Role of neuronal and inducible nitric oxide synthases in the guinea pig ileum myenteric plexus during in vitro ischemia and reperfusion.

BACKGROUND: Intestinal ischemia and reperfusion (I/R) injury leads to abnormalities in motility, namely delay of transit, caused by damage to myenteric neurons. Alterations of the nitrergic transmission may occur in these conditions. This study investigated whether an in vitro I/R injury may affect nitric oxide (NO) production from the myenteric plexus of the guinea pig ileum and which NO synthase (NOS) isoform is involved. METHODS: The distribution of the neuronal (n) and inducible (i) NOS was determined by immunohistochemistry during 60 min of glucose/oxygen deprivation (in vitro ischemia) followed by 60 min of reperfusion. The protein and mRNA levels of nNOS and iNOS were investigated by Western-immunoblotting and real time RT-PCR, respectively. NO levels were quantified as nitrite/nitrate. KEY RESULTS: After in vitro I/R the proportion of nNOS-expressing neurons and protein levels remained unchanged. nNOS mRNA levels increased 60 min after inducing ischemia and in the following 5 min of reperfusion. iNOS-immunoreactive neurons, protein and mRNA levels were up-regulated during the whole I/R period. A significant increase of nitrite/nitrate levels was observed in the first 5 min after inducing I/R and was significantly reduced by N(ω) -propyl-l-arginine and 1400 W, selective inhibitors of nNOS and iNOS, respectively. CONCLUSIONS & INFERENCES: Our data demonstrate that both iNOS and nNOS represent sources for NO overproduction in ileal myenteric plexus during I/R, although iNOS undergoes more consistent changes suggesting a more relevant role for this isoform in the alterations occurring in myenteric neurons following I/R.

3D reconstruction of the crural and thoracolumbar fasciae.

PURPOSE: To create computerized three-dimensional models of the crural fascia and of the superficial layer of the thoracolumbar fascia. METHODS: Serial sections of these two fasciae, stained with Azan-Mallory, van Gieson and anti-S100 antibody stains, were recorded. The resulting images were merged (Image Zone 5.0 software) and aligned (MatLab Image Processing Toolkit). Color thresholding was applied to identify the structures of interest. 3D models were obtained with Tcl/Tk scripts and Paraview 3.2.1 software. From these models, the morphometric features of these fasciae were evaluated with ImageJ. RESULTS: In the crural fascia, collagen fibers represent less than 20% of the total volume, arranged in three distinct sub-layers (mean thickness, 115 µm), separated by a layer of loose connective tissue (mean thickness, 43 µm). Inside a single sub-layer, all the fibers are parallel, whereas the angle between the fibers of adjacent layers is about 78°. Elastic fibers are less than 1%. Nervous fibers are mostly concentrated in the middle layer. The superficial layer of the thoracolumbar fascia is also formed of three thinner sub-layers, but only the superficial one is similar to the crural fascia sub-layers, the intermediate one is similar to a flat tendon, and the deep one is formed of loose connective tissue. Only the superficial sub-layer has rich innervation and a few elastic fibers. DISCUSSION: Computerized three-dimensional models provide a detailed representation of the fascial structure, for better understanding of the interactions among the different components. This is a fundamental step in understanding the mechanical behavior of the fasciae and their role in pathology.

Protein kinase C modulates NMDA receptors in the myenteric plexus of the guinea pig ileum during in vitro ischemia and reperfusion.

