Abstract
Neonatal Borna disease virus (BDV) infection of the rat brain is associated with microglial activation and damage to certain neuronal populations. Since persistent BDV infection of neurons is nonlytic in vitro, activated microglia have been suggested to be responsible for neuronal cell death in vivo. However, the mechanisms of activation of microglia in neonatally BDV-infected rat brains remain unclear. Our previous studies have shown that activation of microglia by BDV in culture requires the presence of astrocytes as neither the virus nor BDV-infected neurons alone activate microglia. Here, we evaluated the mechanisms whereby astrocytes can contribute to activation of microglia in neuron-glia-microglia mixed cultures. We found that persistent infection of neuronal cells leads to activation of uninfected astrocytes as measured by elevated expression of RANTES. Activation of astrocytes then produces activation of microglia as evidenced by increased formation of round-shaped, MHCI-, MHCII- and IL-6-positive microglia cells. Our analysis of possible molecular mechanisms of activation of astrocytes and/or microglia in culture indicates that the mediators of activation may be soluble heat-resistant, low molecular weight factors. The findings indicate that astrocytes may mediate activation of microglia by BDV-infected neurons. The data are consistent with the hypothesis that microglia activation in the absence of neuronal damage may represent initial steps in the gradual neurodegeneration observed in brains of neonatally BDV-infected rats.
Highlights
Borna disease virus (BDV) is a non-segmented, negativestrand RNA virus that persistently infects the central nervous system (CNS) and causes behavioral abnormalities in a broad spectrum of warm-blooded animals [1,2,3]
Round-shaped microglia formation represents microglia activation in BDV-infected brain cultures To investigate how BDV infection of neurons could activate microglia, we used neuron-glia-microglia cultures, in which BDV infection is manifested by high numbers of 'round' microglia cells that are morphologically different from resting 'ramified' microglia [12]
Individual microglial cells in mock and BDV cultures did not differ in the distribution of the ED1, CD11b, ionized calcium binding adapter molecule 1 (Iba1) and IB4 staining, BDV cultures contained significantly more round shaped microglia cells, consistent with our previous observations [12]
Summary
Borna disease virus (BDV) is a non-segmented, negativestrand RNA virus that persistently infects the central nervous system (CNS) and causes behavioral abnormalities in a broad spectrum of warm-blooded animals [1,2,3]. Intracranial inoculation of newborn rats with BDV leads to a persistent infection of neurons and astrocytes with minimal signs of classical inflammatory cell infiltration (e.g., encephalitis and meningitis), but is associated with a progressive loss of granule cells in the dentate gyrus of the hippocampus, Purkinje cells in the cerebellum, and GABA-ergic neurons in the neocortex [4,5,6,7]. The mechanisms of selective neuronal loss in neonatally BDV-infected rats remain unclear. Journal of Neuroinflammation 2008, 5:50 http://www.jneuroinflammation.com/content/5/1/50 that activated microglia could contribute to BDV-associated neuropathology [9,10,11]. As BDV does not infect microglia in vivo or in vitro[11,12], and since BDV does not directly activate cultured purified microglia in vitro[12], dying BDV-infected neurons have been proposed to trigger microgliosis as a secondary response [13]
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