Protective effects of Ruscus extract in combination with ascorbic acid and hesperidine methylchalcone on increased leukocyte-endothelial interaction and macromolecular permeability induced by ischemia reperfusion injury.

BACKGROUND: Despite the well-recognized effectiveness of Ruscus aculetus extract combined or not with ascorbic acid (AA) and hesperidine methyl chalcone (HMC) on ischemia reperfusion (I/R) injury protection, little is known about the contribution of each constituent for this effect. OBJECTIVE: To investigate the effects of AA and HMC combined or not with Ruscus extract on increased macromolecular permeability and leukocyte-endothelium interaction induced by I/R injury. METHODS: Hamsters were treated daily during two weeks with filtered water (placebo), AA (33, 100 and 300 mg/kg/day) and HMC (50, 150 and 450 mg/kg/day) combined or not with Ruscus extract (50, 150 and 450 mg/kg/day). On the day of experiment, the cheek pouch microcirculation underwent 30 min of ischemia, and the number of rolling and adherent leukocytes and leaky sites were evaluated before ischemia and during 45 min of reperfusion. RESULTS: Ruscus extract combined with AA and HMC (Ruscus extract mixture) significantly prevented post-ischemic increase in leukocyte rolling and adhesion and macromolecular permeability compared to placebo and these effects were more prominent than AA and HMC alone on leukocyte adhesion and macromolecular leakage. CONCLUSION: Ruscus extract mixture were more effective than its isolated constituents in protect the hamster cheek pouch microcirculation against I/R injury.

Time course of microvalve pathophysiology in high pressure low flow model of venous insufficiency and the role of micronized purified flavonoid fraction.

BACKGROUND: The aim of this study was to characterize, in an experimental model, the mechanisms involved in the initiation of venous insufficiency at the level of microvenous valve and whether they can be influenced by early treatment with micronized purified flavonoid fraction (MPFF). METHODS: The external right iliac vein of 78 male golden Syrian hamsters was ligated to induce chronic venous insufficiency. Internal venular diameter as well as leukocyte-endothelium-interaction (leukocytes sticking after staining with rhodamine 6G), were assessed using an intravital microscope. In the second part of the study 30 animals were divided into three groups and underwent: ligation plus MPFF, ligation plus 10% lactose solution (vehicle), or sham operation. Treatment with MPFF 100 mg/kg/day or vehicle started 2 days before ligation and lasted for 7 days. Venular diameter and number of adherent leukocytes were assessed 5 days post-ligature. RESULTS: Venular diameter increased immediately after ligature and reached a maximum at 4 hours (P<0.001 vs. baseline), followed by a plateau before gradually returning to baseline dimensions. The increase in the number of adherent leukocytes was also immediate but attained maximal number at 3 days (P<0.0001), followed by a plateau and then gradual return to baseline numbers. In MPFF-treated animals, leukocyte adhesion to the microvalves was prevented compared with vehicle-treated animals (P<0.0001) and venular diameter was also significantly reduced (P<0.05). CONCLUSIONS: Venous hypertension induced immediate venular dilatation followed by an increase in the number of adherent leukocytes at microvalve level. Treatment with MPFF prevented the initiation of microvalve inflammation and may play a protective role in the progression of chronic venous insufficiency.

Peripheral microvascular dysfunction is also present in patients with ischemia and no obstructive coronary artery disease (INOCA).

BACKGROUND: In patients with ischemia and no obstructive coronary artery disease (INOCA), coronary microvascular dysfunction is associated with higher rate of major adverse cardiovascular events. OBJECTIVE: To demonstrate if microvascular dysfunction present in coronary microcirculation of patients with INOCA may be detected noninvasively in their peripheral circulation. METHODS: 25 patients with INOCA and 25 apparently healthy individuals (controls) were subjected to nailfold videocapillaroscopy (NVC) and venous occlusion plethysmography (VOP) to evaluate peripheral microvascular function and blood collection for biomarkers analysis, including soluble vascular cell adhesion molecule-1 (sVCAM-1), endothelin-1 (ET-1) and C-reactive protein (CRP). RESULTS: Red blood cell velocity (RBCV) before and after ischemia (RBCVmax) were significantly lower in patients with INOCA (p = 0.0001). Time to reach maximal red blood cell velocity (TRBCVmax) was significantly longer in INOCA group (p = 0.0004). Concerning VOP, maximal blood flow (p = 0.004) and its relative increment were significantly lower in patients with INOCA (p = 0.0004). RBCVmax showed significant correlations with sVCAM-1 (r = -0.38, p < 0.05), ET-1 (r = -0.73, p < 0.05) and CRP (r = -0.33, p < 0.05). Relative increment of maximal post-ischemic blood flow was significantly correlated with sVCAM-1 (r = -0.42, p < 0.05) and ET-1 (r = -0.48, p < 0.05). CONCLUSIONS: The impairment of microvascular function present in coronary microcirculation of patients with INOCA can be also detected in peripheral microcirculation.

