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The protective potential of mild hypoxia on inflammatory demyelinating disease

$385,000R56FY2016NSNIH

Scripps Research Institute, The, La Jolla CA

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Abstract

? DESCRIPTION (provided by applicant): Multiple sclerosis (MS) is a chronic inflammatory disease that results in demyelination and degeneration of axons in the central nervous system (CNS). Compelling evidence suggests that breakdown of the blood-brain barrier (BBB) occurs at an early stage of MS (as well as in the animal model of MS, experimental autoimmune encephalomyelitis (EAE)), and plays a central role in the initiation and maintenance of this pathology. While it has been known for some time that hypoxic pre-conditioning protects against the development of ischemic stroke, only recently has it been suggested that mild hypoxia may also protect against the development of inflammatory demyelinating disease. Recently, we studied this protection in more detail, and we now have strong preliminary data showing that mild hypoxia (8% O2) applied before EAE induction, prevents vascular breakdown and reduces leukocyte infiltration during the early stages of EAE development. More importantly, mild hypoxia applied to mice with well-developed EAE profoundly protects against disease progression. Furthermore, findings from our lab and others have shown that mild hypoxia induces beneficial physiological adaptations in cerebral vessels that include: (i) marked angiogenic and arteriogenic responses, resulting in increased vessel density, (ii) elevated expression levels of tight junction proteins, suggesting increased BBB integrity, and (iii) reduced leukocyte adherence to cerebral vessels in stroke and EAE. In light of this accumulating data, the goal of this application is to test the hypothesis that mild hypoxia inhibits the progression o inflammatory demyelinating disease by promoting blood-brain barrier integrity and beneficial remodeling of cerebral blood vessels. Our hypothesis will be tested in two specific aims: (1) define the optimal dose, daily duration and frequency of hypoxia that most effectively prevents EAE progression, 2) define the influence of mild hypoxia on vascular protective mechanisms during EAE. First, we will define the dose, duration and frequency of hypoxia that inhibits disease progression in mice that already have well-established EAE. Second, we will investigate how the defined optimized hypoxic regimen influences vascular protective mechanisms, including BBB integrity, vascular remodeling, endothelial inflammatory status, TGF-? signaling and activation of the HIF-1?-VEGF axis. We anticipate these studies will define the optimal dose, daily duration and frequency of mild hypoxia that most effectively prevents EAE progression, and identify the key vascular mechanisms that underlie this protection. Successful completion of these studies will further our goal of developing this approach for the treatment of MS. This may take the form of a hypoxic therapy regimen, or more likely, result in the identification of molecular targets that could be exploited pharmacologically.

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The protective potential of mild hypoxia on inflammatory demyelinating disease · GrantIndex