Plasma peroxiredoxin changes and inflammatory cytokines support the involvement of neuro-inflammation and oxidative stress in Autism Spectrum Disorder.

BACKGROUND: It has been established that children with Autism Spectrum Disorders (ASD) are affected by oxidative stress, the origin of which is still under investigation. In the present work, we evaluated inflammatory and pro-oxidant soluble signature in non-syndromic ASD and age-matched typically developing (TD) control children. METHODS: We analyzed leukocyte gene expression of inflammatory cytokines and inflammation/oxidative-stress related molecules in 21 ASD and 20 TD children. Moreover, in another-comparable-group of non-syndromic ASD (N = 22) and TD (N = 21) children, we analyzed for the first time the protein expression of the four members of the antioxidant enzyme family of peroxiredoxins (Prx) in both erythrocyte membranes and in plasma. RESULTS: The gene expression of IL6 and of HSP70i, a stress protein, was increased in ASD children. Moreover, gene expression of many inflammatory cytokines and inflammation/oxidative stress-related proteins correlated with clinical features, and appeared to be linked by a complex network of inter-correlations involving the Aryl Hydrocarbon Receptor signaling pathway. In addition, when the study of inter-correlations within the expression pattern of these molecules was extended to include the healthy subjects, the intrinsic physiological relationships of the inflammatory/oxidative stress network emerged. Plasma levels of Prx2 and Prx5 were remarkably increased in ASD compared to healthy controls, while no significant differences were found in red cell Prx levels. CONCLUSIONS: Previous findings reported elevated inflammatory cytokines in the plasma of ASD children, without clearly pointing to the presence of neuro-inflammation. On the other hand, the finding of microglia activation in autoptic specimens was clearly suggesting the presence of neuro-inflammation in ASD. Given the role of peroxiredoxins in the protection of brain cells against oxidative stress, the whole of our results, using peripheral data collected in living patients, support the involvement of neuro-inflammation in ASD, and generate a rational for neuro-inflammation as a possible therapeutic target and for plasma Prx5 as a novel indicator of ASD severity.

Adipocytes sustain pancreatic cancer progression through a non-canonical WNT paracrine network inducing ROR2 nuclear shuttling.

BACKGROUND: Solid epidemiological evidences connect obesity with incidence, stage and survival in pancreatic cancer. However, the underlying mechanistic basis linking adipocytes to pancreatic cancer progression remain largely elusive. We hypothesized that factors secreted by adipocytes could be responsible for epithelial-to-mesenchymal transition (EMT) induction and, in turn, a more aggressive phenotype in models of pancreatic preneoplastic lesions. METHODS: We studied the role of factors secreted by two adipogenic model systems from primary human bone marrow stromal cells (hBMSCs) in an in vitro experimental cell transformation model system of human pancreatic ductal epithelial (HPDE) cell stably expressing activated KRAS (HPDE/KRAS),Results:We measured a significant induction of EMT and aggressiveness in HPDE and HPDE/KRAS cell lines when cultured with medium conditioned by fully differentiated adipocytes (ADIPOCM) if compared with the same cells cultured with medium conditioned by hBMSC (hBMSCCM) from two different healthy donors. Several genes coding for soluble modulators of the non-canonical WNT signaling pathway, including FRZB, SFRP2, RSPO1, WNT5A and 5B were significantly overexpressed in fully differentiated adipocytes than in their respective in hBMSC. ADIPOCM induced the overexpression and the nuclear translocation of the Frizzled family member receptor tyrosine kinase-like orphan receptor (Ror) 2 in HPDE and HPDE/KRAS cells. Vantictumab, an anti-Frizzled monoclonal antibody, reduced ROR2 nuclear translocation and in turn the EMT and aggressiveness in HPDE and HPDE/KRAS cells. CONCLUSIONS: We demonstrated that adipocytes could induce EMT and aggressiveness in models of pancreatic preneoplastic lesions by orchestrating a complex paracrine signaling of soluble modulators of the non-canonical WNT signaling pathway that determine, in turn, the activation and nuclear translocation of ROR2. This signaling pathway could represent a novel target for pancreatic cancer chemoprevention. Most importantly, these factors could serve as novel biomarkers to select a risk population among obese subjects for screening and, thus, early diagnosis of pancreatic cancer.

