Nitric oxide and sphingolipids control apoptosis and autophagy with a significant impact on Alzheimer's disease.

Aberrant regulation of signalling pathways promoting and regulating apoptosis and autophagy contributes to the development of most human neurodegenerative diseases characterised by progressive dysfunction and death of neuronal and glial cells. Both in central and peripheral nervous systems cell death is either apoptotic or autophagic, depending on the cellular setting and the initial pathogenic cue. While some mixed phenotypes have been reported, apoptosis and autophagy tend to develop into mutually exclusive ways to such an extent that they inhibit each other. The sphingolipid ceramide is a key intracellular signalling molecule involved in many cellular processes leading to either survival or death; in most of these processes also the short-lived gaseous messenger nitric oxide (NO) plays a crucial role. The crosstalk between these two messengers and their downstream mediators has been thus extensively investigated and we now have a deep understanding of it and of its multiple feedback controls. What we provide here are details on how NO- and sphingolipid-dependent signalling and their crosstalk impact on degenerative brain diseases, in particular Alzheimer’s disease; we also describe how the ability of these molecules to regulate autophagy and apoptosis plays a significant role in determining the pathogenic evolution of these diseases. The evidence reported in this review suggests that targeting the NO and sphingolipid-dependent signalling pathways is worth exploiting in therapeutic perspective. In order to pursue these strategies, however, we still need to understand conclusively how the crosstalk between the NO and ceramide/sphingolipid pathways balances towards beneficial vs. toxic effects. In view of the nature of the signalling pathways involved and their multiple roles, the type of crosstalk involved is complex and intermingled with other signalling pathways.

A therapeutic dose of FK506 does not affect collagen turnover pathways in healthy human gingival fibroblasts.

We previously demonstrated that a high dose of tacrolimus (1 mumol/L) induced expression of matrix metalloproteinase (MMP) proteins in human cultured gingival fibroblasts, suggesting a molecular mechanism maintaining gingival collagen homeostasis in tacrolimus-treated patients. Herein we have analyzed whether the effect on collagen turnover might be influenced by a therapeutic tacrolimus dose. Human gingival fibroblasts were incubated for 72 hours with 10 nmol/L, 100 nmol/L, and 1 mumol/L tacrolimus, or left untreated (CT). Collagen type I and III (COL-I, COL-III), lysyl hydroxylase 2b (LH2b), MMP-1 and -2, tissue inhibitor of MMP-1 and transforming growth factor-beta1 (TGF-beta1) mRNA levels were assayed by reverse-transcriptase polymerase chain reaction, collagen protein levels by dot blot, and MMP activity by sodium dodecyl sulfate zymography. Tacrolimus did not affect COL-I, COL-III, or MMP gene expression, while LH2b and TGF-beta1 tended to be down-regulated after 1 mumol/L FK506. Conversely, protein levels of MMP-1 (P = NS) and MMP-2 (P < .05 vs CT, 10 nmol/L, 100 nmol/L) were up-regulated after 1 mumol/L tacrolimus. Our findings confirmed that a high dose of tacrolimus does not induce interstitial collagen overexpression by gingival fibroblasts and induces up-regulation of MMPs protein levels. Interestingly, at doses corresponding to whole blood trough levels, tacrolimus did not exert any evident effect on collagen turnover pathways, suggesting that tacrolimus is likely to not affect collagen homeostasis in the gingival connective tissue compartment of FK506-immunosuppressed subjects. This effect did not seem to be dose-dependent.

Extracellular glycosaminoglycan changes in healthy and overgrown gingiva fibroblasts after cyclosporin A and cytokine treatments.

