Aging influences cerebrovascular myogenic reactivity and BK channel function in a sex-specific manner.

AIMS: The myogenic reactivity of the middle cerebral arteries (MCA) protects the brain by altering the diameter in response to changes in lumen pressure. Large conductance potassium (BK) channels are known to regulate the myogenic reactivity, yet, it is not clear how aging alters the myogenic reactivity via the BK channel in males and females. Thus, we hypothesize that age-associated changes in BK channel subunits modulate the myogenic reactivity in a sex-specific manner. METHODS AND RESULTS: We used vascular reactivity, patch-clamp, and biochemical methods to measure myogenic reactivity, BK channel function, and expression, respectively in cerebral vessels of adult and aged male and female Sprague Dawley rats. Our results suggest that aging and ovariectomy (OVX) exaggerated the myogenic reactivity of MCA in females but attenuated it in males. Aging induced outward eutrophic remodelling in females but inward hypertrophic remodelling in males. Aging decreased total, Kv, BK channel currents, and spontaneous transient outward currents (STOC) in vascular smooth muscle cells isolated from females, but not in males. Aging increased BKα subunit mRNA and protein both in males and females. However, aging decreased BKß1 subunit protein and mRNA in females only. In males, BKß1 mRNA is increased, but protein is decreased. Iberiotoxin-induced MCA constriction is lower in aged females but higher in aged males. Activation of BKα (10 µM NS1619) and BKß1 (10 µM S-Equol) subunits failed to increase STOCs and were unable to decrease the myogenic reactivity of MCA in aged female but not in aged male rats. OVX decreased, but chronic supplementation of oestradiol restored BK channel expression and function. CONCLUSION: Overall our results suggest that aging or OVX-associated downregulation of the BKß1 expression and function in females results in exaggerated myogenic reactivity of MCA. However, age-associated increase in BK channel function in males attenuated myogenic reactivity of MCA.

Vascular Arginase Is a Relevant Target to Improve Cerebrovascular Endothelial Dysfunction in Rheumatoid Arthritis: Evidence from the Model of Adjuvant-Induced Arthritis.

Emerging data revealed that rheumatoid arthritis (RA) is associated with higher risk of cerebrovascular diseases. Whereas cerebral endothelial dysfunction is acknowledged as a critical aspect of cerebrovascular diseases, its presence in RA and the mechanisms involved are currently unknown. By using the model of rat adjuvant-induced arthritis (AIA), the present study investigated cerebrovascular reactivity in pressurized middle cerebral arteries (MCA) on day 33 post-immunization. The results revealed that arthritis induced a dramatic decrease in the vasodilatory response to acetylcholine (ACh), ADP, and bradykinin (n = 7-9 arteries, p < 0.0001). By using nor-NOHA, L-NAME, BH4, and Tempol, the results showed that the reduced response to ACh relied on arginase overactivation (n = 8), low NOS activity (n = 8), BH4 deficiency (n = 9), and excessive superoxide production (n = 9). Immunohistological analysis revealed an endothelial upregulation of arginase 2 (p < 0.05, n = 5-6) and NADPH oxidase (p < 0.05, n = 5-7) while eNOS expression was unchanged in AIA (n = 6). To assess whether arginase inhibition may be a relevant therapeutic, AIA rats were treated with an arginase inhibitor (nor-NOHA, 40 mg/kg/day, i.p., n = 20 rats) daily from day 10 to day 33 post-immunization. The treatment alleviated the impaired response of MCA to endothelium-dependent agonists, through an increase in NOS signaling and a suppression of BH4 deficiency and superoxide overproduction. By contrast, it did not change the course of arthritis. In conclusion, arthritis induced a cerebrovascular endothelial dysfunction involving an imbalance in the arginase/NOS pathway. Arginase inhibition appears as a promising therapy beyond anti-rheumatic drugs for reducing the risk of cerebrovascular diseases in RA.

Effects of GB34 acupuncture on hyperventilation-induced carbon dioxide reactivity and cerebral blood flow velocity in the anterior and middle cerebral arteries of normal subjects.

