ___ deposits are often found.
- maintaining cerebral blood flow and ionic and osmotic balances
- e.g. the pathogenesis of Alzheimer’s disease
- amyloid
In Alzheimer’s disease, as well as in head trauma and ischemia, astrocytes are known to ___ and also form ___, isolating neurons from each other
- become reactive
- glial scars (glial boundaries)
