Impact of APRF+ in Combination with Autogenous Fibroblasts on Release Growth Factors,Collagen, and Proliferation and Migration of Gingival Fibroblasts: An In Vitro Study

The present study aimed to compare the action of advanced platelet-rich fibrin (A-PRF+) alone with the action of A-PRF+ combined with autologous gingival fibroblasts. The components released from A-PRF+ conditioned with autogenous fibroblasts that were quantified in the study were fibroblast growth factor (FGF), vascular endothelial growth factor (VEGF), trans-forming growth factor-beta1 and 2 (TGFβ1 and TGFβ2), and soluble collagen. A-PRF+ combined with fibroblasts demonstrated significantly higher values of released VEGF at every time point and, after 7 days, significantly higher values of released TGFβ2. A viability test after 72 h showed a significant increase in proliferation fibroblasts after exposition to the factors released from A-PRF+ combined with fibroblasts. Similarly, the degree of wound closure after 48 h was significantly higher for the factors released from A-RRF+ alone and the factors released from A-RRF+ combined with fibroblasts. These results imply that platelet-rich fibrin (PRF) enhanced with fibroblasts can be an alternative method of connective tissue transplantation.     

Cytotoxic Potential of Denture Adhesives on Human Fibroblasts—In Vitro Study

(1) In recent years, there has been a significant increase in the availability of denture adhesives for stabilizing removable dentures. The aim of the present study was to assess the cytotoxicity of three denture adhesives on human fibroblasts. (2) Methods: Three denture adhesives were analyzed. Fibroblast cultures were established for the study and control groups in order to assess the incidence of necrosis and to evaluate the microscopic intracellular alterations induced. Following incubation with (study groups) or without adhesives (control group), trypan blue dye exclusion assay was used to determine the number of viable and/or dead cells. Microscopic specimens were stained with haematoxylin and eosin, scanned, digitally processed and then analyzed by a histopathologist. (3) Results: All three denture adhesives analyzed demonstrated various toxic effects in vitro on human fibroblast: quantitative evaluation—45.87–61.13% reduction of cell viability (p = 0.0001) and slight to moderate cytotoxicity in qualitative evaluation. (4) Conclusions: Denture adhesive creams demonstrated a toxic effect on human fibroblasts in vitro in quantitative and qualitative evaluation. In vivo observations are needed to find out if denture adhesives present a cytotoxic effect in patients.     

20-MHz Ultrasound for Measurements of Flow-Mediated Dilation and Shear Rate in the Radial Artery

A high-frequency scanning system consisting of a 20-MHz linear array transducer combined with a 20-MHz pulsed Doppler probe was introduced to evaluate the degree of radial artery flow-mediated dilation (FMD [%]) in two groups of patients after 5?min of controlled forearm ischemia followed by reactive hyperemia. In group I, comprising 27 healthy volunteers, FMD (mean?±?standard deviation) was 15.26?±?4.90% (95% confidence interval [CI]: 13.32%–17.20%); in group II, comprising 17 patients with chronic coronary artery disease, FMD was significantly less at 4.53?±?4.11% (95% CI: 2.42%–6.64%). Specifically, the ratio FMD/SR (mean?±?standard deviation), was equal to 5.36?×?10^?4?±?4.64?×?10^?4 (95% CI: 3.54?×?10^?4 to 7.18?×?10^?4) in group I and 1.38?×?10^?4?±?0.89?×?10^?4 (95% CI: 0.70?×?10^?4 to 2.06?×?10^?4) in group II. Statistically significant differences between the two groups were confirmed by a Wilcoxon–Mann–Whitney test for both FMD and FMD/SR (p?<0.01). Areas under receiver operating characteristic curves for FMD and FMD/SR were greater than 0.9. The results confirm the usefulness of the proposed measurements of radial artery FMD and SR in differentiation of normal patients from those with chronic coronary artery disease.     

Impaired coronary flow and left ventricular dysfunction after mechanical recanalization in acute myocardial infarction: role of neurohumoral activation?

