Stroke is the leading cause of disability in the US and worldwide. Improvements in acute stroke patient care have resulted in reduced stroke mortality, leaving more survivors with severe disability and a long road of recovery. However, strategies based on acute neuroprotection resulted in recurring translational failures, suggesting the need for a paradigm shift to address the translational efficacy issue and improve this devastating condition. Evidence suggests that stroke initiates metabolic and genetic changes that persist for weeks to months following the ischemic insult, therefore providing a promising realm for intervention in the recovery phase. With a relative paucity in our understanding of the repair and remodeling process in chronic stroke, the current study proposes to identify CD36, a common inflammatory mediator in vascular diseases and obesity, as a potential mediator in stroke recovery. Highly expressed on monocytes/macrophages (MMs), CD36 functions in regulating inflammation, innate immunity, taste, and metabolism. Previous studies in our lab showed that CD36 contributes to acute stroke pathology in normal and hyperlipidemic conditions. Despite the adverse effects of CD36 in acute stroke, evidence has also been presented supporting a beneficial role for CD36 in distinct stroke subtypes via its role in enhancing phagocytosis. These studies indicate that CD36 as an inflammatory as well as pattern recognition receptor displays context-dependent functions. MMs play a major role in tissue repair by clearing up debris and phagocytosis through pattern recognition. Our preliminary results also indicate potential involvement of macrophage CD36 in the chronic phase of stroke recovery: the higher CD36 levels, the greater phagocytic activity in macrophages, ii) a late secondary induction of CD36 at 2-month post-stroke, and iii) persistent infiltration of peripheral macrophages in the injured tissue during recovery phase. These observations led to a hypothesis that CD36 facilitates stroke recovery via MM phagocytosis.
Aim 1 will test whether CD36 promotes functional recovery in chronic stroke. We will assess longitudinal motor/gait functions and expression of CD36 and its associated molecules (thrombospondins, toll-like receptors) in chronic stroke in wild type and CD36 KO mice where their CD36 levels are manipulated by CD36 activator(s) or inhibitor(s).
Aim 2 will determine the impact of CD36 on MM trafficking, MM phagocytosis and macrophage phenotypes in vitro and also in mice treated with CD36 inhibitor or activator. Since we observed CD36 expression is increased in MMs in obese conditions, we will test whether obesity-enhanced CD36 expression in MMs promotes functional recovery.
In Aim 3, we will assess behaviors, phagocytosis, and macrophage phenotype in WT and CD36 KO mice fed a normal and high fat diet. Understanding the context-dependent role of CD36 in the stroke recovery phase, in addition to the acute phase studied during a previous funding cycle, may offer a strategy for stroke-stage specific modulations of CD36 in promoting functional recovery in chronic stroke.

Public Health Relevance

Despite the fact that stroke is the leading cause of disability in the U.S., treatments that reduce post-stroke impairment are very limited due to our lack of understanding of the repair/remodeling process in chronic stroke. The current proposal investigates whether and how CD36, a common inflammatory mediator in vascular diseases and obesity, is involved in functional recovery in chronic stroke. We have several findings that lead to the hypothesis that CD36 facilitates stroke recovery by the action of peripheral immune cells. This study aims to test the function of CD36 in the immune cells relevant to the repair/remodeling process after stroke. Defining the underlying events will provide a potential strategy for promoting functional recovery in stroke patients.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
9R01NS095359-10
Application #
9031939
Study Section
Brain Injury and Neurovascular Pathologies Study Section (BINP)
Program Officer
Bosetti, Francesca
Project Start
2006-02-15
Project End
2020-08-31
Budget Start
2015-09-30
Budget End
2016-08-31
Support Year
10
Fiscal Year
2015
Total Cost
Indirect Cost
Name
Winifred Masterson Burke Med Research Institute
Department
Type
DUNS #
780676131
City
White Plains
State
NY
Country
United States
Zip Code
10605
Cho, Sunghee; Yang, Jiwon (2018) What Do Experimental Models Teach Us About Comorbidities in Stroke? Stroke 49:501-507
Yang, Jiwon; Park, Keun Woo; Cho, Sunghee (2018) Inhibition of the CD36 receptor reduces visceral fat accumulation and improves insulin resistance in obese mice carrying the BDNF-Val66Met variant. J Biol Chem 293:13338-13348
Kim, Eunhee; Yang, Jiwon; Park, Keun Woo et al. (2018) Inhibition of VEGF Signaling Reduces Diabetes-Exacerbated Brain Swelling, but Not Infarct Size, in Large Cerebral Infarction in Mice. Transl Stroke Res 9:540-548
Bosetti, Francesca; Koenig, James I; Ayata, Cenk et al. (2017) Translational Stroke Research: Vision and Opportunities. Stroke 48:2632-2637
Woo, Moon-Sook; Yang, Jiwon; Beltran, Cesar et al. (2016) Cell Surface CD36 Protein in Monocyte/Macrophage Contributes to Phagocytosis during the Resolution Phase of Ischemic Stroke in Mice. J Biol Chem 291:23654-23661
Kim, Eunhee; Cho, Sunghee (2016) Microglia and Monocyte-Derived Macrophages in Stroke. Neurotherapeutics 13:702-718
Kim, Eunhee; Woo, Moon-Sook; Qin, Luye et al. (2015) Daidzein Augments Cholesterol Homeostasis via ApoE to Promote Functional Recovery in Chronic Stroke. J Neurosci 35:15113-26