Effects of Ruscus extract on muscarinic receptors: Is there a role for endothelium derived relaxing factors on macromolecular permeability protection and microvascular diameter changes?

BACKGROUND: Protective effects of Ruscus extract on macromolecular permeability depend on its capacity to stimulate muscarinic receptors on endothelial cells and induce the release of endothelium derived relaxing factors (EDRFs). OBJECTIVE: To investigate if these effects depend only on activation of muscarinic receptors or if EDRFs release are also necessary. We have also investigated the participation of Ruscus extract on muscarinic-induced release of EDRFs on microvascular diameters. METHODS: Hamsters were treated daily during two weeks with Ruscus extract (50, 150 and 450 mg/kg/day) and then macromolecular permeability induced by histamine and arteriolar and venular diameters after cyclooxygenase (COX) and nitric oxide synthase (NOS) inhibitors: indomethacin and Nω-Nitro-L-arginine (LNA), respectively applied topically at 10-8M, 10-6M and 10-4M were observed on the cheek pouch preparation. RESULTS: Ruscus extract decreased macromolecular permeability in a dose-dependent fashion and did not affect microvascular diameters. NOS and COX inhibitors enhanced its effect on microvascular permeability. NOS inhibition reduced arteriolar diameter and COX blocking decreased arteriolar and venular diameters at the lowest dose and increased them at higher doses of Ruscus extract. CONCLUSION: The protective effect of Ruscus extract on macromolecular permeability seems to be mediated only via muscarinic receptors. Muscarinic activation attenuated vasoconstrictive tone through cyclooxygenase-independent endothelium derived relaxing factors.

Microcirculation and biomarkers in patients with resistant or mild-to-moderate hypertension: a cross-sectional study.

Microcirculation influences peripheral vascular resistance and therefore contributes to arterial blood pressure. The aim of this study was to investigate the correlation between serum markers of inflammation and microcirculatory parameters observed by nailfold videocapillaroscopy (NVC) in patients with resistant (RH, 58 [50-63] years, n = 25) or mild-to-moderate hypertension (MMH, 56 [47-64] years, n = 25) compared to normotensive patients (control group (CG), 33 [27-52] years, n = 25). C-reactive protein (CRP), endothelin, adiponectin, I-CAM and V-CAM levels were obtained by laboratory analysis. Functional capillary density (FCD; the number of capillaries with flowing red blood cells by unit tissue area), capillary diameters, maximum red blood cell velocity (RBCVmax) during the reactive hyperemia response/RBCVbaseline after 1 min of arterial occlusion at the finger base and time to reach RBCVmax were determined by NVC. A sub-analysis was also conducted on hypertensive patients not taking statins, with controlled/uncontrolled blood pressure. The RH group showed lower RBCV and RBCVmax values and longer TRBCVmax compared to MMH and CG patients, with worse values in those with uncontrolled blood pressure. FCD and diameters showed no significant differences among the three groups, with higher CRP values in the RH and MMH groups. An increase in endothelin was observed only in patients not taking statins in both hypertensive groups. Patients with severe hypertension and uncontrolled blood pressure levels presented more pronounced microvascular dysfunction, as well as higher serum values for CRP and endothelin (without statin treatment), suggesting that the use of statins decreases endothelin release.

Microcirculation, Adiposity, and Traditional and Emerging Cardiovascular Risk Factors in Prepubertal Children.