BACKGROUND: It has been demonstrated that cyclosporin A (CyA) blocks the immune system, acts on cytoskeleton and stimulates the production of extracellular matrix (ECM) and transforming growth factor-beta1 (TGF-beta1). This cytokine, such as transforming growth factor-alpha (TGF-alpha), induces deposition of glycosaminoglycans (GAG), proteoglycans and collagen fibres in the ECM. METHODS: In this work, we examined the effect induced by CyA, TGF-beta1 and TGF-alpha on cultures of healthy and overgrown human gingival fibroblasts in order to evaluate the glycosaminoglycan, cytoskeletal changes and the behaviour of fibroblasts after concanavalin A (Con A) treatment. Moreover, we examined gingival biopsies by Alcian blue histochemical staining and electron transmission microscopy. RESULTS: Total and extracellular sulphated GAG in overgrown gingiva specimens and in derived fibroblast cultures treated with CyA and cytokines were significantly higher than controls. The action of cytokines was increased (P < or = 0.01) compared with CyA with a greater effect of TGF-alpha in comparison with TGF-beta1; the electron microscopy showed ECM accumulation. The agglutinations showed the heterogeneity of fibroblast populations. CONCLUSIONS: Stimulation with Con A showed that the fibroblast population had cell surface heterogeneity, and could respond in a different way to both CyA and cytokine stimulus. Moreover, increased synthesis of GAG in overgrown gingiva compared with synthesis in normal fibroblasts before CyA treatment suggests a possible genetic origin of damage. As not all CyA-treated patients develop gingival overgrowth, a genetic predisposition may explain the different responses of gingival fibroblast populations.

Megaesophagus in an asthmatic patient and beta2 stimulant treatment by inhalation.

Megaesophagus is a severe esophageal malformation. We report a case of megaesophagus in an asthmatic patient affected by congenital non-haemolytic anaemia and undergoing beta2 stimulant treatment by inhalation. Our case could be due to chronic beta2 receptor stimulation with imbalance of alpha and beta receptor, without any implication of favism.

Polyamine levels and ornithine decarboxylase activity in blood and erythrocytes in human diseases.

Serum and erythrocyte levels of the polyamines spermine, spermidine and putrescine, as well as ornithine decarboxylase in erythrocytes, were studied in patients with different neoplasms (breast, lung and colon cancer) and in those with a nonmalignant proliferative disease (familial polyposis). The blood levels of polyamines and the spermine/putrescine ratio were significantly higher in all tumors and in nonmalignant colon polyposis. In erythrocyte ornithine decarboxylase activity, spermine and spermidine levels, as well as spermidine/putrescine and spermine/putrescine ratios showed a significant decrease after surgery and chemotherapy. Our data suggest that high levels of blood polyamines and erythrocyte ornithine decarboxylase activity are related to cell proliferation and cancer treatment, but that levels of polyamines in serum and erythrocytes are still significantly high after cancer treatment and are similar to those in polyposis disease. Polyamines are related to nuclear activity during differentiation; therefore, the altered turnover of polyamines could be a sign of abnormal nuclear function. Since polyamines stimulate protooncogene expression, their high levels could be considered an important cofactor in malignant cell transformation.

Chick embryo back skin organ and fibroblast cultures. Extracellular matrix changes induced by dialysate fluid and uraemic toxins in relation to proliferation and differentiation processes.

AIM: During uraemia, an increase of middle molecules and acetylpolyamines occurs. In vitro the middle molecules produce cell toxicity, while the acetylpolyamines stimulate cell proliferation and differentiation. These phenomena are related to protein and extracellular glycosaminoglycan production. The aim of the present study was to evaluate the activity of dialysate, dialysate fluid and the chromatographic peaks of dialysate fractionated by G-15 Sephadex column on chick embryo skin development. METHODS: We evaluated the effects of protein and glycosaminoglycan synthesis using monolayer and organotypic cultures. RESULTS: Our data show that dialysate, chromatographic peak II, and 2 x 10(-8)M N1-acetylspermine cause inhibition of chick embryo skin culture development. On the contrary, 10(-8)M N-acetylornithine and dialysate fluid increase protein and extracellular glycosaminoglycan synthesis, whereas chromatographic peak I does not reveal differences when compared to controls. CONCLUSIONS: These extracelluar changes are related to cell proliferation and feather formation in chick embryo organotypic culture. Moreover, the pH changes of culture medium do not influence the biological action of acetylpolyamines and dialysate fluid on protein and extracellular glycosaminoglycan synthesis. Cell death in the presence of N1-acetylspermine, dialysate and peak II appears unrelated to the apoptotic process. The data show that acetylpolyamines, dialysis fluid, dialysate and chromatographic peaks act on fibroblasts, and are able to modify glycosaminoglycan synthesis. The organotypic cultures of chick embryo back skin could represent a model for studying the modifications of the extracellular matrix induced by these substances.

