Microglial cells protect cerebellar granule neurons from apoptosis: Evidence for reciprocal signaling
The microglia are the immune cell population of the nervous system and play important roles both in normal function and in disease. Reciprocal neuron–microglia interactions are not well understood, in particular those concerning the crosstalk between the two cell populations when neuronal damage doe...
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Veröffentlicht in: | Glia 2001-12, Vol.36 (3), p.271-280 |
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Sprache: | eng |
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Zusammenfassung: | The microglia are the immune cell population of the nervous system and play important roles both in normal function and in disease. Reciprocal neuron–microglia interactions are not well understood, in particular those concerning the crosstalk between the two cell populations when neuronal damage does occur. We have used a well‐established model of apoptosis in cerebellar granule neurons to test the effect of co‐culturing microglial cells with them or of exposing them to microglia‐conditioned medium. Microglial cells, derived from cortical or cerebellar mixed glial cultures and plated over cerebellar granule neurons, protected these neurons from apoptosis induced by shifting them, at 7 days in vitro, for 24 h from a depolarizing (high‐potassium) to a nondepolarizing (low‐potassium) medium. The same result was achieved when microglial cells obtained from mixed glial cortical cultures were plated over a membrane well insert in the culture chamber, permitting medium exchange without physical contact with granule neurons. A similar result was obtained when the low‐potassium, apoptosis‐inducing medium was conditioned by 48‐h exposure to microglial cells; 24‐h exposure to microglial cells was not enough to confer neuroprotective capability to the conditioned medium. However in double‐conditioned medium experiments, in which the medium was first exposed to apoptotic neurons and then to microglial cells, unknown signal(s) released by apoptotic neurons, conferred to the 24‐h conditioned medium a strong neuroprotective action, similar to that observed in the co‐cultures experiments. This finding, together with the results from co‐culture experiments, is explained by admitting that molecules released in the medium by apoptotic neurons potentiate the anti‐apoptotic activity of microglia. Our results, therefore, demonstrate not only that normally microglial cells release in the medium molecule(s) able to rescue neurons from apoptotic death, but that unknown diffusible signal(s) from apoptotic neurons enhance(s) microglial neuroprotective properties as well. GLIA 36:271–280, 2001. © 2001 Wiley‐Liss, Inc. |
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ISSN: | 0894-1491 1098-1136 |
DOI: | 10.1002/glia.1115 |