Norepinephrine regulates Ca²⁺ signals and fate of oligodendrocyte progenitor cells in the cortex

Abstract: Oligodendrocyte precursor cells (OPCs) represent the most abundant group of proliferating cells in the adult central nervous system. OPCs serve as progenitors for oligodendrocyte (OLs) throughout the life, and contribute to developmental and adaptive myelination, and myelin repair during diseased state. OPCs make synaptic and extra-synaptic contacts with axons, and detect and respond to neuronal activity. How OPCs translate the information relayed by the neuronal activity into Ca2+ signals, which in turn influ… Show more

“…We found that 99% of Ca 2+ events in OPCs occurred in MDs on processes, and 97% of OPCs exhibited only MD Ca 2+ activity during our recordings (Fig. 6c, Supplemental Video 3-4), consistent with recent work in mammals 43,44 . We examined the proximity between Ca 2+ events in MDs and a presynaptic marker, synaptophysin-RFP 17 .…”

“…For example, some OPCs exhibit no change or even an increase of Ca 2+ activity upon TeNT treatment or TTX treatment while most OPCs exhibit reduction. These “outlier” OPCs and activity could be due to Ca 2+ generated from synapse-independent mechanisms, such as adrenergic receptor-mediated Ca 2+ activity as recently suggested in cerebral cortex 43,44 . In line with this, nearly 61% of Ca 2+ MDs do not associate with presynaptic markers, and nearly 55% residual Ca 2+ activity remains after TeNT treatment, supporting synapse-independent Ca 2+ - inducing mechanisms in OPCs as well as synapse-dependent mechanisms.…”

“…(e) Average myelin sheath length in (d). n = 24 and 22 cells from 15 fish; t [44] = 2.247. All data are represented as mean ± SEM; N.S., not significant; (e) unpaired t-test; scale bars 5 μm.…”

“…Several studies have identified synaptic mechanisms underlying Ca 2+ elevation in OPCs under conditions of increased neuronal activity (e.g., through axon stimulation) with a focus on somal activity [14][15][16]54 . Interestingly, recent studies provided evidence that neuronal activity or synaptic release contribute little to OPC MD Ca 2+ activity in adult mice brains 43,44 . Like these studies, we find that OPC Ca 2+ activity in vivo mainly occurs in MDs; in contrast, we show that MD Ca 2+ activity does require synaptic release in the zebrafish spinal cord, suggesting interesting regional and/or developmental differences that will be important for future study.…”

Synapses and Ca²⁺activity in oligodendrocyte precursor cells can predict where myelin sheaths form

“…We found that 99% of Ca 2+ events in OPCs occurred in MDs on processes, and 97% of OPCs exhibited only MD Ca 2+ activity during our recordings (Fig. 6c, Supplemental Video 3-4), consistent with recent work in mammals 43,44 . We examined the proximity between Ca 2+ events in MDs and a presynaptic marker, synaptophysin-RFP 17 .…”

“…For example, some OPCs exhibit no change or even an increase of Ca 2+ activity upon TeNT treatment or TTX treatment while most OPCs exhibit reduction. These “outlier” OPCs and activity could be due to Ca 2+ generated from synapse-independent mechanisms, such as adrenergic receptor-mediated Ca 2+ activity as recently suggested in cerebral cortex 43,44 . In line with this, nearly 61% of Ca 2+ MDs do not associate with presynaptic markers, and nearly 55% residual Ca 2+ activity remains after TeNT treatment, supporting synapse-independent Ca 2+ - inducing mechanisms in OPCs as well as synapse-dependent mechanisms.…”

“…(e) Average myelin sheath length in (d). n = 24 and 22 cells from 15 fish; t [44] = 2.247. All data are represented as mean ± SEM; N.S., not significant; (e) unpaired t-test; scale bars 5 μm.…”

“…Several studies have identified synaptic mechanisms underlying Ca 2+ elevation in OPCs under conditions of increased neuronal activity (e.g., through axon stimulation) with a focus on somal activity [14][15][16]54 . Interestingly, recent studies provided evidence that neuronal activity or synaptic release contribute little to OPC MD Ca 2+ activity in adult mice brains 43,44 . Like these studies, we find that OPC Ca 2+ activity in vivo mainly occurs in MDs; in contrast, we show that MD Ca 2+ activity does require synaptic release in the zebrafish spinal cord, suggesting interesting regional and/or developmental differences that will be important for future study.…”

Synapses and Ca²⁺activity in oligodendrocyte precursor cells can predict where myelin sheaths form

“…Thus, arousal-dependent changes in mitochondria motility is consistent with recent evidence of decreased calcium dynamics in OPCs in anesthesia conditions or when norepinephrine release is blocked 63 . Norepinephrine can influence the differentiation and/or proliferation of oligodendrocytes and the expression of norepinephrine receptors in the OPCs changes with their differentiation 63,64,67 . Overall, these observations suggest a potential connection between mitochondria and calcium dynamics and raise questions for how animal arousal state influences mitochondria in these cells and therefore the cell fate in the oligodendrocyte lineage.…”

Mitochondrial network reorganization and transient expansion during oligodendrocyte generation

Synaptic input and Ca2+ activity in zebrafish oligodendrocyte precursor cells contribute to myelin sheath formation