Lecture #8

Question 1

what are microglia?

Answer 1

a specific subset of myeloid cells in organs that are ready to be activated when bacteria or viruses enter the organ

Question 2

where do microglia come from?

Answer 2

forerunners are coming from a specific subset of progenitors that are hosted in the yolk sac in specific cellular islands

from the yolk sac these cells migrate to the initial rudimental circulation and then to the brain

Question 3

how do the initial progenitors connect to the final formation of the brain?

Answer 3

the initial population can support the generation of all microglial cells in the brain

Question 4

what is a critical molecular axis for the maintenance of microglial cells?

Answer 4

CSFR1 and its ligand CSF1

Question 5

what happens if CSFR1 is not present?

Answer 5

microglia cannot develop

Question 6

what is the function of PU.1?

Answer 6

another transcription factor relevant for myeloid cells and for the maintenance of microglial progenitors

Question 7

why can microglial progenitors enter after day 11?

Answer 7

the presence of the forming BBB is enough to block the further infiltration of microglial progenitors from the yolk sac to the brain

Question 8

what is the difference between the brain and other tissues of the body in regards to the myeloid population?

Answer 8

the brain is the only organ in which we have a population of myeloid cells that can self-sustain along the entire life, while in other organs the current hematopoiesis can generate myeloid cells to replenish the tissue macrophages

tissue resident macrophages are a mixed population

Question 9

what is parabiosi?

Answer 9

when two mice are joined using surgery via their blood circulations

Question 10

what was parabiosi used to discover?

Answer 10

in some pathological conditions we have the infiltration of blood born cells, and in others this infiltration is not needed

Question 11

what happens to GFP positive cells in conditions of neuroinflammation?

Answer 11

they are able to remain in the CNS for a relatively short period of time, and after this time they disappear

during this period of time they start to acquire a cell morphology which is to different from activated microglia, but they are not microglia, therefore they are not allowed to stay in the microglia

Question 12

during early embryonic development, we have the neural plate, and in a specific region of the CNS we have the tube, at this point what is there a tight association between?

Answer 12

the formation of neuroepithelial cells and the infiltration of microglia

Question 13

what is one key function of microglia in the post-natal brain?

Answer 13

they are constantly scanning the environment exerting both surveillance and patrolling

Question 14

how do microglia constantly monitor their surroundings?

Answer 14

they constantly extend and retract their fine cellular processes at a rate of a few micrometers per minute to scan the parenchyma

Question 15

in the presence of pathological conditions, what to microglia do?

Answer 15

they can send cytoplasmic bundles to the regions in which there is damage with the final goal to confine the damage and block its spread

Question 16

what is another unique characteristic of these cells in relation to their distribution?

Answer 16

they are distributed in the CNS but never overlap → the density of these cells is fundamental to their function

Question 17

what portion of the CNS do microglial cells make up?

Answer 17

5-13%

Question 18

how do microglial cels contribute to brain physiology / pathology in regards to physical interactions?

Answer 18

they can interact with neurons and with ding cells contributing to the phagocytosis of debris or dying cells themselves

Question 19

how do microglial cels contribute to brain physiology / pathology in regards to the release of soluble factors?

Answer 19

if we kill microglia, we will have some neurological deficits that are due to the degeneration of some specific neuronal subtypes, suggesting that microglia exert trophic action for these neurons

Question 20

what function do microglia exert that is particularly important during pathologies involving death, when debris has to be removed as well as during development?

Answer 20

phagocytosis

Question 21

what do microglia secrete?

Answer 21

several soluble facts including a multitude of growth factors, neurotransmitters, cytokines, and chemokine

Question 22

what is the lifespan of microglia in humans?

Answer 22

~ 4 years

Question 23

virtually all microglia in the brain are positive for which fractal kinase receptor?

Answer 23

CX3CR1

Question 24

which method activates the diphtheria toxin (DTx) allowing scientists to deplete approximately 90% of microglia?

Answer 24

transgenic mice that express CreER:iDTR

Question 25

what happens when microglial are killed?

Answer 25

the few remaining cells start to work like progenitors and start to become very fast proliferators

regenerate the population in ~ 5 days

Question 26

what does the repopulation of the system after treatment with something like Ganciclovir?

Answer 26

depends on the infiltration of the myeloid cells from the periphery because with this treatment the BBB permeability can be altered

Question 26

what does the repopulation of the system after treatment with something like Ganciclovir?

Answer 26

depends on the infiltration of the myeloid cells from the periphery because with this treatment the BBB permeability can be altered

Question 27

which receptor is fundament for microglial homeostasis?

Answer 27

CSF1 → if this receptor (ligand) is inactivated you kill all of the microglia

Question 28

what happens when the remaining microglia sense the environmental lack of microglia?