BACKGROUND: Ischemic episodes lead to profound functional and structural alterations of the gastrointestinal tract which may contribute to disorders of intestinal motility. Enhancement of glutamate overflow and the consequent activation of NMDA (N-methyl-D-aspartate) receptors may participate to such changes by modulating different enteric neurotransmitter systems, including cholinergic motor pathways. METHODS: The molecular mechanism/s underlying activation of NMDA receptors in the guinea pig ileum were investigated after glucose/oxygen deprivation (in vitro ischemia) and during reperfusion. KEY RESULTS: The number of ileal myenteric neurons positive for NR1, the functional subunit of NMDA receptors, and its mRNA levels were unchanged after in vitro ischemia/reperfusion. In these conditions, the protein levels of NR1, and of its phosphorylated form by protein kinase C (PKC), significantly increased in myenteric neurons, whereas, the levels of NR1 phosphorylated by protein kinase A (PKA) did not change, with respect to control values. Spontaneous glutamate overflow increased during in vitro ischemia/reperfusion. In these conditions, the NMDA receptor antagonists, D(-)-2-amino-5-phosphonopentanoic acid [(D)-AP5] (10 µmol L(-1)) and 5,7-dichlorokynurenic acid (5,7-diClKyn acid) (10 µmol L(-1)) and the PKC antagonist, chelerythrine (1 µmol L(-1)), but not the PKA antagonist, H-89 (1 µmol L(-1)), were able to significantly depress the increased glutamate efflux. CONCLUSIONS & INFERENCES: The present data suggest that in the guinea pig ileum during in vitro ischemia/reperfusion, NR1 protein levels increase. Such event may rely upon posttranscriptional events involving NR1 phosphorylation by PKC. Increased NR1 levels may, at least in part, explain the ability of NMDA receptors to modulate a positive feedback on ischemia/reperfusion-induced glutamate overflow.

Differences and similarities between arrhythmogenic right ventricular cardiomyopathy and athlete's heart adaptations.

BACKGROUND: Regular intensive physical activity is associated with non-pathological changes in cardiac morphology. Differential diagnosis with arrhythmogenic right ventricular cardiomyopathy (ARVC) constitutes a frequent problem, especially in athletes showing ventricular arrhythmias with left bundle branch block morphology. AIM OF THE STUDY: To assess the different clinical and non-invasive instrumental features of the subjects affected by ARVC and by athletes. METHODS: Three groups of subjects (40 ARVC patients, 40 athletes and 40 controls, mean age 27 (9) years) were examined with family and personal history, physical examination, 12-lead ECG, 24-h ECG, signal-averaged ECG and 2-D and Doppler echocardiography. RESULTS: 12-Lead ECG was abnormal in 62% of ARVC patients versus 7.5% of athletes and 2.5% of controls (p<0.0001). Ventricular arrhythmias and late potentials were present in 70% and 55% of ARVC subjects, respectively (vs 5% of athletes and 7.5% of controls, p<0.0001). Left ventricular parietal wall thickness and left ventricular end-diastolic diameters were significantly higher in athletes. Both athletes and ARVC patients presented a right ventricular (RV) enlargement compared with controls. Moreover, RV outflow tract, measured on parasternal long axis and at the level of aortic root, was significantly larger in ARVC patients (33.6 (4.7) mm vs 29.1 (3.4) mm and 35.6 (6.8) mm vs 30.1 (2.9) mm; p<0.0001), and RV fractional shortening and ejection fraction were significantly lower in ARVC patients compared with athletes (40 (7.9)% vs 44 (10)%; p=0.05 and 52.9 (8)% vs 59.9 (4.5)%; p<0.0001). A thickened moderator band was found to be present in similar percentage in ARVC patients and athletes. CONCLUSIONS: An accurate clinical and instrumental non-invasive evaluation including echocardiography as imaging technique allows to distinguish RV alterations typical of ARVC from those detected in athletes as a consequence of intensive physical activity.

Involvement of Ca2+-dependent PKCs in the adaptive changes of mu-opioid pathways to sympathetic denervation in the guinea pig colon.

In the guinea pig colon, chronic sympathetic denervation entails supersensitivity to inhibitory mu-opioid agents modulating cholinergic neurons. The mechanism underlying such adaptive change has not yet been unravelled, although protein kinase C (PKC) may be involved. A previous study indirectly demonstrated that activation of mu-opioid receptors on myenteric neurons facilitates PKC activity. Such coupling may counteract the inhibitory action of mu-opioid agents on acetylcholine overflow, since PKC, per se, increases this parameter. After chronic sympathetic denervation such restraint abates, representing a possible mechanism for development of supersensitivity to mu-opioid agents. In the present study, this hypothesis was further investigated. After chronic sympathetic denervation, Ca(2+)-dependent PKC activity was reduced in colonic myenteric plexus synaptosomes. The mu-opioid agent, DAMGO, increased Ca(2+)-dependent PKC activity in synaptosomes obtained from normal, but not from denervated animals. In myenteric synaptosomes obtained from this experimental group, protein levels of Ca(2+)-dependent PKC isoforms betaI, betaII and gamma decreased, whereas alpha levels increased. In whole-mount preparations, the four Ca(2+)-dependent PKC isoforms co-localized with mu-opioid receptors on subpopulations of colonic myenteric neurons. The percentage of neurons staining for PKCbetaII, as well as the number of mu-opioid receptor-positive neurons staining for PKCbetaII, decreased in denervated preparations. The same parameters related to PKCalpha, betaI or gamma remained unchanged. Overall, the present data strengthen the concept that mu-opioid receptors located on myenteric neurons are coupled to Ca(2+)-dependent PKCs. After chronic sympathetic denervation, a reduced efficiency of this coupling may predominantly involve PKCbetaII, although also PKCbetaI and gamma, but not PKCalpha, may be implicated.