Background: Reopening of the infarct-related coronary artery is the treatment of choice in the clinical setting of acute myocardial infarction. Nevertheless the removal of the total occlusion obtained either by thrombolysis or by primary angioplasty is followed by the ischemia/reperfusion sequelae. One of many proposed mechanisms playing a role in ischemia/reperfusion damage is a persistent increase in vasoconstrictor tone, which reduces cardiac function and impairs myocardial blood flow during primary percutaneous coronary intervention in acute myocardial infarction (PAMI). Methods: To investigate early neurohumoral changes during PAMI we enrolled 18 patients, who were collated to 13 patients with stable angina undergoing elective PTCA. To evaluate angiotensin II (AngII), endothelin-1 (ET-1), vasopressin (AVP), norepinephrine (NE), troponin T (TNT), creatinephosphate kinase (CPKM) and isoenzyme MB (CPKMB), we collected blood from the pulmonary artery before and immediately after the infarct-related artery (IRA; TIMI 0 → 2–3) or culprit lesion revascularization. Hemodynamic and angiographic LV-function parameters were compared to biochemical data. Corrected TIMI-frame count (CTFC) was used as an index of coronary blood flow and correlated to the biochemical measurements. Results: CTFC in the IRA correlated inversely (p = 0.03; r = −0.51) with left ventricular ejection fraction measured after 10 days, and positively (p = 0.03; r = 0.54) with the maximal amount of LDH released after onset of AMI. There was an abrupt and long lasting rise in ET-1 (+65 %; p < 0.001) and an instant short lasting increase in AVP (+37 %; p < 0.05), whereas NE concentrations were elevated prior to PAMI and remained elevated during reperfusion. Correlations with CTFC were found for ET-1 (p = 0.01; r = 0.61) and NE (p = 0.01; r = 0.58) during reperfusion. The extent of left ventricular dysfunction correlated with the concentrations of AVP and NE during reperfusion. Conclusions: There is evidence for a distinct pattern of neurohumoral activation during early reperfusion in acute myocardial infarction. In particular, we documented substantial increases in AVP and ET-1. Left ventricular wall-stress appears to be involved in the release of AVP. Elevated levels of ET-1 and NE are associated with impaired angiographic reperfusion and increased myocardial damage after mechanical recanalization. Received: 13 December 2001, Returned for 1. revision: 14 January 2002, 1. Revision received: 10 April 2002, Returned for 2. revision: 30 April 2002, 2. Revision received: 10 May 2002, Accepted: 13 May 2002     

Melatonin stimulates the activity of protective antioxidative enzymes in myocardial cells of rats in the course of doxorubicin intoxication

The study aimed at determining the effect of melatonin on the activity of protective antioxidative enzymes in the heart and of lipid peroxidation products in the course of intoxication with doxorubicin (DOX). The rats were categorized into four groups, receiving: 0.9% NaCl i.p. (NaCl control); melatonin [20 mg/kg body weight (b.w.)] s.c. (control Mel); DOX (2.5 mg/kg b.w.) i.p.; melatonin plus DOX in doses as above. All the substances were administered once in a week for four consecutive weeks. Homogenates of heart tissue were examined for activities of glutathione peroxidase (GPx), superoxide dismutase (SOD), catalase (CAT), levels of reduced glutathione (GSH) and of lipid peroxidation indices (MDA + 4-HDA). Administration of melatonin alone did not induce alterations in levels of MDA + 4-HDA, GSH, or in activity of GPx, SOD or CAT, as compared to the group receiving 0.9% NaCl. GSH levels decreased following DOX but remained at normal levels following DOX and melatonin. The level of MDA + 4-HDA increased following DOX, as compared with the control, a change prevented by the combination of DOX + melatonin. Activities of GPx, SOD and CAT were higher in groups receiving DOX and/or DOX plus melatonin than in control groups. Activity of CAT and the level of GSH in the group receiving DOX plus melatonin were significantly higher than in the group intoxicated with DOX alone. The obtained results demonstrate that, when given in parallel with DOX, melatonin protects cardiomyocytes from damaging effects of the cytostatic drug (reflected by the levels of MDA + 4-HDA). The protective effect resulted, in part from the augmented levels of GSH and from stimulation of CAT activity by melatonin in cardiomyocytes subjected to the action of DOX.     

Myocardial catecholamine responsiveness of spontaneously hypertensive rats as influenced by swimming training