OBJECTIVES: To determine whether acupuncture at GB34 affects cerebral blood flow (CBF) via the anterior cerebral arteries (ACAs) and middle cerebral arteries (MCAs). METHODS: This study included 10 healthy young male volunteers. CBF velocity and cerebrovascular reactivity (CVR) were measured using transcranial Doppler sonography (TCD). The changes in hyperventilation-induced carbon dioxide (CO2) reactivity and modified blood flow velocity at 40 mm Hg (CV40) were observed for both ACAs and MCAs before and after GB34 acupuncture treatment. Blood pressure and heart rate were also measured before and after GB34 acupuncture treatment. RESULTS: The CO2 reactivity of the ipsilateral MCA significantly increased after GB34 acupuncture treatment, compared with that at baseline (P=0.007). In contrast, the CO2 reactivity of both ACAs and the contralateral MCA remained unchanged. The CV40 of both ACAs and MCAs did not change after GB34 acupuncture treatment and neither did the mean arterial blood pressure and heart rate. CONCLUSIONS: GB34 acupuncture treatment increased CO2 reactivity specifically in the ipsilateral MCA, but had no effect on either the ACAs or the contralateral MCA. These data suggest that GB34 acupuncture treatment improves the vasodilatory potential of the cerebral vasculature to compensate for fluctuations caused by changes in external conditions and could potentially be useful for the treatment of disorders of the ipsilateral MCA circulation.

NRF2 activation with Protandim attenuates salt-induced vascular dysfunction and microvascular rarefaction.

HYPOTHESIS: This study tested the hypothesis that dietary activation of the master antioxidant and cell protective transcription factor nuclear factor, erythroid -2-like 2 (NRF2), protects against salt-induced vascular dysfunction by restoring redox homeostasis in the vasculature. METHODS: Male Sprague-Dawley rats and Syrian hamsters were fed a HS (4.0% NaCl) diet containing ~60 mg/kg/day Protandim supplement for 2 weeks and compared to controls fed HS diet alone. RESULTS: Protandim supplementation restoredendothelium-dependent vasodilation in response to acetylcholine (ACh) in middle cerebral arteries (MCA)of HS-fed rats and hamster cheek pouch arterioles, and increased microvessel density in the cremastermuscle of HS-fed rats. The restored dilation to ACh in MCA of Protandim-treated rats was prevented by inhibiting nitric oxide synthase (NOS) with L-NAME [100 µM] and was absent in MCA from Nrf2(-/-) knockout rats fed HS diet. Basilar arteries from HS-fed rats treated with Protandim exhibited significantly lower staining for mitochondrial oxidizing species than untreated animals fed HS diet alone; and Protandim treatment increased MnSOD (SOD2) protein expression in mesenteric arteries of HS-fed rats. CONCLUSIONS: These results suggest that dietary activation of NRF2 protects against salt-induced vascular dysfunction, vascular oxidative stress, and microvascular rarefaction by upregulating antioxidant defenses and reducing mitochondrial ROS levels.

Neuronal Regeneration after Electroacupuncture Treatment in Ischemia-Reperfusion-Injured Cerebral Infarction Rats.

Adult neuronal cells which can regenerate have been reported. The present study investigated whether acupuncture enhances neuronal regeneration in ischemic stroke rats. We established an ischemic stroke rat model by occluding the cerebral blood flow of the right middle cerebral artery for 15 minutes and then allowing reperfusion in Sprague-Dawley rats. The results indicated that, in these rats, 2 Hz electroacupuncture (EA) at both Zusanli (ST36) and Shangjuxu (ST37) acupoints reduced the infarction/hemisphere ratio 8 days after reperfusion and reduced the modified neurological severity score (mNSS) and increased the rotarod test time 4 and 8 days after reperfusion, respectively. In addition, 2 Hz reduced nestin immunoreactive cells in the penumbra area and the ischemic core area; 2 Hz EA also reduced Ki67 immunoreactive cells and increased glial fibrillary acidic protein immunoreactive cells in the penumbra area. These findings suggest that 2 Hz EA at the ST36 and ST37 acupoints has a neuroprotective role. However, additional studies are needed to further investigate these preliminary results.