PURPOSE: Previous studies have shown that microvascular dysfunction (MD) is associated with a number of cardiovascular risk factors, including obesity. Few studies have assessed microvascular reactivity in children, and in most of these, results were confounded by the effects of puberty. Our aim was to establish whether MD is already present in obese prepubertal children. METHODS: This cross-sectional study included 52 obese, 18 overweight, and 28 eutrophic children, with a mean ± standard deviation age of 7.44 ± 1.22 years. We evaluated cardiovascular risk factors and nutritive microvascular function by using nailfold dynamic videocapillaroscopy and determined functional capillary density (FCD), red blood cell velocity at resting conditions (RBCV) and at peak (RBCVmax), and time to reach peak velocity during the post-occlusive reactive hyperemic response following 1 minute ischemia. RESULTS: On univariate analysis, differences in microvascular reactivity were not observed among the groups. Obese and overweight children had significantly higher scores than eutrophic children for the following parameters: body mass index, waist circumference, waist-to-height ratio, mean arterial pressure, homeostasis model assessment for insulin resistance, levels of insulin, leptin, glucose, triglycerides, total cholesterol, uric acid, and C-reactive protein. Multivariate analysis demonstrated the association between metabolic, anthropometric, and microvascular variables, stratified according to the degree of adiposity and body fat distribution. CONCLUSIONS: Univariate analysis did not show any difference in microvascular reactivity between groups but, by testing these variables by multivariate means, we noticed a common and direct variation between cardiovascular/metabolic risk factors and microvascular reactivity occurring early in life.

Beneficial effects of the micronized purified flavonoid fraction (MPFF, Daflon® 500 mg) on microvascular damage elicited by sclerotherapy.

OBJECTIVES: To evaluate if the micronized purified flavonoid fraction (MPFF) treatment could reduce the side effects of sclerotherapy (a procedure frequently used to treat venous disease manifestations) by minimizing the inflammatory response within the surrounding tissues. METHOD: Twenty-two male New Zealand rabbits were treated by gavage with micronized purified flavonoid fraction (MPFF; 300 mg/kg/day) or vehicle (10% lactose solution) during 21 consecutive days, starting 7 days before sclerotherapy. The sclerotherapy consisted of an injection containing 5% ethanolamine oleate solution in the rabbit's dorsal ear vein. Before and after sclerotherapy, venular and arteriolar diameters, microvascular permeability, functional capillary density (FCD), number of rolling and sticking leukocytes were evaluated on ear microcirculation. Images of the sclerotherapy site were taken before and after the procedure. RESULTS: Compared to placebo, MPFF treatment prevented the increase in venular diameter, preserved FCD (P < 0.001) and reduced the number of leaky sites (P < 0.001) and sticking leukocytes (P < 0.001). Imaging confirmed these effects on thrombosis and perivascular edema of the sclerosed vein, 14 days after procedure. CONCLUSION: MPFF treatment limited the postsclerotherapy inflammation in surrounding microvascular network, suggesting that MPFF may prevent undesirable secondary effects of the procedure in this animal model. This study warrants further investigation for its use in clinical conditions.

α-Tocopherol Improves Microcirculatory Dysfunction on Fructose Fed Hamsters.

Fructose, an everyday component of western diet associated to chronic hyperglycemia and enhanced free radical production, impairs endothelial function and supplementation with antioxidants might improve it. In this study we investigated if vitamin E could reverse the microvascular damage elicited by fructose. Male Syrian golden hamsters drank either 10% fructose solution (F) or filtered water (C), combined with three concentrations of vitamin E in their chows [zero, normal (VE) or 5X (5XVE)] during 60 days. Microvascular reactivity in response to topical application of acetylcholine (Ach; endothelium-dependent vasodilator) or sodium nitroprusside (SNP; endothelium-independent vasodilator) and macromolecular permeability increase induced by either 30 min ischemia followed by reperfusion (I/R) or topical application of histamine (5 µM) were assessed using the cheek pouch preparation. Compared to controls (drinking filtered water), fructose-drinking animals showed decreased vasodilatation to acetylcholine in all concentrations tested (-56.2% for 10-9M, -53.9% for 10-7M and -43.7% for 10-5M). On the other hand, vitamin E supplementation resulted in increased responses for both water and fructose drinking groups (177.4% for F vs. F/5XVE and 241.6% for C vs. C/5XVE for 10-5M Ach). Endothelial-independent vasodilatation explored by topical application of SNP was restored and even enhanced with the supplementation of 5X vitamin E in both groups (80.1% for F vs. F/5XVE; 144.2% for C vs. C/5XVE; 3.4% of difference for C/5XVE vs. F/5XVE on 10-5M SNP). The number of leaky sites after I/R and histamine stimuli in vitamin E supplemented animals decreased (-25.1% and -15.3% for F vs. F/5XVE; and -21.7% and -16% of leaky sites comparing C vs. C/5XVE, respectively for I/R and histamine stimuli) pointing to tightening of the endothelial barrier for macromolecular permeability. Our results strongly suggest that vitamin E could improve the endothelial function and permeability barrier and also reverse impairments elicited by sugar overload.