Answer 28

they switch the kinetic features from a very long lasting semi-quiescent cell population to a fast proliferating state

Question 29

which ligand and receptor are important for avoiding unwanted microglial activation in physical conditions?

Answer 29

CD200 ligand and CD200 receptor

Question 30

when do neurons express CD200?

Answer 30

when they want to keep the microglia in resting conditions → they want to avoid activation that can be toxic for the system, because the cells release a huge number of proinflammatory signals in the extracellular space exerting a toxic function on neurons

Question 31

what is the most famous example of a region-dependent neurotransmitter expression in microglia?

Answer 31

only microglia in the striatum express dopamine receptors, because it is the only place where neurons release dopamine

Question 32

what else can microglia sense in a region-dependent manner?

Answer 32

neurotransmitters and diffusible signals such as chemokine and cytokines

Question 33

describe synaptic pruning during development:

Answer 33

during the embryonic stages the neurons generate a large number os synapses, many of which are not strong enough to survive and the system must remove them

Question 34

what was the first drug used as a blocker of sodium voltage gated channels in the axon hillock, when studying the retina of mice?

Answer 34

TTX (tetrodoxin) - the blockage of this channel causes the blockage of action potential generation → a large number of synapses in the CNS (thalamus) start to become weak

Question 35

where is tetrodoxin isolated from?

Answer 35

pufferfish

Question 36

what did they find in mice when TTX was injected?

Answer 36

the percentage of engulfment of post-synaptic proteins was significantly increased in microglia from animals treated with TTX

Question 37

what small molecule was also injected which has the opposite function of TTX?

Answer 37

forskolin → causes an increase in synaptic transmission

Question 38

describe the molecular mechanism used to remove weak synapses:

Answer 38

the weak synapse starts to express the complement receptor of the compliment ligand (C3) on the surface → when the compliment receptor engages the ligand, the microglial cells start to engulf the synapses, and it starts to remove the pre-synaptic and post-synaptic terminals

(since microglia are expressed on the tip of the cytoplasmic bundles o the cell surface, the tips are continuous looking for dangerous signals in the environment because these cells express the complement receptor (CR3))

Question 39

what might issues with synaptic pruning lead to?

Answer 39

several brain disorders

Question 40

what was observed with CSFR1R was knocked out in mice?

Answer 40

there was a 50% reduction in cortical thickness and therefore a reduction in cortical neurons

Question 41

what did they contribute this drastic reduction of cortical neurons to?

Answer 41

suggests that microglial cells probably exert some trophic factors or neurons, and if these microglia are removed you lose this topic factor

Question 42

where specifically were microglia found during embryonic development?

Answer 42

virtually al microglia are in the terminal niche in the brain, and appears that they exert trophic (functional) activates in the very same neurogenic niches in which we described the asymmetric and symmetric cell divisions

Question 43

what was found when the phagocytic activity of microglia is deactivated?

Answer 43

you end up with a significant increase in the number of cortical brain neurons

Question 44

what happens if you overactive microglia (with some LPS)?

Answer 44

it induces aberrance in a significant way, leading to a reduction in neonatal precursors

Question 45

what is happening if we are in the presence of a chronic neurodegenerative disorder like Parkinson’s or Alzheimers?

Answer 45

there is irreversible CNS damage and persistent inflammation, where the persistent microglial activation is considered the driver

there is a dramatic alteration in cell morphology in the chronic condition of the microglia

Question 46

describe the “amend cell morphology” that microglia acquire under chronic pathological conditions:

Answer 46

cells retract the cytoplasmic bundles and start to acquire a rod shape

Question 47

describe the original focus of M1 activation in microglia:

Answer 47

fight against bacteria: these cells start to express ROS, Proinflammatory cytokines, and chemokines with the final activation being cytotoxic activation = tissue injury

Question 48

describe the original focus of M2 activation:

Answer 48

protective activation: cells release IL-10, arginase, and trophic factors in the extracellular space

fundamental for immunosuppression and to induce tissue repair

Question 49

describe the current view of microglial activation:

Answer 49

occurs in response to tissue damage, but the activation is a spectrum, not a clear M1 or M2 polarization → something overall in between and plastic

Question 50

describe the long vs short activation of microglia:

Answer 50

if the activation time is short microglia can be activated but return to the resting state

if there is a long chronic activation cells start to acquire the characteristics of an M1-like cell

Question 51

in a transgenic mouse model with autotrophic lateral sclerosis, what do the activated microglial cells look like?

Answer 51

typically activated towards something that is M1-like → if you purify these cells from the spinal cord and analyze them using a classic real-time pro-inflammatory markers the vast majority of these cells will be TNF positive and therefor secrete want pro-inflammatory signals

this led to the M1/M2 paradigm to be changed