[Effect of Acupuncture on Neurological Function and Related Differentially-depressed Profiles in the Brain of Middle Cerebral Artery Occlusion Rats Using Antibody Chips Technique].

OBJECTIVE: To observe the effect of acupuncture on changes of neurological function and expression of proteins in the ischemic brain region in middle cerebral artery occlusion (MCAO) rats with protein chip technique, so as to reveal the profiles of cerebral proteins related to its effectiveness in improving cerebral ischemia (CI). METHODS: SD rats were rando-mized into sham operation (sham), CI model, non-acupoint and acupoint groups (n=10 in each group). The CI model was established by MCAO according to modified Longa's method. For rats of the acupoint group, "Dazhui" (CV 14), "Baihui" (GV 20) and "Shuigou" (GV 26) were punctured by twirling the filiform needles for about 1 min, and repeated once again during 30 min of need-le retention, which was conducted once every 12 h, and 6 times altogether. The non-acupoints were about 3 mm away from the above-mentioned acupoints and stimulated with the same method and same procedures. The neurological deficit score was scaled according to Longa's method. The differentially-expressed proteins (≥ 1.5 folds in up- and down-regulation) in the ischemic region of the brain were detected by using Springbio 720 antibody chip technology. RESULTS: Compared with the sham group, the neurological deficit score was significantly higher in the model group (P<0.01), while compared with the model group, the neurological deficit scores were considerably in both acupoint and non-acupoint groups (P<0.05, P<0.01). The therapeutic effect of acupoint group was evidently superior to that of the non-acupoint group in improving neurological function (P<0.05). Compared with the sham group, the differentially-expressed proteins in the ischemic brain including 33 up-regulated and 12 down-regulated were found in the model group, mainly functioning in cell apoptosis, cell cycle regulation, cell differentiation and proliferation, cell cytoskeleton and connection, cell signal transduction, DNA repair and transcription factors. Compared with the model group, the differentially-expressed proteins including 12 up-regulated and 31 down-regulated in the acupoint group, and 15 up-regu-lated and 17 down-regulated in the non-acupoint group were detected, functioning being the same as those mentioned above in the model group. CONCLUSIONS: Manual acupuncture stimulation of GV 14, GV 20 and GV 26 can improve neurological function in CI rats, which may be associated with its function in regulating the expression of many proteins in the ischemic region of the brain.

Transformation of diffuse beta-amyloid precursor protein and beta-amyloid deposits to plaques in the thalamus after transient occlusion of the middle cerebral artery in rats.

BACKGROUND AND PURPOSE: The present study examined the long-term presence of beta-amyloid precursor protein (APP) and beta-amyloid (Abeta) accumulation in the rat thalamus after focal cerebral ischemia. METHODS: Male Wistar rats were subjected to transient middle cerebral artery occlusion (MCAO) for 2 hours. Sensorimotor outcome was assessed using a tapered/ledged beam-walking task after operation. The distribution of APP and Abeta was examined immunohistochemically at 1 week, 1 month, and 9 months after MCAO. RESULTS: MCAO caused a long-lasting deficit in forelimb and hind limb function assessed using the beam-walking test. Histologic examination revealed a transient increase in APP and Abeta staining in axons in the corpus callosum and in neurons at the border of the ischemic region. APP and Abeta deposits persisted in the thalamic nuclei (ventroposterior lateral and ventroposterior medial nuclei), eventually leading to dense plaque-like deposits by the end of the 9-month follow-up. The deposits were surrounded by an astroglial scar. The deposits were positive for Abeta and N-terminal APP, but not for C-terminal APP. Antibodies against the C-terminal of Abeta, ie, Abeta42 and Abeta40, showed a preferential staining for Abeta42. Congo red or thioflavine S did not stain the deposits. CONCLUSIONS: The present results demonstrated the persistent presence and aggregation of APP and Abeta, or their fragments, to dense plaque-like deposits in the ventroposterior lateral and ventroposterior medial nuclei of rats subjected to focal cerebral ischemia.