Thyroid hormone and thyrotropin regulate intracellular free calcium concentrations in human polymorphonuclear leukocytes: in vivo and in vitro studies.

Intracellular free calcium concentrations (Ca++i) were studied in polymorphonuclear leukocytes (PMNs) from 13 athyreotic patients who had been previously treated by total thyroidectomy and radioiodine therapy for differentiated thyroid carcinoma, and from age- and sex-matched euthyroid healthy controls. Patients were studied twice, when hypothyroid (visit 1) and after restoration of euthyroidism by L-T4 TSH-suppressive therapy (visit 2). PMNs from patients at visit 1 had significantly lower resting (Ca++)i levels compared to both visit 2 and controls. Values at visit 2 did not differ from those of the controls. Stimulus-induced (Ca++)i rise was also significantly blunted at visit 1 and normalized at visit 2, possibly through a differential contribution of distinct intracellular Ca++ stores, as suggested by the response pattern to the chemotactic agent, N-formyl-Met-Leu-Phe (fMLP), to the selective SERCA pump inhibitor, thapsigargine, and to the mitochondrial uncoupler, carbonyl cyanide p-trifluoromethoxyphenyl-hydrazone (FCCP). In vitro treatment of PMNs from healthy subjects with high TSH concentrations impaired intracellular Ca++ store function. Both resting (Ca++)i levels and fMLP-induced (Ca++)i rise increased in the presence either of low-concentration TSH or of T4, but effects of TSH and T4 were not additive. T3, rT3, and TRIAC had no effect. In conclusion, this study provides evidence for a direct relationship between thyroid status and (Ca++)i homeostasis in human PMNs, mainly related to direct actions of TSH and T4 on these cells.

Modifications of apoptosis-related protein levels in lymphocytes of patients with Parkinson's disease. The effect of dopaminergic treatment.

In this study, we investigated whether changes in the regulatory mechanisms of apoptosis and oxidative stress may be detected, peripherally, in patients with Parkinson's disease (PD). For this purpose, we measured caspase-3 activity, Bcl-2 concentrations, peripheral benzodiazepine receptor (PBR) expression and Cu/Zn superoxide dismutase (SOD) concentrations in lymphocytes of untreated PD patients, patients treated only with L-Dopa or with L-Dopa and dopamine agonists and healthy volunteers. Caspase-3 activity was significantly increased in all PD patient groups. Patients treated with L-Dopa and dopamine agonists showed the lowest values of Bcl-2, coupled with the highest density of PBRs, while increased levels of Cu/Zn SOD were found in the group under monotherapy with L-Dopa. We also found, in PD patients, clear, negative correlations between Bcl-2 levels and both duration and severity of the disease. Our findings point to the existence of changes in the regulatory mechanisms of apoptosis in PD patients -- observable outside the central nervous system -- which seem to be modulated by the pharmacological treatment with dopaminergic agents.

Triptans and gastric accommodation: pharmacological and therapeutic aspects.

