Jun Miyanohara scite author profile

Chronic cerebral hypoperfusion is a characteristic seen in widespread CNS diseases, including neurodegenerative and mental disorders, and is commonly accompanied by cognitive impairment. Recently, several studies demonstrated that chronic cerebral hypoperfusion can induce the excessive inflammatory responses that precede neuronal dysfunction; however, the precise mechanism of cognitive impairment due to chronic cerebral hypoperfusion remains unknown. Transient receptor potential melastatin 2 (TRPM2) is a Ca-permeable channel that is abundantly expressed in immune cells and is involved in aggravation of inflammatory responses. Therefore, we investigated the pathophysiological role of TRPM2 in a mouse chronic cerebral hypoperfusion model with bilateral common carotid artery stenosis (BCAS). When male mice were subjected to BCAS, cognitive dysfunction and white matter injury at day 28 were significantly improved in TRPM2 knock-out (TRPM2-KO) mice compared with wild-type (WT) mice, whereas hippocampal damage was not observed. There were no differences in blood-brain barrier breakdown and HO production between the two genotypes at 14 and 28 d after BCAS. Cytokine production was significantly suppressed in BCAS-operated TRPM2-KO mice compared with WT mice at day 28. In addition, the number of Iba1-positive cells gradually decreased from day 14. Moreover, daily treatment with minocycline significantly improved cognitive perturbation. Surgical techniques using bone marrow chimeric mice revealed that activated Iba1-positive cells in white matter could be brain-resident microglia, not peripheral macrophages. Together, these findings suggest that microglia contribute to the aggravation of cognitive impairment by chronic cerebral hypoperfusion, and that TRPM2 may be a potential target for chronic cerebral hypoperfusion-related disorders. Chronic cerebral hypoperfusion is manifested in a wide variety of CNS diseases, including neurodegenerative and mental disorders that are accompanied by cognitive impairment; however, the underlying mechanisms require clarification. Here, we used a chronic cerebral hypoperfusion mouse model to investigate whether TRPM2, a Ca-permeable cation channel highly expressed in immune cells, plays a destructive role in the development of chronic cerebral hypoperfusion-induced cognitive impairment, and propose a new hypothesis in which TRPM2-mediated activation of microglia, not macrophages, specifically contributes to the pathology through the aggravation of inflammatory responses. These findings shed light on the understanding of the mechanisms of chronic cerebral hypoperfusion-related inflammation, and are expected to provide a novel therapeutic molecule for cognitive impairment in CNS diseases.

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Transient Receptor Potential Canonical 3 Inhibitor Pyr3 Improves Outcomes and Attenuates Astrogliosis After Intracerebral Hemorrhage in Mice

Munakata

Shirakawa

Nagayasu

et al. 2013

Stroke

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Background and Purpose-Intracerebral hemorrhage (ICH) stems from the rupture of blood vessels in the brain, with the subsequent accumulation of blood in the parenchyma. Increasing evidence suggests that blood-derived factors induce excessive inflammatory responses that are involved in the progression of ICH-induced brain injury. Thrombin, a major bloodderived factor, leaks into the brain parenchyma on blood-brain barrier disruption and induces brain injury and astrogliosis. Furthermore, thrombin dynamically upregulates transient receptor potential canonical 3 channel, which contributes to pathological astrogliosis through a feed-forward upregulation of its own expression. The present study investigated whether Ethyl-1-(4-(2,3,3-trichloroacrylamide)phenyl)-5-(trifluoromethyl)-1H-pyrazole-4-carboxylate (Pyr3), a specific transient receptor potential canonical 3 inhibitor, can improve functional outcomes and attenuate astrogliosis after ICH in mice. Methods-Male C57BL6 mice received an intracerebral infusion of collagenase or autologous blood to induce ICH.Pyr3 was given both intracerebroventricularly and intraperitoneally after ICH induction. ICH-induced brain injury was evaluated by quantitative assessment of neurological deficits, brain swelling, and injury volume after ICH. Astrocyte activation was evaluated by immunohistochemical assessment of changes in S100 protein expression. Results-Neurological deficits, neuronal injury, brain edema, and astrocyte activation were all significantly improved by administration of Pyr3. Moreover, delayed administration of Pyr3 at 6 hours or 1 day after blood or collagenase infusion, respectively, also improved the symptoms. Conclusions-Pyr3, a specific inhibitor of transient receptor potential canonical 3, reduced the perihematomal accumulation of astrocytes and ameliorated ICH-induced brain injury. Therefore, transient receptor potential canonical 3 provides a new therapeutic target for the treatment of hemorrhagic brain injury.

