Selective Impairment of Working Memory in a Mouse Model of Chronic Cerebral Hypoperfusion

Shibata, Masunari; Yamasaki, Nobuyuki; Miyakawa, Tsuyoshi; Kalaria, Rajesh N.; Fujita, Yasuhito; Ohtani, Ryo; Ihara, Masafumi; Takahashi, Ryōsuke; Tomimoto, Hidekazu

doi:10.1161/strokeaha.107.490151

Cited by 216 publications

(256 citation statements)

References 28 publications

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“…The OT can be vulnerable to CCA stenosis and occlusion in rodents, and the rat bilateral CCA occlusion model exhibits severe degeneration and atrophy of the OT 17. It is possible that the visual system impairment could compromise the motor and cognitive function test such as rotatod test, Y‐maze test, and Morris water maze test, because visual cues contribute to discrimination even in the rat bilateral CCA occlusion model 10. In the GCAS model, WM rarefaction in the OT is significantly less developed than that in the CC and ACo; thus, it appears that the visual system is preserved, as is the case with the BCAS model 9, 10.…”

Section: Resultsmentioning

confidence: 99%

“…It is possible that the visual system impairment could compromise the motor and cognitive function test such as rotatod test, Y‐maze test, and Morris water maze test, because visual cues contribute to discrimination even in the rat bilateral CCA occlusion model 10. In the GCAS model, WM rarefaction in the OT is significantly less developed than that in the CC and ACo; thus, it appears that the visual system is preserved, as is the case with the BCAS model 9, 10. Demyelination in the CC was accompanied by significant proliferation of GFAP‐positive astrocytes and Iba1‐positive microglia in GCAS mice compared with sham‐surgery mice.…”

Section: Resultsmentioning

confidence: 99%

“…The BCAS model exhibits characteristic features of human hypoperfusive VCI, such as WM rarefaction and gliosis, and working memory impairment. However, this model has an inherent limitation in that cerebral blood flow (CBF) drops sharply immediately after BCAS surgery and then gradually recovers over 1 month, thus failing to reliably replicate “chronic” cerebral hypoperfusion apparent in VCI 9, 10. The contribution of the preceding acute phase to the neuropathological and behavioral consequences is therefore an ongoing concern.…”

Section: Introductionmentioning

confidence: 99%

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Gradual Carotid Artery Stenosis in Mice Closely Replicates Hypoperfusive Vascular Dementia in Humans

Hattori

Enmi

Iguchi

et al. 2016

JAHA

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BackgroundExisting rodent models of vascular cognitive impairment (VCI) show abrupt changes in cerebral blood flow (CBF) and do not reliably replicate the clinical pathogenesis of VCI. We therefore aimed to develop a mouse model of VCI where CBF is gradually reduced, followed by subsequent progressive motor and cognitive impairment, after surgical intervention.Methods and ResultsAdult C57BL/6J male mice were subjected to gradual common carotid artery stenosis (GCAS) surgery by using an ameroid constrictor vessel‐constricting device with an inner diameter of 0.75 mm. The common carotid arteries narrowed gradually after gradual constriction of ameroid constrictors over 28 days after GCAS, with subsequent 79.3% area stenosis as a result of smooth muscle cell proliferation and macrophage infiltration in the tunica intima. The 28‐day survival rate was 91%. Arterial spin labeling demonstrated gradual and continuous reduction of cortical and subcortical CBF (ratio to the preoperative value) to 54.6% and 51.5%, respectively, over 28 days. However, magnetic resonance angiography showed increment of collateral flow signals in the leptomeningeal artery. Rarefaction and proliferation of astrocytes and microglia, with loss of oligodendrocytes, were found in the white matter at 32 days. Hippocampal neuronal loss was observed in only 25% of GCAS mice, consistent with lack of abnormalities in the Morris water maze test. The rotarod test showed motor impairment, and the Y‐maze test showed working memory deficits.ConclusionsThe GCAS model successfully generated gradual and continuous CBF reduction over 28 days, with replication of key histological, radiological, and behavioral features associated with cerebral hypoperfusion leading to VCI.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Gradual Carotid Artery Stenosis in Mice Closely Replicates Hypoperfusive Vascular Dementia in Humans

Hattori

Enmi

Iguchi

et al. 2016

JAHA

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“…In fact, the 8-arm radial maze, water maze, and Y-maze tests show that the mice with prolonged cerebral hypoperfusion exhibit significant impairments in learning ability. [30][31][32] One potential drawback of this model is the acute decrease in cerebral blood flow by the micro-coil placement, which may not be so consistent with the phenomena in clinic (this point is also applied to the rat model of bilateral common carotid artery occlusion).…”

Section: Mouse Model Of Bilateral Common Carotid Artery Stenosismentioning

confidence: 99%

Subcortical ischemic vascular disease: Roles of oligodendrocyte function in experimental models of subcortical white-matter injury

Shindo

Liang

Maki

et al. 2015

J Cereb Blood Flow Metab

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Oligodendrocytes are one of the major cell types in cerebral white matter. Under normal conditions, they form myelin sheaths that encircle axons to support fast nerve conduction. Under conditions of cerebral ischemia, oligodendrocytes tend to die, resulting in white-matter dysfunction. Repair of white matter involves the ability of oligodendrocyte precursors to proliferate and mature. However, replacement of lost oligodendrocytes may not be the only mechanism for white-matter recovery. Emerging data now suggest that coordinated signaling between neural, glial, and vascular cells in the entire neurovascular unit may be required. In this mini-review, we discuss how oligodendrocyte lineage cells participate in signaling and crosstalk with other cell types to underlie function and recovery in various experimental models of subcortical white-matter injury.

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“…The BCAS model is a model of chronic cerebral hypoperfusion induced by placement of microcoils around both carotid arteries [21]. In this model a reduced CBF, activation of microglia and astroglia, white matter lesions, grey matter changes, hippocampal atrophy and micro-infarcts have been described [21][22][23][24][25]. TAC, the ligation of the aortic arch between the carotids, is a mouse model of chronic heart failure leading to a reduced ejection fraction [26,27].…”

mentioning

confidence: 99%

The heart-brain connection: mechanistic insights and models

2012

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While both cardiac dysfunction and progressive loss of cognitive function are prominent features of an ageing population, surprisingly few studies have addressed the link between the function of the heart and brain. Recent literature indicates that autoregulation of cerebral flow is not able to protect the brain from hypoperfusion when cardiac output is reduced or atherosclerosis is prominent. This suggests a close link between cardiac function and large vessel atherosclerosis on the one hand and brain perfusion and cognitive functioning on the other. Mechanistically, the presence of vascular pathology leads to chronic cerebral hypoperfusion, blood brain barrier breakdown and inflammation that most likely precede neuronal death and neurodegeneration. Animal models to study the effects of chronic cerebral hypoperfusion are available, but they have not yet been combined with cardiovascular models.

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Selective Impairment of Working Memory in a Mouse Model of Chronic Cerebral Hypoperfusion

Cited by 216 publications

References 28 publications

Gradual Carotid Artery Stenosis in Mice Closely Replicates Hypoperfusive Vascular Dementia in Humans

Gradual Carotid Artery Stenosis in Mice Closely Replicates Hypoperfusive Vascular Dementia in Humans

Subcortical ischemic vascular disease: Roles of oligodendrocyte function in experimental models of subcortical white-matter injury

The heart-brain connection: mechanistic insights and models

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