Summary Alterations of myocardial mechanical catecholamine responsiveness by swimming training (2×90 min/day, 4 weeks) were examined in 13-week-old spontaneously hypertensive male rats (SHR). The relationships between myocardial mechanical catecholamine responsiveness and ventricular -adrenoceptors as well as myosin isoenzyme pattern were also examined. Compared with sedentary controls, trained rats showed a greater responsiveness to isoproterenol (10^–6 mol/l) on isometric tension (T) and its first derivative (dT/dt) (T:0.45±0.55 vs. –0.15±0.11 10^–2 N/mm², p<0.01, dT/dt: 17.1±10.1 vs. 8.3±3.6 10^–2 N/mm²·s, p<0.05). In sedentary SHR, dT/dt_max increased significantly, whereas developed tension decreased slightly, coupled with a decrease of time to peak tension by high dose (10^–6 mol/l) isoproterenol. Therefore, it can be stated that dT/dt is a better indicator for catecholamine sensitivity than isometric tension. -adrenoceptor density ([³H]-dihydroalprenolol binding) decreased significantly in trained rats (68.7±7.62 vs. 102.4±4.37 fmol/mg protein, p<0.01) with no significant difference in K_D values (4.61±2.26 vs. 6.11±1.94 nM, ns). In addition, myosin isoenzyme pattern revealed by pyrophosphate gel electrophoresis shifted towards VM-1 after swimming training. The increased catecholamine sensitivity of fast contracting myocardium is, in principle, compatible with the assumption of cAMP-dependent regulation of myofibrillar ATPase activity (21) or cross bridge kinetics (9), although other postreceptor processes should also be taken into consideration for the increased catecholamine sensitivity.Supported by the Deutsche Forschungsgemeinschaft     

From the Cover: Feature Article: Identification of an essential endogenous regulator of blood–brain barrier integrity,and its pathological and therapeutic implications

The blood–brain barrier (BBB), a critical guardian of communication between the periphery and the brain, is frequently compromised in neurological diseases such as multiple sclerosis (MS), resulting in the inappropriate passage of molecules and leukocytes into the brain. Here we show that the glucocorticoid anti-inflammatory messenger annexin A1 (ANXA1) is expressed in brain microvascular endothelial cells, where it regulates BBB integrity. In particular, ANXA1^−/− mice exhibit significantly increased BBB permeability as a result of disrupted interendothelial cell tight junctions, essentially related to changes in the actin cytoskeleton, which stabilizes tight and adherens junctions. This situation is reminiscent of early MS pathology, a relationship confirmed by our detection of a selective loss of ANXA1 in the plasma and cerebrovascular endothelium of patients with MS. Importantly, this loss is swiftly restored by i.v. administration of human recombinant ANXA1. Analysis in vitro confirms that treatment of cerebrovascular endothelial cells with recombinant ANXA1 restores cell polarity, cytoskeleton integrity, and paracellular permeability through inhibition of the small G protein RhoA. We thus propose ANXA1 as a critical physiological regulator of BBB integrity and suggest it may have utility in the treatment of MS, correcting BBB function and hence ameliorating disease.The presence of narrow and dense tight junctions between adjacent endothelial cells is peculiar to the cerebral vasculature, and their integrity is essential for the maintenance of correct blood–brain barrier (BBB) function as the primary regulator of cross-talk between the brain and the rest of the body (1). Increasing evidence indicates that the integrity of this structural and functional barrier is compromised in neurological conditions such as multiple sclerosis (MS), Alzheimer’s, and Parkinson diseases, leading to the failure of the normal mechanisms controlling passage of substances into the brain (2) and to the sensitization and/or worsening of pathologic conditions. Pharmacological intervention to prevent or correct BBB alteration in such diseases is a difficult task, but potential therapeutic leads can be gained from the study of endogenous mediators regulating barrier integrity.Annexin A1 (ANXA1) is an important anti-inflammatory protein, principally known as a regulator of peripheral leukocyte migration and a promoter of macrophage phagocytosis (3). ANXA1 is expressed in several cell types within the brain, including ependyma and microglia, but in particular in the endothelium of the brain microvasculature (4), although its role in these cells remains obscure. We have previously shown glucocorticoids to up-regulate expression of ANXA1 in the cerebral endothelium (5), and, given that glucocorticoids enhance BBB tightness (6), we hypothesized that ANXA1 may play a role in the regulation of BBB permeability. Through combined in vitro and in vivo approaches, we have identified a dual role for ANXA1 in organizing the interendothelial cell tight and adherens junctions: (i) endogenously through its interactions with the actin cytoskeleton, and (ii) exogenously in an autocrine/paracrine via formyl peptide receptor 2 (FPR2), leading to the down-regulation of RhoA GTPase activity. Together, these two actions of ANXA1 regulate paracellular permeability in the BBB, and provide a major contribution to BBB integrity and function. Moreover, we describe a selective down-regulation of ANXA1 expression in the plasma and cerebral microvascular endothelia of patients with MS, strongly suggesting an explanation for the BBB dysfunction that is a typical early sign of this disease. All these findings pinpoint ANXA1 as a critical component of the BBB endothelium contributing to barrier integrity. Its autoparacrine role and the loss in patients with MS highlight the potential utility of the protein or its peptidomimetics as a therapeutic target for pathologic processes characterized by compromised BBB function, such as MS.