Guya Diletta Marconi

Postnatal Hyperoxia Exposure Differentially Affects Hepatocytes and Liver Haemopoietic Cells in Newborn Rats

Premature newborns are frequently exposed to hyperoxic conditions and experimental data indicate modulation of liver metabolism by hyperoxia in the first postnatal period. Conversely, nothing is known about possible modulation of growth factors and signaling molecules involved in other hyperoxic responses and no data are available about the effects of hyperoxia in postnatal liver haematopoiesis. The aim of the study was to analyse the effects of hyperoxia in the liver tissue (hepatocytes and haemopoietic cells) and to investigate possible changes in the expression of Vascular Endothelial Growth Factor (VEGF), Matrix Metalloproteinase 9 (MMP-9), Hypoxia-Inducible Factor-1α (HIF-1α), endothelial Nitric Oxide Synthase (eNOS), and Nuclear Factor-kB (NF-kB). Experimental design of the study involved exposure of newborn rats to room air (controls), 60% O2 (moderate hyperoxia), or 95% O2 (severe hyperoxia) for the first two postnatal weeks. Immunohistochemical and Western blot analyses were performed. Severe hyperoxia increased hepatocyte apoptosis and MMP-9 expression and decreased VEGF expression. Reduced content in reticular fibers was found in moderate and severe hyperoxia. Some other changes were specifically produced in hepatocytes by moderate hyperoxia, i.e., upregulation of HIF-1α and downregulation of eNOS and NF-kB. Postnatal severe hyperoxia exposure increased liver haemopoiesis and upregulated the expression of VEGF (both moderate and severe hyperoxia) and eNOS (severe hyperoxia) in haemopoietic cells. In conclusion, our study showed different effects of hyperoxia on hepatocytes and haemopoietic cells and differential involvement of the above factors. The involvement of VEGF and eNOS in the liver haemopoietic response to hyperoxia may be hypothesized.

In Vitro Behavior of Primary Human Osteoblasts Onto Microrough Titanium Surface.

Objective:The aim of this study was to evaluate in vitro the behavior and the biocompatibility of primary human osteoblasts (HOs) grown onto different implant surface. Methods and Materials:HOs were cultured onto sandblasted/acid-etched (control group) and sandblasted/acid-etched followed by coating with inorganic ions (test group) experimental titanium discs. At established times, SEM analysis, LDH assay, MTT assay, and enzyme-linked immunosorbent assay for type 1 collagen, interleukin (IL)-6, and PGE2 secretion were performed. Results:Both surfaces promote HOs adhesion and proliferation. After 21 days, cells on test surfaces are well spread, flattened, and attached by cellular extensions, whereas cells on control discs appear mainly elongated. Lower LDH levels and higher values of MTT assay are recorded for cells on test respect to control surfaces at each experimental time. Type 1 collagen release increases until 14 days, significantly decreasing at day 21 in cells grown on both surfaces. IL-6 and PGE2 secretion shows a peak in control group samples at day 7, whereas their levels do not significantly modify in both groups at days 14 and 21. Conclusion:Results indicate that the test group surface is more biocompatible, well tolerated, and suitable for supporting osteoblasts growth and proliferation.

In the carotid body, galanin is a signal for neurogenesis in young, and for neurodegeneration in the old and in drug-addicted subjects