Inhibition of Ca(2+)-dependent K+ transport and cell dehydration in sickle erythrocytes by clotrimazole and other imidazole derivatives.

We have investigated the interaction of clotrimazole (CLT) and related compounds with the erythroid Ca(2+)-activated K+ channel, a mediator of sickle cell dehydration. We measured K+ transport, membrane potential, and cell volume upon activation of this pathway in sickle erythrocytes. CLT blocked almost completely Ca(2+)-activated K+ transport in homozygous hemoglobin S cells, with IC50 values of 29 +/- 15 nM in isotonic 20 mM salt solution and 51 +/- 15 nM in normal saline (n = 3). The inhibition of K+ transport by CLT was caused by a specific interaction with the Ca(2+)-activated K+ channel of human red cells, since it displaced bound 125I-Charybdotoxin, a specific ligand of the Gardos channel, with an IC50 (12 +/- 4 nM in isotonic 20 mM) similar to the IC50 values for flux inhibition. When homozygous hemoglobin S cells were dehydrated by incubation in the presence of 100 microM CaCl2 and the ionophore A23187, or by exposure to cycles of oxygenation and deoxygenation, CLT effectively inhibited cell dehydration and K+ loss. The IC50 of CLT for inhibition of Ca(2+)-activated K+ transport in sickle cells is significantly lower than plasma concentrations of CLT achievable after nontoxic oral doses. We therefore propose that oral administration of CLT may prevent red cell dehydration in patients with sickle cell anemia.

Deficiency of Src family kinases Fgr and Hck results in activation of erythrocyte K/Cl cotransport.

Src-family kinases play a central role in regulation of hematopoietic cell functions. We found that mouse erythrocytes express the Src-family kinases Fgr and Hck, as well as Lyn. To directly test whether Fgr and Hck play any role in erythrocyte function, we analyzed red cells isolated from fgr-/-, hck-/-, and fgr-/- hck-/- knock-out mice. Mean corpuscular hemoglobin concentration and median density are increased, while K content is decreased, in fgr-/- hck-/- double-mutant erythrocytes compared with wild-type, fgr-/-, or hck-/- erythrocytes. Na/K pump and Na/K/Cl cotransport were not altered, but K/Cl cotransport activity was significantly and substantially higher (approximately three-fold) in fgr-/- hck-/- double-mutant erythrocytes. This enhanced K/Cl cotransport activity did not depend on cell age. In fact, in response to bleeding, K/Cl cotransport activity increased in parallel with reticulocytosis in wild-type erythrocytes, while abnormal K/Cl cotransport did not change as a consequence of reticulocytosis in fgr-/- hck-/- double-mutant erythrocytes. Okadaic acid, an inhibitor of a phosphatase that has been implicated in activation of the K/Cl cotransporter, inhibited K/Cl cotransport in wild-type and fgr-/- hck-/- double-mutant erythrocytes to a comparable extent. In contrast, staurosporine, an inhibitor of a kinase that has been suggested to negatively regulate this same phosphatase enhanced K/Cl cotransport in wild-type but not in fgr-/- hck-/- double-mutant erythrocytes. On the basis of these findings, we propose that Fgr and Hck are the kinases involved in the negative regulation of the K/Cl cotransporter-activating phosphatase. Abnormality of erythrocyte K/Cl cotransport in fgr-/- hck-/- double-mutant animals represents the first demonstration that Src-family kinases may be involved in regulation of membrane transport.

Treatment with oral clotrimazole blocks Ca(2+)-activated K+ transport and reverses erythrocyte dehydration in transgenic SAD mice. A model for therapy of sickle cell disease.