Effects of babassu nut oil on ischemia/reperfusion-induced leukocyte adhesion and macromolecular leakage in the microcirculation: observation in the hamster cheek pouch.

BACKGROUND: The babassu palm tree is native to Brazil and is most densely distributed in the Cocais region of the state of Maranhão, in northeastern Brazil. In addition to the industrial use of refined babassu oil, the milk, the unrefined oil and the nuts in natura are used by families from several communities of African descendants as one of the principal sources of food energy. The objective of this study was to evaluate the effects of babassu oil on microvascular permeability and leukocyte-endothelial interactions induced by ischemia/reperfusion using the hamster cheek pouch microcirculation as experimental model. METHODS: Twice a day for 14 days, male hamsters received unrefined babassu oil (0.02 ml/dose [BO-2 group], 0.06 ml/dose [BO-6 group], 0.18 ml/dose [BO-18 group]) or mineral oil (0.18 ml/dose [MO group]). Observations were made in the cheek pouch and macromolecular permeability increase induced by ischemia/reperfusion (I/R) or topical application of histamine, as well as leukocyte-endothelial interaction after I/R were evaluated. RESULTS: The mean value of I/R-induced microvascular leakage, determined during reperfusion, was significantly lower in the BO-6 and BO-18 groups than in the MO one (P < 0.001). In addition, histamine-induced increase of microvascular permeability was significantly less pronounced in BO groups compared to MO one. No significant differences among groups in terms of leukocyte adhesion, concentrations of tumor necrosis factor alpha, interleukin 1, and interleukin 6 were found. CONCLUSIONS: Our findings suggest that unrefined babassu oil reduced microvascular leakage and protected against histamine-induced effects in postcapillary venules and highlights that these almost unexploited nut and its oil might be secure sources of food energy.

A pro-inflammatory profile of endothelial cell in Lonomia obliqua envenomation.

Lonomia obliqua envenomation is characterized by intense local inflammatory reaction, which, dependent on the severity of the case, is followed by severe clinical manifestations related to hemorrhagic disorders that can lead to fatal outcome. These effects were imputed to several toxins present in L. obliqua venom, which are responsible for procoagulant, anticoagulant as well as antithrombotic activities, being also able to interfere with vascular cells functions. In this work, the intravital microscopy analysis show that after administration of low doses of L. obliqua venom (1-3 µg/ml) on hamster cheek pouch, there was no alterations neither on arterioles or venules caliber nor in the vascular permeability up to 30 min. However, after 10 min in contact with venom occurred a clear activation in the vascular bed, characterized by an increase in leukocyte rolling and adhesion on endothelium of hamster cheek pouch venules. A confocal analysis of vascular beds, confirmed these results showing an increase in endothelial E-selectin and VCAM-1 expression. The effects of L. obliqua venom on human endothelial cell (EC) in vitro were also investigated. The treatment of EC with venom (1-3 µg/ml) did not affect cell viability. However, at concentrations as low as 3 µg/ml of L. obliqua venom modifies actin cytoskeleton dynamics, and increases focal adhesion contacts, inducing stress fiber formation, focal adhesion kinase (FAK) phosphorylation and its subsequent association to actin. These effects are followed by the activation of NF-κB pathway, a critical signaling in several events associated to vascular inflammation. Accordingly, L. obliqua venom leads to a significant increase in COX-2, NOS-2, HO-1, MMP-2 and MMP-9 expression. Taken together the data show that, even at low concentrations, L. obliqua venom can activate endothelial cells, which assume a pro-inflammatory profile, contributing for local effects and probably also for systemic disturbances due to its ability to modulate the properties of the vascular system.

Muscle endothelial-dependent microvascular dysfunction in adulthood due to early postnatal overnutrition.