In the past decade, several studies have reported a significant delay of gastric emptying induced by the anti-migraine agent sumatriptan (a 5-hydroxytryptamine (5-HT)1B/D receptor agonist) in healthy human beings. In patients with functional dyspepsia, sumatriptan improves gastric accommodation after food consumption and reduce perception of gastric distension, hence relieving epigastric symptoms. Recent studies have established that impaired accommodation after food consumption is a major patho-physiological mechanism in functional dyspepsia and restoration of accommodation is considered to be a potential therapeutic target. The precise site of action of sumatriptan in humans is at present unknown, although recent studies carried out using a canine model indicate that sumatriptan exerts its action on gastric accommodation through 5-HT1B receptors, since both GR127935 and SB216641 (respectively, non selective 5-HT1B/D and selective 5-HT1B receptor antagonists) fully antagonised the effects of sumatriptan. Gastric relaxation and enhanced accommodation to a distending stimulus seem to be a class effect of triptans, since it occurs not only with sumatriptan, but also with second-generation triptans (rizatriptan and naratriptan), at least in a canine model. In dyspeptic patients, administration of triptans would be able to restore gastric accommodation after a meal and to improve symptoms of early satiety, confirming the therapeutic potential of 5-HT1B/D receptor agonists in functional dyspepsia.

Effects of dopaminergic stimulation on peripheral markers of apoptosis: relevance to Parkinson's disease.

We investigated the effects of dopaminergic stimulation on anti-apoptotic protein Bcl-2, pro-apoptotic enzyme caspase- 3, and anti-oxidant/anti-apoptotic enzyme Cu/Zn superoxide dismutase (SOD) in human lymphocytes exposed to dopamine (DA). The same determinations were also carried out in parkinsonian patients treated with L-dopa. Caspase-3 activity and Cu/Zn SOD levels tended to increase when lymphocytes were exposed to low or intermediate doses of DA, while a decrease was observed, particularly in caspase-3 activity, with the higher DA dose. Bcl-2 levels were unaffected. In patients, we observed a negative correlation between Cu/Zn SOD levels and daily intake of L-dopa, which also tended to be negatively correlated with caspase-3 activity, but not with Bcl- 2. Our results show that dopaminergic stimulation is associated with complex changes in regulatory proteins of apoptosis.

Peripheral markers of apoptosis in Parkinson's disease: the effect of dopaminergic drugs.

In this study, we measured the lymphocyte levels of proteins involved in apoptosis regulation, such as Bcl-2, the peripheral benzodiazepine receptor (PBR), caspase-3, and Cu/Zn superoxide dismutase (Cu/Zn SOD), in patients with Parkinson's disease (PD), either untreated or under therapy with dopaminergic agents (l-Dopa alone or l-dopa + dopamine agonists) and in healthy volunteers. All PD groups showed increased activity of caspase-3, compared to controls, particularly those under treatment only with l-Dopa. In this latter group, the increase in caspase-3 activity was also paralleled by an increase in the concentration of Cu/Zn SOD. In addition, patients taking l-Dopa + dopamine agonists showed marked decrease in Bcl-2 levels and increased PBR expression, which seems in keeping with the hypothesis that PBR may be functionally related to Bcl-2. In conclusion, we found clear modifications in the levels of proteins involved in the control of apoptosis in lymphocytes of PD patients. These changes were disease related but also modulated by the pharmacological treatment, which confirms the potential role of apoptosis in PD pathogenesis and the modulatory influence of dopaminergic agents.

Effects of physical exercise on clinic and 24-hour ambulatory blood pressure in young subjects with mild hypertension.

BACKGROUND: The aim of the study was to assess the effect of physical activity on 24-hr ambulatory blood pressure (ABPM) and office blood pressure (BP) in 572 male subjects with borderline to mild hypertension from the HARVEST study. METHODS: Subjects were 18 to 45 years old with diastolic BP of 90-99 mmHg and/or systolic BP of 140-159 mmHg. They never took any anti-hypertensive therapy. All subjects underwent physical examination, office BP measurement and two 24-hr ambulatory BP monitorings performed three months apart. Subjects were classified as non exercisers, group 1 (n=331), mild exercisers, group 2 (n=192) and heavy exercisers, group 3 (n=49). During the three months of follow-up subjects maintained the same physical activity habits. There was no difference in smoking and alcohol consumption between the 3 groups. As the groups differed significantly in age and body mass index data were adjusted for these confounders. RESULTS: At baseline office and ambulatory systolic BP were similar in the 3 groups, while diastolic BP was proportional to the level of physical activity although the difference was significant only between the group of non-exercisers and mild exercisers. Heart rate (HR) was always inversely related to the intensity of exercise. After three months follow-up office systolic BP was similar among the three groups and diastolic BP slightly decreased in the exercisers (group 1 vs group 3 p=0.02, group 2 vs group 3 p=0.04). At ABPM the group of heavy exercisers showed a significant decrease in daytime systolic BP (135.4plus minus0.6 vs 134plus minus0.8 vs 132.2plus minus1.6 mmHg; group 1 vs group 3 p<0.05) and the difference between systolic ambulatory BP at the 3rd month and at baseline, showed an additional significant decrease according to exercise intensity (24-hr systolic BP group 1 vs group 3 p=0.001, group 2 vs group 3 p=0.004; daytime systolic BP group 1 vs group 3 p=0.0009, group 2 vs group 3 p=0.004; night-time systolic BP group 1 vs group 3 p=0.02, group 2 vs group 3 p=0.02). No changes in ambulatory diastolic BP were observed. CONCLUSIONS: In conclusion, physical activity has a positive effect in lowering BP attenuating the risk of hypertension in young subjects with borderline hypertension. The anti-hypertensive effect of physical activity persisted after three months and the group of exercisers had an additional reduction in systolic BP detected by ABPM. To obtain accurate information on chronic levels of arterial pressure over time 24-hr ambulatory BP should be preferred to traditional casual readings.