Prevention of red cell K+ and water loss is a therapeutic strategy for sickle cell disease. We have investigated in vitro and in vivo the effects of clotrimazole (CLT) and miconazole (MIC) on transgenic mice red cells expressing hemoglobin SAD. CLT blocked the Gardos channel (ID50 75 +/- 22 nM; n = 3) and the A23187-induced dehydration of Hbbs/Hbbthal SAD 1 mouse erythrocytes in vitro. Oral treatment with CLT (160 mg/kg per d) and MIC (100 mg/kg per d) inhibited the Gardos channel in both SAD 1 and control (Hbbs/Hbbthal) mice. In the SAD 1 mice only, cell K+ content increased, and mean corpuscular hemoglobin concentration and cell density decreased. After 7 d of treatment, the hematocrit of SAD 1, CLT-treated animals also increased. All changes were fully reversible. Long-term treatments of SAD 1 mice with oral CLT (80 mg/kg per d for 28 d) lead to sustained increases in cell K+ content and hematocrit and sustained decreases in mean corpuscular hemoglobin concentration and cell density, with no changes in animals treated with vehicle alone. Thus, CLT and MIC can reverse dehydration and K+ loss of SAD 1 mouse erythrocytes in vitro and in vivo, further supporting the potential utility of these drugs in the treatment of sickle cell anemia.

Oral magnesium supplements reduce erythrocyte dehydration in patients with sickle cell disease.

Intracellular polymerization and sickling depend markedly on the cellular concentration of sickle hemoglobin (Hb S). A possible therapeutic strategy for sickle cell disease is based on reducing the cellular concentration of Hb S through prevention of erythrocyte dehydration. The K-Cl cotransporter is a major determinant of sickle cell dehydration and is inhibited by increasing erythrocyte Mg content. We studied 10 patients with sickle cell disease before treatment and after 2 and 4 wk of treatment with oral Mg supplements (0.6 meq/kg/d Mg pidolate). Hematological parameters, erythrocyte Na, K, and Mg content, erythrocyte density, membrane transport of Na and K, and osmotic gradient ektacytometry were measured. We found significant increases in sickle erythrocyte Mg and K content and reduction in the number of dense sickle erythrocytes. Erythrocyte K-Cl cotransport was reduced significantly. We also observed a significant reduction in the absolute reticulocyte count and in the number of immature reticulocytes. Ektacytometric analysis showed changes indicative of improved hydration of the erythrocytes. There were no laboratory or clinical signs of hypermagnesemia. Mild, transient diarrhea was the only reported side effect. We conclude that oral Mg supplementation reduces the number of dense erythrocytes and improves the erythrocyte membrane transport abnormalities of patients with sickle cell disease.

Decreased band 3 anion transport activity and band 3 clusterization in congenital dyserythropoietic anemia type II.

Congenital dyserythropoietic anemia type II (CDA-II) is the most common form of inherited dyserythropoiesis. Erythroid precursor and red blood cells (RBCs) show characteristic morphological abnormalities. Biochemical studies have shown that this disease is associated with reduced glycosylation activity, which endows band 3 (anion transporter) with peculiar characteristics. The life span of RBCs may be shortened in patients with CDA-II, a phenomenon that has been ascribed to this membrane defect. We analyzed seven unrelated patients with CDA-II and five control subjects. In all of the CDA-II patients, erythrocytes presented a band 3 that was thinner than usual and also migrated slightly faster on SDS-PAGE. Analysis of anion transport function in CDA-II RBC samples demonstrated decreased anion exchange activity per band 3 molecule. Furthermore, we observed that the CDA-II RBCs contained larger amounts of aggregate band 3 than control erythrocytes. Aggregate band 3 has been reported to bind naturally occurring antibodies that mediate the phagocytic removal of RBCs. We provide evidence that both the phagocytic index (RBCs/macrophage) and the amount of membrane-bound immunoglobulin (IgG) are elevated in CDA-II erythrocytes. Our results suggest that the mild hemolysis observed in patients with CDA-II may be ascribed to clusterization of band 3, which leads to IgG binding and phagocytosis, and not to a secondary modification of the cytoskeletal structure of RBCs.