The aims of our study were to investigate effects of postnatal overnutrition, obtained by restricting the number of pups per litter, on microcirculatory reactivity, fat depots, its total percentage and lipid profile. Microvascular reactivity was evaluated in the cremaster muscle of 24 hamsters divided into four groups, with 6 animals in each one: normal (NL) and restricted (RL) litter groups, both at 6th and 21st weeks of age. The NL group had 8-9 pups and the RL 3 pups per litter and to avoid the litter effect, only one animal was used per litter. The results have shown that the RL group had higher velocity of weight, body mass and fat gain compared to the NL one at weeks 6 and 21. Significant differences were also observed on urogenital fat depot, total cholesterol and low density lipoprotein between groups. At the lowest concentration of Ach, the RL group showed smaller arteriolar dilatation at the 21st than at the 6th week [5(3-13) vs 19(8-40)%, p<0.01] while the NL one did not show any difference within the group. The highest concentration of Ach at the 21th week pointed to endothelial-dependent microvascular dysfunction in RL compared to NL [3(8-26) vs. 13(8-26)%, p<0.05]. Endothelial-independent microvascular reactivity was similar between groups. Our data suggest that postnatal overnutrition is associated to muscle endothelial-dependent microvascular dysfunction, greater body mass and total percentage of fat and impaired the lipid profile. In conclusion, the imprinting promoted by this experimental model of obesity was able to influence microvascular reactivity later in life.

Vimentin and laminin are altered on cheek pouch microvessels of streptozotocin-induced diabetic hamsters.

OBJECTIVE: Normal endothelial cells respond to shear stress by elongating and aligning in the direction of fluid flow. Hyperglycemia impairs this response and contributes to microvascular complications, which result in deleterious effects to the endothelium. This work aimed to evaluate cheek pouch microvessel morphological characteristics, reactivity, permeability, and expression of cytoskeleton and extracellular matrix components in hamsters after the induction of diabetes with streptozotocin. METHODS: Syrian golden hamsters (90-130 g) were injected with streptozotocin (50 mg/kg, i.p.) or vehicle either 6 (the diabetes mellitus 6 group) or 15 (the diabetes mellitus 15 group) days before the experiment. Vascular dimensions and density per area of vessels were determined by morphometric and stereological measurements. Changes in blood flow were measured in response to acetylcholine, and plasma extravasation was measured by the number of leakage sites. Actin, talin, α-smooth muscle actin, vimentin, type IV collagen, and laminin were detected by immunohistochemistry and assessed through a semiquantitative scoring system. RESULTS: There were no major alterations in the lumen, wall diameters, or densities of the examined vessels. Likewise, vascular reactivity and permeability were not altered by diabetes. The arterioles demonstrated increased immunoreactivity to vimentin and laminin in the diabetes mellitus 6 and diabetes mellitus 15 groups. DISCUSSION: Antibodies against laminin and vimentin inhibit branching morphogenesis in vitro. Therefore, laminin and vimentin participating in the structure of the focal adhesion may play a role in angiogenesis. CONCLUSIONS: Our results indicated the existence of changes related to cell-matrix interactions, which may contribute to the pathological remodeling that was already underway one week after induction of experimental diabetes.

High fat diet induces central obesity, insulin resistance and microvascular dysfunction in hamsters.

Microvascular dysfunction is an early finding in obesity possibly related to co-morbidities like diabetes and hypertension. Therefore we have investigated changes on microvascular function, body composition, glucose and insulin tolerance tests (GTT and ITT) on male hamsters fed either with high fat (HFD, n=20) or standard (Control, n=21) diet during 16 weeks. Total body fat and protein content were determined by carcass analysis, aorta eNOS and iNOS expression by immunoblotting assay and mean blood pressure (MAP) and heart rate (HR) by an arterial catheter. Microvascular reactivity in response to acetylcholine and sodium nitroprusside, functional capillary density (FCD), capillary recruitment induced by a hyperinsulinemic status and macromolecular permeability after 30 min ischemia was assessed on either cheek pouch or cremaster muscle preparations. Compared to Control, HFD animals have shown increased visceral fat (6.0 ± 0.8 vs. 13.8 ± 0.6g/100g BW), impaired endothelial dependent vasodilatation, decreased FCD (11.3 ± 1.3 vs. 6.8 ± 1.2/field) and capillary recruitment during hyperinsulinemia and increased macromolecular permeability after ischemia/reperfusion (86.4 ± 5.2 vs.105.2 ± 5.1 leaks/cm(2)), iNOS expression and insulin resistance. MAP, HR, endothelial independent vasodilatation and eNOS expression were not different between groups. Our results have shown that HFD elicits an increase on visceral fat deposition, microvascular dysfunction and insulin resistance in hamsters.