Mast cell density, hepatic stellate cell activation and TGF-beta1 transcripts in the aging Sprague-Dawley rat during early acute liver injury.

Mast cells (MCs) have been indicated as a source of various inflammatory cytokines, chemokines and growth factors. This study evaluates liver tissue MC density as a quantitative marker of acute liver inflammation in 2- and 19-month old rats treated with carbon tetrachloride (CCl4) toassess the relationships between MC density, hepatocellular damage, mRNA encoding TGF-beta1, hepatic stellate cell (HSC) activation and collagen levels. Consecutive histological sections from each age group were stained with toluidine blue to identify granulated MCs, Direct Red 80 to recognize collagen matrix, and by immunohistochemistry to identify activated hepatic stellate cells (HSCs), which were subsequently counted by means of a computer-aided image analysis. Histology showed hepatocellular necrosis with inflammatory cell infiltration and collagen matrix deposition. Two and 24 hours after intoxication, MC density had considerably increased in the younger rats, but less in those aged 19 months. Although the untreated older rats had a larger area occupied by activated HSCs than the untreated younger rats, the increase in the number of HSCs was greater in the younger rats both two and 24 hours after intoxication. The greater MC density in younger rats suggests that older rats have a reduced immune response or recruit fewer MCs. The activated HSCs and TGF-beta1 transcripts did not increase significantly during the study period, thus indicating that these are later events in chemically induced hepatic toxicity. In conclusion. MC density may be an index of acute liver inflammation after CCl4 intoxication.

Extracellular signal-regulated kinases 1 and 2 phosphorylated neurons in the tele- and diencephalon of rat after visceral pain stimulation: an immunocytochemical study.

We aimed at verifying whether extracellular signal-regulated kinases (erks) 1 and 2 are activated, i.e. phosphorylated, in forebrain neurons after visceral pain stimulation (VPS). Ether and urethane anaesthetized rats received an intraperitoneal injection of acetic acid or were left untreated (ECT, UCT). After 2 h the animals were perfused. Paraffin embedded brain sections immunoreacted with an antibody selective for the phosphorylated erks. The light microscope analysis revealed only a few labelled neurons in ECT, while in UCT, positive cells were detected. In VPS rats (VPSR) positive cells were mainly distributed in regions, such as the hypothalamic anterior and thalamic paraventricular midline nuclei, amygdala, hippocampal and parahippocampal, insular and perirhinal cortex, involved in nociception and/or visceral activities. Our data suggest an association of erks activation with the emotional component of nociception; moreover, they show that erks activation is not suppressed by anaesthesia.

Aloe-Emodin quinone pretreatment reduces acute liver injury induced by carbon tetrachloride.

Aloe contains several active compounds including aloin, a C-glycoside that can be hydrolyzed in the gut to form aloe-emodin anthrone which, in turn, is auto-oxidized to the quinone aloe-emodin. On the basis of the claimed hepatoprotective activity of some antraquinones, we studied aloe-emodin in a rat model of carbon tetrachloride (CCl4) intoxication, since this xenobiotic induces acute liver damage by lipid peroxidation subsequent to free radical production. Twelve rats were treated with CCl4 (3 mg/kg) intraperitoneally and six were protected with two intraperitoneally injections of aloe-emodin (50 mg/kg; CCl4+aloe-emodin); six other rats were only aloe-emodin injected (aloe-emodin) and six were untreated (control). Histological examination of the livers showed less marked lesions in the CCl4+aloe-emodin rats than in those treated with CCl4 alone, and this was confirmed by the serum levels of L-aspartate-2-oxoglutate-aminotransferase (394+/-38.6 UI/l in CCl4, 280+/-24.47 UI/l in CCl4+aloe-emodin rats; P<0.05). We also quantified changes in hepatic albumin and tumour necrosis factor-alpha mRNAs. Albumin mRNA expression was significantly lower only in the liver of CCl4 rats (P<0.05 versus control) and was only slightly reduced in the CCl4+aloe-emodin rats. In contrast tumour necrosis factor-alpha mRNA was significantly higher (P<0.05) in the CCl4 than the control rats and almost equal in the CCl4+aloe-emodin, aloe-emodin and control groups. In conclusion, aloe-emodin appears to have some protective effect not only against hepatocyte death but also on the inflammatory response subsequent to lipid peroxidation.