Erythrocyte-active agents and treatment of sickle cell disease.

The sickle hemoglobin (HbS)-containing erythrocyte and its membrane represent a logical target for sickle cell disease therapy. Several antisickling agents which interfere with HbS polymerization have been studied over the last 30 years, but none has overcome the challenge of delivering high concentrations inside the sickle red blood cell without toxicity. The sickle erythrocyte membrane has also been targeted for therapeutic developments. Prevention of sickle cell dehydration by use of specific blockers of ion transport pathways mediating potassium loss from the sickle erythrocyte has been shown to be a feasible strategy in vitro, in vivo in transgenic sickle mice, and in patients. Other approaches have focused on improving the hemorheology of sickle erythrocytes and reducing their abnormal adhesion to endothelial cells. These potential treatments could be used alone or in combination with other approved therapies, such as hydroxyurea.

Omega-3 polyunsaturated fatty acid supplements and ambulatory blood pressure monitoring parameters in patients with mild essential hypertension.

OBJECTIVE: To evaluate the effects of low doses of omega-3 polyunsaturated fatty acids on ambulatory blood pressure monitoring parameters in a group of mild essential hypertensives. PATIENTS: We studied 24 consecutive essential hypertensive patients from our outpatient clinic with mild hypertension (diastolic blood pressure < or = 105 mmHg), no previous treatment for 4 weeks at least and no other disease. METHODS: After a 3-month run-in period, the patients entered an intervention phase and were given 3 g omega-3 polyunsaturated fatty acids (85% eicosapentaenoic and docosahexaenoic acid concentrate) daily for 4 months; this phase was followed by a 4-month washout period. Ambulatory blood pressure monitoring was performed at the end of each phase; erythrocyte membrane fatty acids were assessed to check compliance. RESULTS: After 4 months of treatment, erythrocyte omega-3 polyunsaturated fatty acids significantly increased but average systolic and diastolic blood pressure and the heart rate did not significantly change; no significant variations were recorded in blood pressure or heart rate variability (assessed as blood pressure and heart rate SD) nor in the diurnal blood pressure rhythm. After washout, a significant decrease was observed in erythrocyte omega-3 polyunsaturated fatty acids but the ambulatory blood pressure monitoring parameters were not substantially modified. CONCLUSIONS: The present data show that low doses of omega-3 polyunsaturated fatty acids as a single treatment are not effective in lowering blood pressure or the heart rate in mild essential hypertensive patients, despite a significant change in fatty acid cell membrane composition. Nor does this treatment seem likely to affect blood pressure variability or the diurnal rhythm.

Novel therapies for prevention of erythrocyte dehydration in sickle cell anemia.

Sickle cell anemia is a genetic disorder characterized by mutant hemoglobin (Hb) polymerization and resultant cell deformation (sickling) under conditions of reduced oxygen tension. The disease is caused by mutation of wild-type Glu to Val in position 6 of the beta-chain of hemoglobin, yielding hemoglobin S (HbS). The sickling process is markedly accelerated when the intracellular concentration of HbS is increased. A variable fraction of dehydrated erythrocytes is seen in the majority of patients, and these cells are believed to play an important role in the pathophysiology of the vasoocclusive events of sickle cell disease. Therapy of sickle cell disease is extremely limited in range and efficacy. Many patients still receive treatment only for symptomatic relief of sickle crises, painful episodes due to vasoocclusion by sickled cells. The last 15 years, however, have seen the identification of the principal transport pathways that mediate sickle erythrocyte dehydration, and the last 6 years have witnessed promising clinical tests of specific inhibitors of these pathways, with the intent of reducing cell sickling via inhibition of red cell dehydration. This review discusses the pathophysiology of sickle cell dehydration and explores current and future treatment options for in vivo prevention of sickle cell dehydration.

Anti tissue transglutaminase antibodies as predictors of silent coeliac disease in patients with hypertransaminasaemia of unknown origin.