Vimentin and laminin are altered on cheek pouch microvessels of streptozotocin-induced diabetic hamsters

OBJECTIVE: Normal endothelial cells respond to shear stress by elongating and aligning in the direction of fluid flow. Hyperglycemia impairs this response and contributes to microvascular complications, which result in deleterious effects to the endothelium. This work aimed to evaluate cheek pouch microvessel morphological characteristics, reactivity, permeability, and expression of cytoskeleton and extracellular matrix components in hamsters after the induction of diabetes with streptozotocin. METHODS: Syrian golden hamsters (90-130 g) were injected with streptozotocin (50 mg/kg, i.p.) or vehicle either 6 (the diabetes mellitus 6 group) or 15 (the diabetes mellitus 15 group) days before the experiment. Vascular dimensions and density per area of vessels were determined by morphometric and stereological measurements. Changes in blood flow were measured in response to acetylcholine, and plasma extravasation was measured by the number of leakage sites. Actin, talin, α-smooth muscle actin, vimentin, type IV collagen, and laminin were detected by immunohistochemistry and assessed through a semiquantitative scoring system. RESULTS: There were no major alterations in the lumen, wall diameters, or densities of the examined vessels. Likewise, vascular reactivity and permeability were not altered by diabetes. The arterioles demonstrated increased immunoreactivity to vimentin and laminin in the diabetes mellitus 6 and diabetes mellitus 15 groups. DISCUSSION: Antibodies against laminin and vimentin inhibit branching morphogenesis in vitro. Therefore, laminin and vimentin participating in the structure of the focal adhesion may play a role in angiogenesis. CONCLUSIONS: Our results indicated the existence of changes related to cell-matrix interactions, which may contribute to the pathological remodeling that was already underway one week after induction of experimental diabetes.

Waist circumference leads to prolonged microvascular reactive hyperemia response in young overweight/obese women.

OBJECTIVES: Previous data in our laboratory have shown microvascular dysfunction in normoglycaemic subjects with metabolic syndrome (MS). In a step further, we have investigated which clinical parameters related or not to MS would elicit microvascular dysfunction and the need of diagnosing MS for the establishment of microcirculatory impairment in overweight/obese women. METHODS: Nineteen lean [23.6±3.1years, body mass index (BMI) 21.9±1.8kg/m(2)] and 59 overweight/obese [24.6±3.7years; BMI 34.4±5.9kg/m(2)] sedentary non-smoking women, divided in overweight/obese without (MS negative, n=36) and obese with MS (MS positive, n=23) were evaluated. Blood biochemistry, HOMA-IR index and anthropometric variables were determined. Morphological (capillary diameters) and functional [functional capillary density, red blood cell velocity (RBCV) at baseline and peak and time (TRBCV(max)) to reach it during post-occlusive reactive hyperemia after 1min ischemia] microcirculatory variables were examined by nailfold videocapillaroscopy. RESULTS: Compared to controls, overweight/obese MS negative and obese MS positive presented longer TRBCV(max); the presence of two MS components was sufficient to prolong it and the MS diagnosis did not add any significant impairment to the microcirculation. Among clinical parameters investigated, a direct relationship between TRBCV(max) and waist circumference and insulin concentrations was found. CONCLUSION: Our results have shown that microvascular dysfunction is independent of metabolic syndrome diagnosis and could be predicted by the waist circumference on young overweight/obese women, reinforcing the relationship between obesity-related microvascular/metabolic disturbances.

N-tert-butyl and N-methyl nitrones derived from aromatic aldehydes inhibit macromolecular permeability increase induced by ischemia/reperfusion in hamsters.

N-alquil nitrones 1c and 3-6 were prepared from aromatic aldehydes and N-tert-butylhydroxylamine or N-methylhydroxylamine in good yields and soft conditions. Their protective effect against microvascular damages caused by ischemia/reperfusion in 'hamster cheek pouch' assay was investigated and compare with that observed for nitrones 1a,b and 2, previously studied. Nitrones 3b, 4b and 4c were the most active ones in inhibiting macromolecular permeability increase induced by ischemia/reperfusion when administered by gavage and intravenous, while 3a and 4a were active only after intravenous administration. N-tert-butylhydroxylamine and Nt-methylhydroxylamine, products of the hydrolysis of these nitrones, were weakly active when administered by gavage or intravenous. Nitrone (4a) was the most potent in inhibiting macromolecular permeability increase induced by histamine. In this case, N-tert-butylhydroxylamine was as active as 4a. The lypophylicity in nitrones, specially in N-methyl nitrones, play an important role on the protective action when compounds were administered by gavage.