P2 receptors in the murine gastrointestinal tract.

The actions of adenosine, adenosine 5'-triphosphate (ATP), 2-methylthio adenosine diphosphate ADP (2-MeSADP), 2-methylthio ATP (2-MeSATP), alpha,beta-methylene ATP (alpha,beta-meATP) and uridine triphosphate (UTP) on isolated segments of mouse stomach (fundus), duodenum, ileum and colon were investigated. The localization of P2Y(1), P2Y(2), P2Y(4), P2X(1) and P2X(2) receptors and neuronal nitric oxide synthase (NOS) were examined immunohistochemically, and P2Y(1) mRNA was examined with in situ hybridization. The order of potency for relaxation of longitudinal muscle of all regions was: 2-MeSADP>/=2-MeSATP>alpha,beta-meATP>ATP=UTP=adenosine. This is suggestive of P2Y(1)-mediated relaxation and perhaps a further P2Y receptor subtype sensitive to alpha,beta-meATP. As ATP and UTP are equipotent, the presence of a P2Y(2) receptor is indicated. ATP responses were inhibited by the P2Y(1)-selective antagonist MRS 2179, and suramin. P2Y(1) receptors were visualized immunohistochemically in the smooth muscle of the ileum and in a subpopulation for myenteric neurones, which also stained for NOS. P2Y(1) mRNA was localized in neurones in both myenteric and submucosal ganglia in the ileum. Taken together, these results suggest that ATP was acting on non-adrenergic, non-cholinergic inhibitory neurons, which release both nitric oxide (NO) and ATP. Reduced relaxations to 2-MeSADP by tetrodotoxin and N(omega)-nitro-L-arginine methyl ester, are consistent with this possibility. Adenosine acts via P1 receptors to relax smooth muscle of the mouse gut. Segments of mouse colon (in contrast to the stomach and small intestine) were contracted by nucleotides with the potency order: 2-MeSATP>alpha,betameATP>ATP; the contractions showed no desensitization and were antagonized by suramin and PPADS, consistent with responses mediated by P2X(2) receptors. Immunoreactivity to P2X(2) receptors was demonstrated on both longitudinal and circular muscle of the colon, but not in the other regions of the gut, except for a small subpopulation of myenteric neurones. In summary, neuronal P2Y(1) receptors appear to mediate relaxation, largely through NO in all regions of the mouse gut, and to a lesser extent by P2Y(1), P2Y(2) and a novel P2Y receptor subtype responsive to alpha,beta-meATP in smooth muscle, while P2X(2) receptors mediate contraction of colonic smooth muscle.

Increased reporting of adverse reactions to ACE inhibitors associated with limitations to drug reimbursement for angiotensin-II receptor antagonists.