BACKGROUND: Unexplained hypertransaminasaemia can be regarded as an extraintestinal presentation of coeliac disease. AIM: To evaluate the reliability of immunoglobulin A anti tissue transglutaminase antibodies for identifying coeliac disease in those patients with raised transaminases of unknown origin. PATIENTS: Of 1,120 consecutive patients referred to the outpatient clinic for liver disease due to raised transaminases from September 1995 to December 1999, 110 were classified as having cryptogenic hypertransaminasaemia after the exclusion of every known cause of liver disease. METHODS: These 110 patients were tested for immunoglobulin A anti tissue transglutaminase and antiendomysial antibodies by enzyme-linked immunosorbent assay and indirect immunofluorescence, respectively. RESULTS: Ten patients resulted positive for both antibodies; in all of them duodenal biopsy showed a subtotal villous atrophy consistent with coeliac disease. They did not complain of any gastrointestinal symptom. Liver biopsy, performed in five, showed a histological picture of non-specific reactive hepatitis. CONCLUSIONS: Due to the high proportion (9.15%) of patients with cryptogenic hypertransaminasaemia affected by symptomless coeliac disease, serological screening for gluten-sensitive enteropathy must be included in the work-up of these patients. In this respect, anti tissue transglutaminase antibodies represent a valid alternative to antiendomysial antibodies with the advantage of being feasible everywhere thanks to the worldwide availability of enzyme-linked immunosorbent assay.

Prevalence of silent coeliac disease in atopics.

BACKGROUND: Coeliac disease sometimes runs a subclinical/silent course and is often associated with immunologic and non-immunologic diseases. Although atopy is described as one of the most frequently associated conditions, the prevalence of coeliac disease in atopics has not yet been established. AIM: To evaluate the frequency of coeliac disease in an Italian series of atopics. PATIENTS AND METHODS: Sera from 401 consecutive atopics with no clinical evidence of malabsorption were tested for IgA antiendomysial antibodies by indirect immunofluorescence on human umbilical cord and IgA anti tissue transglutaminase by enzyme-linked immunosorbent assay Results. Four patients (1%) were found to be positive for both autoantibodies. Intestinal biopsy confirmed the diagnosis of active coeliac disease. One of the 4 coeliacs was also affected by Down's syndrome, autoimmune thyroiditis and coeliac hepatitis. In another case, a previously unknown severe iron deficiency was detected. CONCLUSIONS: The present study shows, for the first time, that the prevalence of coeliac disease in atopics is 1%, which is significantly higher than that in the general Italian population. Therefore, atopy should be considered a condition at risk and atopic patients routinely screened by means of specific autoantibody testing.

Drugs for preventing red blood cell dehydration in people with sickle cell disease.

BACKGROUND: Sickle cell disease is an inherited disorder of haemoglobin, which results in abnormal red blood cells. These can deform and cause blockages in blood vessels, leading to acute crises such as pain, stroke and splenic sequestration, and chronic organ and tissue damage. Recently research has begun to focus on therapies which prevent the red blood cells deforming by reducing the loss of water and ions from the cells. However, little is known about the effectiveness and safety of such drugs. OBJECTIVES: To assess the relative risks and benefits of drugs which aim to prevent sickle cell related crises by reducing red blood cell dehydration. SEARCH STRATEGY: We searched the Cochrane Cystic Fibrosis and Genetic Disorders Group specialist register which comprises references identified from comprehensive electronic database searches, handsearching relevant journals and handsearching abstract books of conference proceedings. Date of the most recent search of the Group's specialised register: December 2001. SELECTION CRITERIA: All those randomised or quasi-randomised controlled trials of drugs which aim to prevent sickle cell crises by reducing red cell dehydration, compared to placebo or an alternative treatment. DATA COLLECTION AND ANALYSIS: Both reviewers independently selected trials for inclusion, assessed trial quality and extracted data from the included studies. MAIN RESULTS: Of the 27 trials identified, two met the inclusion criteria. The two trials tested the effectiveness of zinc sulphate and piracetam to prevent sickle cell related crises in a total of 246 patients. A reduction in pain crises was shown in the piracetam study over one year (weighted mean difference (WMD) -1.9 (95% CI -3.01, -0.79)), although blood counts were not significantly changed. The zinc trial showed a significant reduction in the total number of pain, haemolytic, aplastic and sequestration crises over one and a half years (WMD -2.83 (95% CI -3.51, -2.15)), but our analysis was limited by non-reporting of standard deviations for some data. Changes to red cell parameters and blood counts were inconsistent. No serious adverse events were noted in either trial. REVIEWER'S CONCLUSIONS: While the results of both zinc and piracetam for reducing sickle related crises are encouraging, larger, and/or longer term multicentre trials over a number of years are needed to evaluate the effectiveness of these therapies for patients with sickle cell disease.