The carotid body is a highly specialized chemoreceptive structure for the detection of and reaction to hypoxia, through induction of an increase in hypoxia inducible factor. As tissue hypoxia increases with aging and can have dramatic effects in respiratory depression induced by drug addiction, we investigated the carotid body in young and old healthy subjects in comparison with drug-addicted subjects, including the expression of the neurotransmitter galanin. Galanin expression was recently reported for neuronal-like cells of the human carotid body, and it is implicated in several functions in neurons. In particular, this includes the regulation of differentiation of neural stem cells, and participation in the development and plasticity of the nervous system. Using immunohistochemistry detection, we demonstrate that galanin expression in the human carotid body in healthy older subjects and drug-addicted subjects is significantly reduced in comparison with healthy young subjects. This demonstrates not only the effects of normal aging and senescence, but also in the drug-addicted subjects, this appears to be due to a disorganization of the chemo-sensory region. With both aging and drug addiction, this results in a physiological reduction in neuronal-like cells, coupled with interlobular and intralobular increases in connective tissue fibers. Consequently, in both aging and drug addiction, this reduction of neuronal-like cells and the regeneration suggest that the carotid body is losing its sensory capabilities, with the transmission of chemoreceptive signals dramatically and vitally reduced. The level of galanin expression would thus provide a signal for neurogenesis in young subjects, and for neurodegeneration in older and drug-addicted subjects.

A dual role for β1 integrin in an in vitro Streptococcus mitis/human gingival fibroblasts co‐culture model in response to TEGDMA

AIM To evaluate the effect of TEGDMA on human gingival fibroblasts (HGFs) in vitro co-cultured with Streptococcus mitis, focusing on the signalling pathways underlying cell tissue remodelling and inflammatory response processes. METHODOLOGY β1 integrin expression was evaluated by means of imaging flow cytometry. The Western blot technique was used to investigate the expression of protein kinase C (PKC), extracellular signal-regulated kinase (ERK), matrix metalloproteinase 9 (MMP9) and 3 (MMP3). RT-PCR was performed to quantify nuclear factor-kb subunits (Nf-kb1, ReLa), IkB kinase β (IkBkB), cyclooxygenase II (COX-2) and tumour necrosis factor-α (TNF-α) mRNA levels. Statistical analysis was performed using the analysis of variance (anova). RESULTS When HGFs are co-cultured with S. mitis, β1 integrin intensity, phosphorylated PKC (p-PKC), activated ERK (p-ERK), IkBkB mRNA level and MMP9 expression increased (for all molecules P < 0.05 HGFs versus HGFs co-cultured with S. mitis). A higher level of MMP3 in HGFs treated with TEGDMA was recorded (P < 0.05 HGFs versus HGFs exposed to TEGDMA). COX-2 inflammatory factor mRNA level appeared higher in HGFs exposed to 1 mmol L(-1) TEGDMA (P < 0.01 HGFs versus HGFs exposed to TEGDMA), whereas TNF-α gene expression was higher in HGFs co-cultured with S. mitis (P < 0.05 HGFs versus HGFs co-cultured with S. mitis). CONCLUSIONS β1 integrin triggered the signalling pathway, transduced by p-PKCα and involving ERK 1 and 2 and MMPs. This pathway resulted in an unbalanced equilibrium in tissue remodelling process, along with inflammatory response when HGFs are exposed to bacteria or biomaterial alone. On the contrary, the TEGDMA/S. mitis combination restored the balance between extracellular matrix deposition and degradation and prevented an inflammatory response.

Selective Expression of Galanin in Neuronal-Like Cells of the Human Carotid Body.

The carotid body is a neural-crest-derived organ devoted to respiratory homeostasis through sensing changes in blood oxygen levels. The sensory units are the glomeruli composed of clusters of neuronal-like (type I) cells surrounded by glial-like (type II) cells. During chronic hypoxia, the carotid body shows growth, with increasing neuronal-like cell numbers. We are interested in the signals involved in the mechanisms that underlie such response, because they are not well understood and described. Considering that, in literature, galanin is involved in neurotrophic or neuroprotective role in cell proliferation and is expressed in animal carotid body, we investigated its expression in human. Here, we have shown the expression and localisation of galanin in the human carotid body.