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A pathophysiological role of TRPV1 in ischemic injury after transient focal cerebral ischemia in mice

Miyanohara

Shirakawa

Sanpei

et al. 2015

Biochemical and Biophysical Research Communications

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Transient receptor potential vanilloid 1 (TRPV1) is a non-selective cation channel with high Ca(2+) permeability, which functions as a polymodal nociceptor activated by heat, protons and several vanilloids, including capsaicin and anandamide. Although TRPV1 channels are widely distributed in the mammalian brain, their pathophysiological roles in the brain remain to be elucidated. In this study, we investigated whether TRPV1 is involved in cerebral ischemic injury using a middle cerebral artery (MCA) occlusion model in wild-type (WT) and TRPV1-knockout (KO) mice. For transient ischemia, the left MCA of C57BL/6 mice was occluded for 60 min and reperfused at 1 and 2 days after ischemia. We found that neurological and motor deficits, and infarct volumes in TRPV1-KO mice were lower than those of WT mice. Consistent with these results, intracerebroventricular injection of a TRPV1 antagonist, capsazepine (20 nmol), 30 min before the onset of ischemia attenuated neurological and motor deficits and improved infarct size without influencing cerebral blood flow in the occluded MCA territory. The protective effect of capsazepine on ischemic brain damage was not observed in TRPV1-KO mice. WT and TRPV1-KO mice did not show any differences with respect to the increased number of Iba1-positive microglia/macrophages, GFAP-positive astrocytes, and Gr1-positive neutrophils at 1 and 2 days after cerebral ischemia. Taken together, we conclude that brain TRPV1 channels are activated by ischemic stroke and cause neurological and motor deficits and infarction after brain ischemia.

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Sequential PET estimation of cerebral oxygen metabolism with spontaneous respiration of ¹⁵O-gas in mice with bilateral common carotid artery stenosis

Temma

Yamazaki

Miyanohara

et al. 2017

J Cereb Blood Flow Metab

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15 O-gas with isoflurane was supplied to the nose of mouse with evacuation of excess 15 O-gas surrounding the body. 15 O-PET was performed on days 3, 7, 14, 21, and 28 after surgery. Cerebral blood flow (CBF), cerebral blood volume, oxygen extraction fraction (OEF), and cerebral metabolic rate of oxygen (CMRO 2 ) were calculated in whole brains. A significant decrease in CBF and compensatory increase in OEF in the BCAS group produced CMRO 2 values comparable to that of the sham group at three days post-operation. Although CBF and OEF in the BCAS group gradually recovered over the first 28 days, the CMRO 2 showed a gradual decrease to 68% of sham values at 28 days post-operation. In conclusion, we successfully developed a noninvasive 15 O-PET method for mice.

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Pathophysiological Role of TRPM2 in Age-Related Cognitive Impairment in Mice

et al. 2019

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Aging causes various functional changes, including cognitive impairment and inflammatory responses in the brain. Transient receptor potential melastatin 2 (TRPM2), a Ca 2+-permeable channel expressed abundantly in immune cells, exacerbates inflammatory responses. Previously, we reported that TRPM2 on resident microglia plays a critical role in exacerbating inflammation, white matter injury, and cognitive impairment during chronic cerebral hypoperfusion; however, the physiological or pathophysiological role of TRPM2 during age-associated inflammatory responses remains unclear. Therefore, we examined the effects of TRPM2 deletion in young (2-3 months) and older (12-24 months) mice. Compared with young wild-type (WT) mice, middle-aged (12-16 months) WT mice showed working and cognitive memory dysfunction and aged (20-24 months) WT mice exhibited impaired spatial memory. However, these characteristics were not seen in TRPM2 knockout (TRPM2-KO) mice. Consistent with the finding of cognitive impairment, aged WT mice exhibited white matter injury and hippocampal damage and an increase in the number of Iba1-positive cells and amounts of pro-inflammatory cytokines in the brain; these characteristics were not seen in TRPM2-KO mice. These findings suggest that TRPM2 plays a critical role in exacerbating inflammatory responses and cognitive dysfunction during aging.