BACKGROUND AND AIM: From February 1998 to September 1999, the Italian Ministry of Health limited angiotensin-II type-1 (AT1) receptor antagonist reimbursement only to patients who necessitated discontinuation of angiotensin converting enzyme (ACE) inhibitor treatment due to cough or angioedema. We assessed the consequences of this decision on the reporting of ACE inhibitor-associated adverse drug reactions (ADRs). METHODS: ACE inhibitor-associated ADRs reported to the national pharmacovigilance system in 1997-2000 in the district of Varese (northern Italy, more than 820,000 inhabitants) were retrieved and analysed. The dispensation of ACE inhibitors and AT, receptor antagonists reimbursed by the National Health System was also examined. RESULTS: There were 228 reports of ACE inhibitor-associated ADRs, and cough was the ADR reported in 93.4% of cases. There were no reports of cough in 1997, 50 in 1998, 156 in 1999 and 7 in 2000. In 1998-1999, the dispensation of ACE inhibitors showed little variation, while that of AT1 receptor antagonists grew about twofold. CONCLUSIONS: There was a clear correlation between ACE inhibitor-associated ADR reporting and limitation to AT1 receptor antagonist reimbursement status. Drug reimbursement policies should thus be added to the list of factors that may bias ADR reporting, and health authorities should be aware of this potential bias when defining specific measures to regulate prescription and use of new drugs.

Early signs of cardiac involvement in hypertension.

BACKGROUND: Whether abnormalities of diastolic function are the earliest cardiac change in hypertension is still a matter for dispute. The aim of this study was to assess whether left ventricular diastolic dysfunction is an early sign of cardiac involvement in hypertension. METHODS: In 578 young patients with stage I hypertension from the Hypertension and Ambulatory Recording Venetia Study (HARVEST) and 101 normotensive control patients echocardiographic Doppler examination and ambulatory blood pressure monitoring were performed. RESULTS: Left ventricular mass, wall thickness, and relative wall thickness, adjusted for confounders, were greater in the hypertensive than in the normotensive patients (all P <.0001). After adjustment for confounders, the A-wave peak velocity was higher in the hypertensive patients (51.5 +/- 11.5 vs 43.4 +/- 8 cm/s, P <.001) as were A-wave velocity time integral (5.6 +/- 1.7 vs 4.6 +/- 1.3 cm, P =.01), total area (16.9 +/- 4.4 vs 15.6 +/- 3.1 cm, P =.04), and E-wave peak velocity (69.9 +/- 15.2 vs 67.5 +/- 13.3 cm/s, P =.03). All indexes of diastolic function were similar in the hypertensive subjects subdivided according to whether they had "white-coat" or sustained hypertension. Among the hypertensive subjects, age and heart rate were the strongest predictors of diastolic indexes, whereas ambulatory blood pressure explained only a marginal part of the E/A ratio, A-wave peak velocity, and the first one third total area ratio (P =.04, P =.02, and P =.05, respectively). Left ventricular mass and wall thickness were not associated with any Doppler index. When a clustering of diastolic indexes (E/A wave ratio, deceleration time, first one third of diastole, and peak E-wave-velocity) was used to identify subjects with diastolic dysfunction, no significant differences in either clinic or ambulatory blood pressure were observed between the group with diastolic dysfunction and the group with normal function. CONCLUSIONS: We conclude that the earliest signs of cardiac involvement in hypertension are left ventricular structural abnormalities. Left ventricular diastolic function is only marginally affected, even when multiple parameters of left ventricular filling are taken into account.

Left ventricular contractile performance in the early stage of hypertension in humans.

The aim of the present study was to assess how cardiac structural changes contribute to increasing left ventricular pump function during exercise in subjects with mild hypertension. In 23 young male subjects with mild hypertension and 12 male normotensive control subjects, left ventricular function was measured echocardiographically using the fractional shortening/ meridional stress relationship at rest and during longlasting exercise at the anaerobic threshold. Mean exercise duration and intensity were 61 (SEM 1.7) min and 71.3 (SEM 2.5)% VO2max (maximal oxygen uptake), respectively, in the hypertensive subjects, and 63 (SEM 1.5) min and 75.7 (SEM 2.2)% VO2max, respectively, in the normotensive subjects (all differences= n.s.). Left ventricular fractional shortening was measured both at the endocardium and at the midwall. In the hypertensive subjects the endocardial fractional shortening, predicted on the basis of the shortening/stress relationship in the normotensive controls, overestimated midwall fractional shortening throughout rest (P=0.04) and exercise (P=0.004). To study how an increase in left ventricular wall thickness contributed to increasing ejection performance during exercise, the hypertensive subjects were divided according to whether their relative wall thickness was less than 0.35 or equal to or greater than 0.35. Subjects with relative wall thicknesses equal to or greater than 0.35 had a depressed myocardial contractility at rest (P=0.0001). During exercise they increased their stroke volume and cardiac output adequately through an increase in ejection performance, while myocardial contractility remained subnormal (P < 0.0001). In conclusion, the present results indicated that in mildly hypertensive subjects an increased left ventricular wall thickness is crucial in preserving left ventricular pump function during exercise.

