Neuro - Anat & Phys (Neurotransmitters & Blood-brain barrier) Flashcards
See p. 449 in First Aid 2014 See p. 413 in First Aid 2013 Sections include: -Neurotransmitters -Blood-brain barrier
Where is norepinephrine synthesized?
Locus ceruleus (pons)
Where is dopamine synthesized?
Ventral tegmentum and SNc (midbrain)
Where is 5-HT synthesized?
Raphe nucleus (pons, medulla, midbrain)
Where is ACh synthesized?
Basal nucleus of Meynert
Where is GABA synthesized?
Nucleus accumbens
What are 2 behavioral components that are controlled through the locus ceruleus?
Locus ceruleus - stress and panic.
What are 4 behavioral components that are controlled by the nucleus accumbens? What other nucleus is also associated with these 4 behavioral components?
Nucleus accumbens and septal nucleus - reward center, pleasure, addiction, fear.
What is the primary purpose of the blood-brain barrier? What are 2 helpful consequences of this?
Prevents circulating blood substances from reaching the CSF/CNS; Helps prevent bacterial infection from spreading into the CNS. Also restricts drug delivery to brain.
What 3 structures form the blood-brain barrier?
Formed by 3 structures: (1) Tight junctions between nonfenestrated capillary endothelial cells (2) Basement membrane (3) Astrocyte foot processes
What are 2 changes in norepinephrine caused by diseases?
(1) Increase in anxiety (2) Decrease in depression
What are 3 changes in dopamine caused by diseases?
(1) Increase in Huntington disease (2) Decrease in Parkinson disease (3) Decrease in depression
What are 3 changes in 5-HT caused by diseases?
(1) Increase in Parkinson disease (2) Decrease in anxiety (3) Decrease in depression
What are 3 changes in ACh caused by diseases?
(1) Increase in Parkinson disease (2) Decrease in Alzheimer disease (3) Decrease in Huntington disease
What are 2 changes in GABA caused by diseases?
(1) Decrease in anxiety (2) Decrease in Huntington disease
Name 1 neurotransmitter that is increased in anxiety and 2 neurotransmitters that are decreased in anxiety.
INCREASE ANXIETY: (1) Norepinephrine; DECREASE ANXIETY: (1) 5-HT (2) GABA
Name 3 neurotransmitters that are decreased in depression.
DECREASE DEPRESSION: (1) Norepinhephrine (2) Dopamine (3) 5-HT
Name 1 neurotransmitter that increases in Huntington disease and 2 neurotransmitters that decrease in Huntington disease.
INCREASE HUNTINGTON DISEASE: (1) Dopamine; DECREASE HUNTINGTON DISEASE: (1) ACh (2) GABA
Name 2 neurotransmitters that increase in Parkinson disease and 1 neurotransmitter that decreases in Parkinson disease.
INCREASE PARKINSON DISEASE: (1) 5-HT (2) ACh; DECREASE PARKINSON DISEASE: (1) Dopamine
Name 1 neurotransmitter that decreases in Alzheimer disease.
DECREASE ALZHEIMER DISEASE: (1) ACh
In general, what substances cross the blood-brain barrier, and how?
GLUCOSE AND AMINO ACIDS cross slowly by carrier-mediated transport mechanism; NONPOLAR/LIPID-SOLUBLE substances cross rapidly via diffusion
Draw a visual of the blood-brain barrier, including and labeling the following: capillary lumen, basement membrane, tight junction, and astrocyte foot processes.
See p. 449 in First Aid 2014 or p. 413 in First Aid 2013 for visual
Explain the mechanism and purpose of the exception to the blood-brain barrier in certain brain regions. Also, include examples of the substances involved.
A few specialized brain regions with fenestrated capillaries and no blood-brain barrier allow molecules in the blood to affect brain function (e.g., area postrema - vomiting after chemo, OVLT - osmotic sensing) or neurosecretory products to enter circulation (e.g., neurohypophysis - ADH release)
Besides the blood-brain barrier, name 2 other notable blood barriers.
Other notable barriers include: (1) Blood-testis barrier (2) Maternal-fetal blood barrier of placenta.
What can result from infarction of endothelial cell tight junctions in the blood-brain barrier? What else can cause this?
Infarction and/or neoplasm destroys endothelial cell tight junctions –> vasogenic edema
What kind of neurologic inputs and outputs permeate the blood-brain barrier?
Hypothalamic inputs and outputs permeate the blood-brain barrier.