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The astrocytic TRPA1 channel mediates an intrinsic protective response to vascular cognitive impairment via LIF production

et al. 2023

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Vascular cognitive impairment (VCI) refers to cognitive alterations caused by vascular disease, which is associated with various types of dementia. Because chronic cerebral hypoperfusion (CCH) induces VCI, we used bilateral common carotid artery stenosis (BCAS) mice as a CCH-induced VCI model. Transient receptor potential ankyrin 1 (TRPA1), the most redox-sensitive TRP channel, is functionally expressed in the brain. Here, we investigated the pathophysiological role of TRPA1 in CCH-induced VCI. During early-stage CCH, cognitive impairment and white matter injury were induced by BCAS in TRPA1-knockout but not wild-type mice. TRPA1 stimulation with cinnamaldehyde ameliorated BCAS-induced outcomes. RNA sequencing analysis revealed that BCAS increased leukemia inhibitory factor (LIF) in astrocytes. Moreover, hydrogen peroxide–treated TRPA1-stimulated primary astrocyte cultures expressed LIF, and culture medium derived from these cells promoted oligodendrocyte precursor cell myelination. Overall, TRPA1 in astrocytes prevents CCH-induced VCI through LIF production. Therefore, TRPA1 stimulation may be a promising therapeutic approach for VCI.

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The astrocytic TRPA1 channel plays a protective role in vascular cognitive impairment

Kakae

Nakajima

Tobori

et al. 2022

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Vascular cognitive impairment (VCI) is a syndrome defined as cognitive decline caused by vascular disease, which is associated with Alzheimer's disease and vascular dementia. Since chronic cerebral hypoperfusion (CCH) is commonly present in various types of dementia and induces VCI, we used bilateral common carotid artery stenosis (BCAS) mice as a CCH-induced VCI model. Transient receptor potential ankyrin 1 (TRPA1), the most redox-sensitive TRP channel, is functionally expressed in the brain and seems to function as a polymodal sensor in vascular disease. To clarify the involvement of TRPA1 in CCH-induced VCI, we used genetically engineered mice: TRPA1-knockout (TRPA1-KO) and cell-specific conditional TRPA1-KO mice. We showed that TRPA1 deficiency exacerbated BCASinduced cognitive impairment and white matter injury during early-stage CCH. TRPA1 stimulation with cinnamaldehyde ameliorated BCAS-induced outcomes. We also revealed that BCAS increased a cytokine in astrocytes. Moreover, TRPA1-stimulated primary astrocyte cultures expressed the cytokine, and culture medium derived from these TRPA1-stimulated cells promoted oligodendrocyte precursor cell myelination. Overall, TRPA1 stimulation in astrocytes plays a protective role in CCH-induced VCI through the cytokine production.

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ASP7266, a Novel Antibody against Human Thymic Stromal Lymphopoietin Receptor for the Treatment of Allergic Diseases

Numazaki

Abe

Hanaoka

et al. 2021

J Pharmacol Exp Ther

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Jun Miyanohara

TRPM2 Channel Aggravates CNS Inflammation and Cognitive Impairment via Activation of Microglia in Chronic Cerebral Hypoperfusion

Transient Receptor Potential Canonical 3 Inhibitor Pyr3 Improves Outcomes and Attenuates Astrogliosis After Intracerebral Hemorrhage in Mice

A pathophysiological role of TRPV1 in ischemic injury after transient focal cerebral ischemia in mice

Sequential PET estimation of cerebral oxygen metabolism with spontaneous respiration of ¹⁵O-gas in mice with bilateral common carotid artery stenosis

Pathophysiological Role of TRPM2 in Age-Related Cognitive Impairment in Mice

The astrocytic TRPA1 channel mediates an intrinsic protective response to vascular cognitive impairment via LIF production

The astrocytic TRPA1 channel plays a protective role in vascular cognitive impairment

ASP7266, a Novel Antibody against Human Thymic Stromal Lymphopoietin Receptor for the Treatment of Allergic Diseases

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Jun Miyanohara

TRPM2 Channel Aggravates CNS Inflammation and Cognitive Impairment via Activation of Microglia in Chronic Cerebral Hypoperfusion

Transient Receptor Potential Canonical 3 Inhibitor Pyr3 Improves Outcomes and Attenuates Astrogliosis After Intracerebral Hemorrhage in Mice

A pathophysiological role of TRPV1 in ischemic injury after transient focal cerebral ischemia in mice

Sequential PET estimation of cerebral oxygen metabolism with spontaneous respiration of 15O-gas in mice with bilateral common carotid artery stenosis

Pathophysiological Role of TRPM2 in Age-Related Cognitive Impairment in Mice

The astrocytic TRPA1 channel mediates an intrinsic protective response to vascular cognitive impairment via LIF production

The astrocytic TRPA1 channel plays a protective role in vascular cognitive impairment

ASP7266, a Novel Antibody against Human Thymic Stromal Lymphopoietin Receptor for the Treatment of Allergic Diseases

Contact Info

Product

Resources

About

Sequential PET estimation of cerebral oxygen metabolism with spontaneous respiration of ¹⁵O-gas in mice with bilateral common carotid artery stenosis