Periventricular leukomalacia (PVL) is the principal white matter lesion underlying cerebral palsy and a leading cause of chronic neurological deficits in survivors of premature birth. Inflammation associated with ischemia/hypoxia and maternal/fetal infection is a major determinant of the pathogenesis of PVL, with characteristic astrogliosis and microglial activation in the cerebral white matter. However, the mechanism of selective injury to premyelinating oligodendrocytes (pre-OLs) under these inflammatory conditions is poorly understood. Our long-term goal is to determine the molecular basis of pre-OL injury in order to develop strategies to prevent PVL. Recently, we showed that microglia, activated by lipopolysaccaride (LPS), selectively kill pre-OLs by producing peroxynitrite. Interestingly, although astrocytes are not required for LPS-induced toxicity, their presence switches the activated microglial toxicity from a peroxynitrite- dependent mechanism to a mechanism dependent upon the proinflammatory cytokine, tumor necrosis factor 1 (TNF1). Exposure to TNF1 results in pre-OL death in mixed glial cultures but had only minimal effect to purified pre-OLs. Non-injurious levels of interferon 3 greatly potentiate the TNF1 toxicity. These observations underscore the importance of cell-to-cell communications in regulating pre-OL death pathways. Our preliminary results also suggest that ceramide, a sphingomyelin lipid and a lipid second messenger, acts as a common mediator for pre-OL injury, and that its expression is markedly increased in reactive astrocytes in human PVL. Our overall hypothesis is that activated microglia and astrocytes act corporately in mediating injury to pre-OLs in PVL. We will test the idea that ceramide is a key factor in inflammatory pre-OL death, in part via interactions with TNF1 signaling.
Our Specific Aims are to: (1) determine the inhibitory effect of astrocytes on peroxynitrite-induced toxicity to pre-OLs; (2) identify the mechanisms underlying TNF1- mediated pre-OL death; (3) investigate the basis of synergy between the ceramide pathway and TNF1- mediated toxicity; and (4) examine spatial correlations among aberrant upregulation of ceramide, proinflammatory cytokines, and pre-OL cell death in human PVL lesions. We will use various combinations of primary cultures from wildtype and knockout mice to specifically dissect TNF1 signaling in mediating pre-OL death. This project is a significant departure from previous studies in that we focus directly on the molecular and intercellular mechanisms of inflammatory injury to pre-OLs and integrate cell culture studies with human PVL studies. Fundamental insights into such interactions among glial cells could lead to development of novel strategies for the treatment of PVL.PROJECT NARRATIVE ? ? White matter injury in preterm infants is a major cause of life-long neurological deficits in survivors of neonatal intensive care; and inflammation appears to play a deleterious role in the injury. Through this proposed study, we hope to reveal how various cells interact and intensify with each other and cause damage to the white matter. Such fundamental insights into the cellular and molecular mechanisms of neonatal white matter injury will provide new avenues for developing novel strategies for the prevention and treatment of this devastating disorder. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS060017-02
Application #
7504017
Study Section
Cellular and Molecular Biology of Glia Study Section (CMBG)
Program Officer
Tagle, Danilo A
Project Start
2007-09-30
Project End
2011-06-30
Budget Start
2008-07-01
Budget End
2009-06-30
Support Year
2
Fiscal Year
2008
Total Cost
$318,281
Indirect Cost
Name
Texas A&M University
Department
Veterinary Sciences
Type
Schools of Veterinary Medicine
DUNS #
078592789
City
College Station
State
TX
Country
United States
Zip Code
77845
Kim, SunJa; Bielawski, Jacek; Yang, Hyunmin et al. (2018) Functional antagonism of sphingosine-1-phosphate receptor 1 prevents cuprizone-induced demyelination. Glia 66:654-669
Steelman, Andrew J; Zhou, Yun; Koito, Hisami et al. (2016) Activation of oligodendroglial Stat3 is required for efficient remyelination. Neurobiol Dis 91:336-46
Park, Jaewon; Kim, Sunja; Park, Su Inn et al. (2014) A microchip for quantitative analysis of CNS axon growth under localized biomolecular treatments. J Neurosci Methods 221:166-74
Steelman, Andrew J; Li, Jianrong (2014) Astrocyte galectin-9 potentiates microglial TNF secretion. J Neuroinflammation 11:144
Park, Jaewon; Kim, Sunja; Li, Jianrong et al. (2014) Axon length quantification microfluidic culture platform for growth and regeneration study. Methods Mol Biol 1162:85-95
Steelman, Andrew J; Smith 3rd, Roger; Welsh, C Jane et al. (2013) Galectin-9 protein is up-regulated in astrocytes by tumor necrosis factor and promotes encephalitogenic T-cell apoptosis. J Biol Chem 288:23776-87
Kim, S J; Li, Jianrong (2013) Caspase blockade induces RIP3-mediated programmed necrosis in Toll-like receptor-activated microglia. Cell Death Dis 4:e716
Steelman, Andrew J; Thompson, Jeffrey P; Li, Jianrong (2012) Demyelination and remyelination in anatomically distinct regions of the corpus callosum following cuprizone intoxication. Neurosci Res 72:32-42
Kim, SunJa; Steelman, Andrew J; Zhang, Yumin et al. (2012) Aberrant upregulation of astroglial ceramide potentiates oligodendrocyte injury. Brain Pathol 22:41-57
Park, Jaewon; Koito, Hisami; Li, Jianrong et al. (2012) Multi-compartment neuron-glia co-culture platform for localized CNS axon-glia interaction study. Lab Chip 12:3296-304

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