[Tissue engineering applications: cartilage lesions repair by the use of autologous chondrocytes]. / Applicazioni dell'ingegneria tissutale: riparazione di lesioni cartilaginee con condrociti autologhi.

Promising new therapies based on tissue engineering have been recently developed for cartilage repair. The association of biomaterials with autologous chondrocytes expanded in vitro can represent a useful tool to regenerate this tissue. The scaffolds utilised in such therapeutical applications should provide a pre-formed three-dimensional shape, prevent cells from floating out of the defect, have sufficient mechanical strength, facilitate uniform spread of cells and stimulate the phenotype of transplanted cells. Hyaff-11 is a hyaluronic-acid based biodegradable polymer, that has been shown to provide successful cell carrier for tissue-engineered repair. From our findings we can state that human chondrocytes seeded on Hyaff-11 are able to maintain in vitro the characteristic of differentiated cells, expressing and producing collagen type II and aggrecan which are the main markers of cartilage phenotype, down-regulating collagen type I. Moreover, it seems to be a useful scaffold for cartilage repair both in animal models and clinical trials in humans, favouring the formation of a hyaline-like tissue. In the light of these data, we can hypothesise, for the future, the use of autologous chondrocyte transplantation together with gene therapy as a treatment for rheumatic diseases such as osteoarthritis.

Establishment of a new human immortalized chondrocyte cell line.

Chondrocytes from human adult articular healthy cartilage were transfected in primary culture with a plasmid containing two human papilloma virus type 16 early function genes: E6 and E7, using the highly efficient cationic liposome-mediated (lipofection) procedure. The transfection was verified by reverse transcriptase-polymerase chain reaction analysis of E7 mRNA and by immunofluorescence localization of the E7 protein in the cell cytoplasm. The established chondrocyte cell line was examined in monolayer and in two culture conditions that were described to re-induce differentiated characteristics: culturing in a serum-free defined medium and seeding on a hyaluronan-based three-dimensional biomaterial. Immortalized cells were able to re-express the main markers of chondrocyte phenotype, both at mRNA and protein levels, under the two defined cultured conditions used. The cell line that we obtained may be a useful tool for increasing our knowledge of the genetic and biochemical events involved in the processes of cartilage growth and differentiation, and of the etiopathogenesis of many rheumatic diseases.

Tissue engineering for cartilage repair: in vitro properties of a hyaluronan-derivative.

Association of biomaterials with autologous cells can provide a new generation of implantable devices for cartilage and bone repair. Such scaffolds should provide a performed three-dimensional shape, prevent cells from floating out of the defect, have sufficient mechanical strength, facilitate uniform spread of cells, and stimulate the phenotype of transplanted cells. Hyaff-11 is a recently developed hyaluronic-acid based biodegradable polymer, that has been shown to provide successful cell scaffolds for tissue-engineered repair. The aim of this study was to evaluate in vitro the potential of Hyaff-11 to support the growth of human chondrocytes and to maintain their original phenotype. Our data indicate that human chondrocytes seeded on Hyaff-11 express and produce collagen type II and aggrecan and downregulate the production of collagen type I. These results provide an in vitro demonstration of therapeutic potential of Hyaff-11 as a delivery vehicle in tissue-engineered repair of articular cartilage defects.