Gastric motor effects of triptans: open questions and future perspectives.

Sumatriptan is a 5-HT1B/D receptor agonist of documented efficacy in relieving migraine and associated symptoms such as nausea and vomiting. In the past decade, several studies reported an important delay of gastric emptying induced by sumatriptan in healthy humans. The impact of this gastric motor effect of sumatriptan in migraineurs is difficult to predict: a further delay in gastric emptying could be detrimental (i.e. increased nausea and epigastric symptoms) in patients already having delayed gastric emptying. However, in patients with functional dyspepsia, sumatriptan is also reported to improve gastric accommodation to a meal and reduce perception of gastric distention, hence relieving epigastric symptoms. Thus, reduced visceral perception could be a mechanism involved in reducing nausea during a migraine attack. Paradoxically, sumatriptan is reported both to relieve the nausea of a migraine attack and to have nausea as a side effect. Although careful analysis of the time of onset of nausea may offer a clue as to the origin of this symptom, available data do not support definite conclusions, all the more so because the gastric motor effect of second-generation triptans are still unexplored. Taken together, the available evidence warrants further studies to clarify the following issues: first, the mechanism responsible for the gastric motor effect of sumatriptan [receptor subtype(s) involved; central vs peripheral mechanism]; secondly, the effects on gastric motility/visceral sensitivity of second-generation triptans (which are 5-HT1B/D receptor agonists) and more recent selective 5-HT1D receptor agonists (proposed as investigational antimigraine agents with less potential to induce coronary vasoconstriction through 5-HT1B receptors); finally, the possible use of drugs improving gastric accommodation to a meal in the management of those dyspeptic patients with impaired fundic relaxation/altered visceral sensitivity.

Diazepam stimulates migration and phagocytosis of human neutrophils: possible contribution of peripheral-type benzodiazepine receptors and intracellular calcium.

In isolated human neutrophils, diazepam (10 nmol/l to 10 micromol/l) concentration-dependently increased migration and phagocytosis. Diazepam-induced migration and phagocytosis were inhibited by the peripheral benzodiazepine receptor (PBR) antagonist PK11195 (10 micromol/l). The PBR agonist Ro5-4864 (10 nmol/l to 10 micromol/l) did not affect migration but slightly enhanced phagocytosis, while clonazepam, which binds to the central-type benzodiazepine receptors but has no affinity for PBRs, was ineffective on both parameters up to 10 micromol/l. Phagocytosis induced by diazepam or Ro5-4864 was inhibited by the Ca2+ channel blocker L-verapamil (10 micromol/l), which however did not affect the action of diazepam on migration. Competition binding experiments performed by fluorescent staining of PBRs showed that diazepam directly interacts with PBRs on human neutrophils. Both diazepam and Ro5-4864 (10 nmol/l to 10 micromol/l) induced a rise of intracellular free Ca2+ concentrations ([Ca2+]i), which was inhibited by PK11195 (10 micromol/l) and L-verapamil (10 micromol/l) and prevented by extracellular Ca2+ chelation with EGTA (5 mmol/l). In conclusion, experimental evidence indicates that in human neutrophils diazepam stimulates both migration and phagocytosis through activation of PBRs. Diazepam-induced [Ca2+]i changes depend on a PBR-operated, L-verapamil-sensitive increase in the plasma membrane permeability and subsequent extracellular Ca2+ entry, and contribute to diazepam-induced phagocytosis. On the contrary, the effect of diazepam on migration seems to occur through Ca2+ -independent mechanisms.

Intestinal motor stimulation by the 5-HT4 receptor agonist ML10302: differential involvement of tachykininergic pathways in the canine small bowel and colon.