Coexpression of Galanin and Nestin in the Chemoreceptor Cells of the Human Carotid Body

The carotid body is a highly specialized chemoreceptive organ of neural crest origin whose role is to detect changes in arterial oxygen content. The sensory units are the chemoreceptor cells, which are neuronal-like cells, surrounded by sustentacular or glial-like cells. It is suggested that the carotid body contains self-renewing multipotent stem cells, which are putatively represented by glial-like sustentacular cells. The mechanisms of renewal of neuronal-like cells are unclear. Recently, we have demonstrated the expression of galanin, a peptide promoting neurogenesis, in chemoreceptor cells in the human CB. Thus, in the present study we seek to determine whether galanin expression in chemoreceptor cells could be matched with that of nestin, a peptide that is a marker of multipotent neural stem cells, or rather with the glial fibrillary acidic protein (GFAP), a marker for glial cells. The latter would underscore the pluasibly essential role of sustentacular cells in the self-renewal capability of chemorecetors. We found that galanin expression is matched with nestin in chemoreceptor cells of the human carotid body, but not with that of GFAP. Thus, galanin expression in chemoreceptor cells could provide a signal for neurogenesis and chemoreceptor cell differentiation in the carotid body.

In vitro comparison of new bisphosphonic acids and zoledronate effects on human gingival fibroblasts viability, inflammation and matrix turnover.

ObjectivesBisphosphonates (BPs) are drugs clinically used in resorptive diseases. It was already proved that some clinically relevant BPs can inhibit a class of enzymes called matrix metalloproteinases (MMPs), required during tissue remodelling. Combining the arylsulfonamide function with the bisphosphonic group, several compounds were synthesized to obtain selective inhibitors of MMPs. The aim of the present study was to compare the effect of zoledronic acid (ZA), the most potent bisphosphonate available as therapy, with new sulfonamide containing BPs in an in vitro model of human gingival fibroblasts (HGFs).Materials and methodsWestern blot was used to measure procollagen I, β1 integrin MMP-8 and MMP-9, phase contrast and MTT for cell viability; L-lactate-dehydrogenase (LDH) measurement was performed for toxicity evaluation and ELISA for prostaglandin E2 (PGE2) secretion assessment.ResultsWhen compared with ZA, the treatment with the newly synthesized compounds shows increasing viability, procollagen I expression and decreased expression of β1 integrin in HGFs. Higher levels of released LDH, PGE2 and MMP-9 expression are recorded in ZA-treated HGFs. Increased levels of MMP-8 are recorded in newly synthesized compounds-treated samples.ConclusionsThese findings allowed to conclude that new tested BPs did not affect HGFs viability and adhesion, did not induce cellular toxicity, were not responsible for inflammatory event induction and could preserve the physiological matrix turnover.Clinical RelevanceIt could be hypothesized that the new molecules were better tolerated by soft tissues, resulting in lesser side effects.

Escape from cell death through authophagy in Human Gingival Fibroblast/Streptococcus mitis co-culture treated with Chitlac n-Ag

Since ancient times, silver has been extensively used to control infections. Silver based medical products have been proved to be effective in retarding and preventing bacterial infections (Chen et al., 2007). In order to prevent silver nanoparticles aggregation a lactose-modified chitosan was shown to be effective in stabilizing colloidal solutions of silver nanoparticles: “Chitlac-nAg” (Travan et al., 2009). Silver ions and nanoparticle are capable to destroy the bacterial cell wall by reacting with sulfhydryl groups on membrane proteins (Kruszewski et al., 2003). Since the cells are capable of internalizing nanoparticles there is the risk of a massive uptake by eukaryotic cells, which eventually leads to their death through oxidative DNA damage (Li et al. 2013) In the present work we investigated the effects of Chitlac-nAg on primary human gingival fibroblast (HGFs) co-cultured with Streptococcus mitis in the presence of saliva. HGFs were obtained from fragments of healty marginal gingival tissue, co-cultured with the clinical strain of S. mitis and treated for 24-48h with Chitlac or Chitlac-nAg. Cytotoxicity evaluated by LDH assay showed an increment in LDH release in co-culture in the presence of Chitlac n-Ag and saliva. Oxidative stress detected by means of Reactive Oxygen Species formation highlighted an early ROS presence in samples with Chitlac-nAg and saliva, but this value was similar to control after 48h; apoptotic and necrotic cells were detected by means of Annexin V/PI showing an increase in cell death in HGFs treated with Ag and saliva after 24h, and returned to basal levels after 48h; the uptake of nanoparticles by cells was determined by optical and electronic microscopy revealing the Ag uptake in vesicles. The presence of lysosomes and autophagosomes was verified by Lysotracker and by LC3 respectively. In vitro results showed that in our co-culture model, which mimics the microenvironment of the oral cavity, chitlac n-Ag does not exert cytotoxic effect towards HGFs that are able to execute a homeostasis mechanism through autophagy promoting cell survival.