Alpha-phenyl-N-tert-butyl nitrone (PBN) derivatives: synthesis and protective action against microvascular damages induced by ischemia/reperfusion.

Nitrones 4-7, structurally related to PBN (1), were prepared by reaction of the corresponding aromatic aldehydes with N-tert-butyl hydroxylamine. The protective effects of these nitrones against microvascular damages in ischemia/reperfusion in the 'hamster cheek pouch' assay were studied and 1, as well as 4a, 4b, and 7 (derived from piperonal, O-benzyl vanillin, and furfural, respectively), showed to be more active than shark cartilage or alpha-tocopherol. No correlation was found between the protective effect of these nitrones and their logP (partition coefficient) or their capacity to trap (*)OH and (*)CH(3) radicals.

Longchain n-3 polyunsaturated fatty acids and microvascular reactivity: observation in the hamster cheek pouch.

Previous experiments in our laboratory, using the hamster cheek pouch microcirculation, have shown that precapillary vessels exhibit spontaneous rhythmic luminal variations, termed vasomotion, a myogenic activity sustained by a balance between membrane currents among which polarizing K(+) currents play an important role. In these microvessels, endothelium-derived relaxing factors (EDRFs) seem to regulate arteriolar diameter [via nitric oxide (NO) and cyclic GMP] and vasomotion [probably via endothelium-derived hyperpolarizing factor (EDHF)]. Fish or fish oil diet can decrease the risk of cardiovascular diseases, probably by modifying the conductance of selective ion channels, such as K(+) and/or Ca(++), and/or increasing the production of vasodilators, such as NO. To investigate its effect on microvascular reactivity, using the same preparation and an intravital microscope coupled to a closed circuit TV system, male hamsters were treated for 14 days, twice a day, with 0.4 mL/100 g body weight with fish or olive oil. An attempt was also undertaken to record in arterioles, in vivo, the membrane potential of smooth muscle cells during their vasomotor activity combining conventional microelectrode and intravital microscopy techniques. The effects of topical application of two vasodilators, acetylcholine [endothelium-dependent one, NO release and membrane hyperpolarization via Ca(++)-activated K(+) channels (K(Ca))] and sodium nitroprusside (endothelium-independent, NO donor and no change on membrane potential) and two vasoconstrictors which elicited membrane depolarization via Ca(++) channels, phenylephrine (alpha(1)-adrenergic receptor agonist) and serotonin (5-hydroxi-tryptamine) on mean internal diameter of arterioles and venules, arteriolar blood flows, spontaneous arteriolar vasomotion frequency and amplitude and functional capillary density (FCD, number of capillaries with flowing red blood cells per unit area of tissue) were determined. Anesthesia was induced by sodium pentobarbital (i.p.) and maintained with alpha-chloralose through the femoral vein. In the presence of vasomotion, the membrane potentials are slowly oscillating by about 20 mV around values of approximately -50 mV in perfect synchrony with vasomotor movements and depolarizing phases coincide with vasoconstrictions while polarizing ones with vasodilatations. Comparing all parameters, in control conditions, only the spontaneous vasomotion frequency was significantly higher (2.37 times higher) on the group treated with fish oil and persisted as such throughout all experiments. With topical application of the drugs mentioned above, the group treated with fish oil showed, for each drug concentration, a balance towards vasodilatation with consequent increase on arteriolar blood flow and on FCD, compared with the olive oil treated one. No significant changes on mean arterial pressure, spontaneous arteriolar vasomotion amplitude or venular diameter could be detected in the two groups. Our results support the concept that, in the hamster cheek pouch microcirculation, fish oil supplementation activates K(+) channels which act as the EDHF and might also increase the production of vasodilators, probably NO.

Micronization enhances the protective effect of purified flavonoid fraction against postischaemic microvascular injury in the hamster cheek pouch.