5-Hydroxytryptamine (5-HT)4 receptor agonists stimulate gut motility through cholinergic pathways, although there are data suggesting that noncholinergic (tachykininergic) excitatory pathways may also be involved. Differences may exist between the small bowel and colon. Our aims were: (i) to compare the prokinetic effect exerted by the 5-HT4 receptor agonist ML10302 in the canine small bowel and colon in vivo; and (ii) to investigate the role of tachykininergic pathways in mediating this response. In fasting, conscious dogs, chronically fitted with electrodes and strain-gauge force transducers along the small bowel and colon, intravenous injection of ML10302 (35 microg kg-1) immediately stimulated spike activity and significantly increased propagated myoelectrical events at both intestinal levels. In the small bowel, the effects of ML10302 were unchanged by previous administration of the selective NK1 tachykinin receptor antagonist SR140333, the NK2 tachykinin receptor antagonist SR48968, or the NK3 tachykinin receptor antagonist SR142801. In the colon, all tachykinin receptor antagonists significantly inhibited stimulation of spike and mechanical activity by ML10302, without affecting ML10302-induced propagated myoelectrical events. Atropine (100 microg kg-1 i.v.) suppressed the stimulatory effect of ML10302 at both intestinal levels. In conclusion, the 5-HT4 receptor agonist ML10302 induced significant prokinesia both in the small bowel and colon through activation of cholinergic pathways. Tachykininergic pathways are not involved in the ML10302-induced prokinesia in the small bowel, but they play an important role in mediating the colonic motor response to ML10302.

G protein beta3 subunit gene 825T allele is associated with increased left ventricular mass in young subjects with mild hypertension.

BACKGROUND: A nucleotide substitution (C-->T) at position 825 of the gene GNB3 encoding the beta3 subunit of heterotrimeric G proteins is associated with alternative splicing and enhanced signal transduction. There is accumulating evidence from different populations that the 825T allele is associated with increased prevalence of hypertension, obesity, and left ventricular hypertrophy. However, it is unclear to what extent the 825T allele has a direct influence on left ventricular structure, independently of the effects of pressure and body mass index. Therefore we explored whether the GNB3 825T allele is associated with increased left ventricular mass index in a selected and homogeneous group of young, never treated, mild hypertensives. PROCEDURES: Young subjects (n = 207, aged 18 to 45 years) were genotyped at the GNB3 825 locus. In each patient, 24-h ambulatory blood pressure (BP) measurement and two-dimensional guided M-mode echocardiography combined with Doppler sonography were performed. RESULTS: The genotype distribution among patients was in Hardy-Weinberg equilibrium. Patients carrying the 825T allele had an increased left ventricular mass index (95.1 +/- 1.5 v 89.7 +/- 1.5 g/m2; P = .01) in comparison to those with CC genotype. The association between left ventricular mass index and 825T allele was independent of gender, age, BP, heart rate, alcohol intake, and physical activity. CONCLUSIONS: In young patients with mild hypertension without heart disease the 825T allele is associated with an increased left ventricular mass index. These hypothesis-generating data suggest that GNB3 825T allele may be considered as one genetic marker predisposing to an increase in left ventricular mass in hypertensives, and justifies larger studies.

Glutamate receptors of the AMPA type modulate neurotransmitter release and peristalsis in the guinea-pig isolated colon.

To assess the role of AMPA and kainate receptors in modulating neurotransmitter release from the myenteric plexus, the effect of alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) and kainic acid on endogenous acetylcholine (ACh) and noradrenaline (NA) overflow from the guinea-pig isolated colon was studied. AMPA inhibited spontaneous ACh overflow and increased electrically-evoked NA overflow. Kainic acid did not influence both ACh and NA overflow. AMPA-mediated effects on ACh and NA overflow were significantly reduced by the AMPA/kainate antagonist, 6-cyano-7-nitroquinoxaline-2,3-dione, CNQX. The inhibitory effect of AMPA on ACh overflow could be due, at least in part, to the AMPA-induced NA overflow as it was greatly reduced after adrenoceptor blockade and virtually abolished in sympathetically-denervated animals. The possible functional significance of these findings was studied by measuring the efficiency of the peristaltic reflex in the presence of the different agonists. The efficiency of peristalsis was enhanced by AMPA, whereas it was not modified by kainic acid. In conclusion, AMPA receptors, but not kainate receptors, may play a role in the modulation of ACh and NA release and of peristalsis in the guinea-pig colon.