Neuroinflammation, Mast Cells, and Glia: Dangerous Liaisons
The perspective of neuroinflammation as an epiphenomenon following neuron damage is being replaced by the awareness of glia and their importance in neural functions and disorders. Systemic inflammation generates signals that communicate with the brain and leads to changes in metabolism and behavior,...
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| Veröffentlicht in: | The Neuroscientist 2017-10, Vol.23 (5), p.478-498 |
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| container_title | The Neuroscientist |
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| creator | Skaper, Stephen D. Facci, Laura Zusso, Morena Giusti, Pietro |
| description | The perspective of neuroinflammation as an epiphenomenon following neuron damage
is being replaced by the awareness of glia and their importance in neural
functions and disorders. Systemic inflammation generates signals that
communicate with the brain and leads to changes in metabolism and behavior, with
microglia assuming a pro-inflammatory phenotype. Identification of potential
peripheral-to-central cellular links is thus a critical step in designing
effective therapeutics. Mast cells may fulfill such a role. These resident
immune cells are found close to and within peripheral nerves and in brain
parenchyma/meninges, where they exercise a key role in orchestrating the
inflammatory process from initiation through chronic activation. Mast cells and
glia engage in crosstalk that contributes to accelerate disease progression;
such interactions become exaggerated with aging and increased cell sensitivity
to stress. Emerging evidence for oligodendrocytes, independent of myelin and
support of axonal integrity, points to their having strong immune functions,
innate immune receptor expression, and production/response to chemokines and
cytokines that modulate immune responses in the central nervous system while
engaging in crosstalk with microglia and astrocytes. In this review, we
summarize the findings related to our understanding of the biology and cellular
signaling mechanisms of neuroinflammation, with emphasis on mast cell-glia
interactions. |
| doi_str_mv | 10.1177/1073858416687249 |
| format | Article |
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is being replaced by the awareness of glia and their importance in neural
functions and disorders. Systemic inflammation generates signals that
communicate with the brain and leads to changes in metabolism and behavior, with
microglia assuming a pro-inflammatory phenotype. Identification of potential
peripheral-to-central cellular links is thus a critical step in designing
effective therapeutics. Mast cells may fulfill such a role. These resident
immune cells are found close to and within peripheral nerves and in brain
parenchyma/meninges, where they exercise a key role in orchestrating the
inflammatory process from initiation through chronic activation. Mast cells and
glia engage in crosstalk that contributes to accelerate disease progression;
such interactions become exaggerated with aging and increased cell sensitivity
to stress. Emerging evidence for oligodendrocytes, independent of myelin and
support of axonal integrity, points to their having strong immune functions,
innate immune receptor expression, and production/response to chemokines and
cytokines that modulate immune responses in the central nervous system while
engaging in crosstalk with microglia and astrocytes. In this review, we
summarize the findings related to our understanding of the biology and cellular
signaling mechanisms of neuroinflammation, with emphasis on mast cell-glia
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is being replaced by the awareness of glia and their importance in neural
functions and disorders. Systemic inflammation generates signals that
communicate with the brain and leads to changes in metabolism and behavior, with
microglia assuming a pro-inflammatory phenotype. Identification of potential
peripheral-to-central cellular links is thus a critical step in designing
effective therapeutics. Mast cells may fulfill such a role. These resident
immune cells are found close to and within peripheral nerves and in brain
parenchyma/meninges, where they exercise a key role in orchestrating the
inflammatory process from initiation through chronic activation. Mast cells and
glia engage in crosstalk that contributes to accelerate disease progression;
such interactions become exaggerated with aging and increased cell sensitivity
to stress. Emerging evidence for oligodendrocytes, independent of myelin and
support of axonal integrity, points to their having strong immune functions,
innate immune receptor expression, and production/response to chemokines and
cytokines that modulate immune responses in the central nervous system while
engaging in crosstalk with microglia and astrocytes. In this review, we
summarize the findings related to our understanding of the biology and cellular
signaling mechanisms of neuroinflammation, with emphasis on mast cell-glia
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is being replaced by the awareness of glia and their importance in neural
functions and disorders. Systemic inflammation generates signals that
communicate with the brain and leads to changes in metabolism and behavior, with
microglia assuming a pro-inflammatory phenotype. Identification of potential
peripheral-to-central cellular links is thus a critical step in designing
effective therapeutics. Mast cells may fulfill such a role. These resident
immune cells are found close to and within peripheral nerves and in brain
parenchyma/meninges, where they exercise a key role in orchestrating the
inflammatory process from initiation through chronic activation. Mast cells and
glia engage in crosstalk that contributes to accelerate disease progression;
such interactions become exaggerated with aging and increased cell sensitivity
to stress. Emerging evidence for oligodendrocytes, independent of myelin and
support of axonal integrity, points to their having strong immune functions,
innate immune receptor expression, and production/response to chemokines and
cytokines that modulate immune responses in the central nervous system while
engaging in crosstalk with microglia and astrocytes. In this review, we
summarize the findings related to our understanding of the biology and cellular
signaling mechanisms of neuroinflammation, with emphasis on mast cell-glia
interactions.</abstract><cop>Los Angeles, CA</cop><pub>SAGE Publications</pub><pmid>29283023</pmid><doi>10.1177/1073858416687249</doi><tpages>21</tpages><oa>free_for_read</oa></addata></record> |
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| source | SAGE Complete A-Z List |
| title | Neuroinflammation, Mast Cells, and Glia: Dangerous Liaisons |
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