1. The present study was designed to evaluate the effect of micronization on the protective effect of the purified flavonoid fraction (MPFF) on increases in macromolecular permeability induced by ischaemia-reperfusion in the hamster cheek pouch microcirculation. 2. Male hamsters (Mesocricetus auratus) were treated orally, twice a day, with vehicle (lactose), MPFF and non-micronized purified flavonoid fraction (PFF) at 5, 20, 80 and 320 mg/kg per day for 10 consecutive days. On the 11th day, cheek pouches of anaesthetized animals were prepared for intravital microscopy. 3. Local ischaemia was obtained by clamping the neck of the everted pouch and the increase in microvascular permeability was quantified as leakage (leaks) of intravenously injected fluorescein isothiocyanate-labelled dextran (FITC-dextran 150; MW = 150 000). 4. Reperfusion, after 30 min ischaemia, resulted in an immediate but reversible increase in post-capillary leakage. The MPFF induced a significant dose-related reduction in the increased permeability, with 83.4% inhibition compared with control at 320 mg/kg per day (19.2 +/- 1.9 vs 115.7 +/- 4.1 leaks/cm2; P < 0.0001). Non-micronized PFF was significantly less effective: only 47.9% inhibition compared with control was observed at 320 mg/kg per day (60.3 +/- 1.0 vs 115.7 +/- 4.1 leaks/cm2; P < 0.0001) and there was no dose-effect relationship. 5. In conclusion, micronization significantly enhances the protective effects of the purified flavonoid fraction on reperfusion injury in the hamster cheek pouch. This improvement is likely to be related to the better absorption of the micronized formulation, which could explain the superior clinical efficacy shown in previous studies.

Effects of sulfonylureas on K(ATP) channel-dependent vasodilation.

INTRODUCTION: Sulfonylureas are widely prescribed for the treatment of type 2 diabetes. Their therapeutic efficacy resides in the ability to bind to sulfonylurea receptors (SURs) present on the beta-cell plasma membrane, to close the ATP-regulated potassium (K(ATP)) channel, and thereby to enhance glucose-stimulated insulin secretion. These receptors are also found in a wide variety of extra-pancreatic tissues such as brain, peripheral nerves, heart, and vascular smooth muscle where they contribute to the regulation of the vascular tone. OBJECTIVE: The objective of the present study was to determine the potency of three sulfonylureas, glibenclamide, gliclazide, and glimepiride, in antagonizing the vasorelaxant action of diazoxide, an ATP-regulated K(+) channel (K(ATP)) opener, in vivo, using the hamster cheek pouch preparation and evaluating the changes in mean internal diameter and blood flow of arterioles and venules. MATERIAL AND METHODS: Cheek pouches of anesthetized male hamsters superfused with a HEPES-supported HCO(3)(-)-buffered saline solution were placed under an intravital microscope coupled to a closed-circuit TV system. All substances were applied topically. MEASUREMENTS: Mean arteriolar and venular internal diameters using an image shearing device, red blood cell (RBC) velocity by the dual-slit photometric technique and microvessel volume flow was calculated from diameters and RBC velocities. RESULTS: The numbers are given in order, first diameter and then flow, always for the highest concentration of diazoxide tested, by itself or in combination with a given sulfonylurea: (1) diazoxide, used in doses of 0.01, 1, and 100 microM, elicited a dose-dependent dilation and flow increase in arterioles [increase of 52.1% (P<.01) and 41.2% (P<.01)] and venules [37.9% (P<.05) and 57.6% (P<.01)]; (2) glibenclamide (0.81 microM)+diazoxide 29.3% (P=.172) and 25.0% (P=.064) for arterioles and 8% (P=.654) and 3.7% (P=.769) for venules; (3) gliclazide (12 microM)+diazoxide 51.0% (P<.01) and 46.7% (P<.01) for arterioles and 59.0% (P<.01) and 45.2% (P<.01) for venules; (4) glimepiride (0.82 microM)+diazoxide 22.8% (P=.228) and 12.5% (P=.305) for arterioles and 15.6% (P=.415) and 16.0% (P=.291) for venules. CONCLUSION: These results suggest that, in contrast to glibenclamide and glimepiride, therapeutic concentrations of gliclazide produce no cross-reactivity with smooth muscle cell K(ATP) channels in the microvessels of the hamster cheek pouch. Previous studies have confirmed these results in isolated aortic rings of rats and guinea pigs.