Neuro - Repair and Regeneration 2
Which type of cells are responsible for remyelination of damaged neurons in the central nervous system?
Oligodendrocytes
What is the role of chondroitin sulfate proteoglycans (CSPGs) in axonal regeneration?
They inhibit axonal growth
Which of the following is a common target for therapeutic intervention in neurorepair?
Glial cells
What is the main purpose of neurotrophic factors in neurorepair?
To stimulate neuronal survival and regeneration
Which of the following is a common mechanism of axonal regeneration in the peripheral nervous system?
Myelin degradation
What is the role of extracellular matrix (ECM) molecules in neurorepair?
They promote axonal growth
What is the function of neural stem cells in neurorepair?
To form new neurons
What is the role of glial scar formation in neurorepair?
To prevent further tissue damage
Which of the following is a common approach to enhance neurorepair?
Transplanting stem cells
What would you expect to happen if you inserted a section of peripheral nerve into a lesioned central nerve tract: regeneration or suppressed regeneration?
regeneration
True or False: Regenerated CNS axons can not form fully functioning synapses
false
What neuronal element inhibits regeneration of central axons?
myelin
Which of the following proteins does myelin contain, becoming exposed when myelin breaks down?
Nogo-A
Oligodendrocyte-myelin glycoprotein (OMgp)
Myelin-associated glycoprotein (MAG)
Chondroitin sulphate proteoglycans (CSPG) are major components of the glial scar and are thought to suppress axon regeneration through interaction with the receptor tyrosine phosphatase PTP-sigma, which activates intracellular mediators such as ____ and _____
Rho; ROCK
ROCK; Rho
Nogo-A, OMgp, and MAG are found on ______
oligodendrocytes
Nogo-A, OMgp, and MAG can bind to the receptor protein NogoR, which can associate with the neurotrophin receptor p75, and an immunoglobulin-like receptor protein PirB. Does inactivation of PirB results in enhancement or inhibition of corticospinal axon regeneration?
enhancement
The extracellular space contains two obstacles to nerve growth: ____ molecules, which have a backbone and many side branches that block the way; and ____ proteins that actively stop growing nerve fibres.
CSPG; Nogo
The bacterial enzyme chondroitinase ABC can prune the side chains of ____, clearing the way for growing nerve fibres. It has also been shown that Nogo can be blocked by specific _____.
CSPG; antibodies
True or False: The growth potential of central axons decreases with age
true
True or False: If the peripheral branch of an axon is sectioned (lesioned) before the central branch is damaged, the central branch will grow beyond its lesion site
true
The impact of a peripheral “conditioning lesion” can be mimicked by elevating levels of ____ or the growth-associated protein ____ in the peripheral branch
cAMP; GAP-43
Suppressor of cytokine signaling 3 (SOCS3) blocks the ability of _____ to bind its receptor GP130 and thus blocks it from promoting regeneration
CNTF
ciliary neurotrophic factor
Would you expect regeneration in a SOCS3 knockout mouse? Yes or no
yes
Phosphatase and tensin homolog (PTEN) blocks signaling through _______
mammalian target of rapamycin
mTOR
Would you expect regeneration to occur in a mouse with a functional gene encoding PTEN? Yes or no
no
True or False: Severed corticospinal axons can re-establish connections with motor neurons by sprouting axon collaterals that innervate propriospinal interneurons whose axons bypass the lesion and contact motor neurons located caudal to the lesion site
true
True or False: Function can be recovered after spinal cord injury through reorganization of spinal circuits
true
The cortex projects to the spinal cord via the corticospinal tract (CST) and also projects to the ___ in the brainstem
ventral gigantocellular nuclei
vGi
Neuromodulation and rehabilitation training coax the cortex into re-establishing connectivity with the spinal cord by enhancing the formation of circuits between ___ and ____, as well as vGi and spinal cord below the level of injury
cortex; vGi
vGi; cortex
True or False: New neurons being formed, called neurogenesis, does NOT take place in adults
false
True or False: Neurons born in the germinal zone of the dentate gyrus in adult rodents are integrated into hippocampal circuits
true
Adult neurogenesis in the dentate gyrus of the hippocampus undergoes ___ developmental stages
five
5
A multipotent neural stem cell gives rise to an intermediate precursor ‘transit amplifying cell’ that divides _______
asymmetrically
In the differentiation phase, postmitotic neuroblasts differentiate into ______ (2 words)
immature neurons
In the synaptic integration phase, new granule neurons receive inputs from the ____ and send outputs to the CA3 and hilus regions.
entorhinal cortex
True or False: In a Parkinsons patient, direct injection of embryonic dopaminergic neurons into the putamen will reactivate the globus pallidus output pathways
true
True or False: Induced pluripotent stem cells can be reprogrammed to generate precursors of many neuronal and glial types; precursors can then be transplanted into the brain or spinal cord, where cells complete their differentiation and integrate into functional circuits
true
Restoration of myelination in the CNS can be done via transplanted _____ stem cells
oligodendrocyte