pPKCα mediates integrin β1 induced PGE2 production in a TEGDMA treated HGFs/S. mitis/saliva co-culture system

Among the molecules expressed at plasma membrane level in human gingival fibroblasts (HGFs), integrins, heterodimeric transmembrane proteins able to bind a variey of extracellular ligands as well as intracellular proteins which play an important role in cell signaling, are represented. It was recently demonstrated (di Giacomo et al, 2013) that integrin β1 regulates, through pPKCα HGFs and Streptococcus mitis adhesion in response to hydroxyethil metachrylate, a resin monomer common in bonding materials and resin-enforced glassionomer cements. In the present study we treated HGFs co-cultured with S. mitis, an oral commensal, and saliva with TEGDMA (tetraethyleneglycol dimethacrylate), a common monomer in composite and bonding. The aim of this work is to evaluate interaction occurring between biomaterial, host tissue and microbial environment. The presence of S. mitis and saliva increases integrin β 1 membrane expression, PKCα activation and PGE2 production with a major extent in TEGDMA treated sample. On the other hand, erk activation seems to be downregulated in the same experimental conditions. Since it was recently demonstrated a protective role exerted by S. mitis and saliva on HGFs against biomaterial cytotoxicity, and being demonstrated a physiological role for fibroblasts released PGE2 in other experimental systems (Skibinski et al, 2007), we suggest a non-inflammatoryl role for PGE2 production induced by HGFs/S.mitis and saliva interaction. These results, shedding more light on the biological and molecular events that occur upon TEGDMA treatment in vitro in a co-culture model that mimics the environment of the oral cavity, confirm the key role played by oral environment in HGFs’ response to exogen stimuli.

Effect of HEMA on human gingival fibroblasts / Streptococcus mitis adhesion mediated by PKCα/ integrin β 1 intracellular signaling

Human gingival fibroblasts are the major constituents of periodontal connective tissue, exposed to leachable form of dental restorative materials, such as HEMA, undergoing biological effects as reduction of proliferation, occurrence of apoptosis and inflammation. Integrin β 1 is a protein involved not only in the regulation of cell migration, proliferation , survival, apoptosis and differentiation but also in the adhesion eukaryotic/prokaryotic cells (Engels-Deutsch et al.,2011). Since previous reported evidences suggest PKC α as the main PKC expressed and activated by HEMA in human gingival fibroblasts (Cataldi et al.,2012) the molecular mechanisms mediated by PKCα through integrin β 1 driving the response to HEMA of HGF/Streptococcus mitis co-culture in terms of proliferation, adhesion and apoptosis have been investigated. HEMA treatment increases the adhesion between S. mitis and HGF, mediated by PKCα / integrin β 1 signalling system, improved by the presence of saliva, and reduces the expression of MMP2, involved in the remodelling of the extracellular matrix, which seems to control apoptosis occurrence, mainly reduced when saliva is added to the co- culture. These results, shedding more light on the biological and molecular events occurring in vitro in a co-culture model, which mimics the environment of the oral cavity, upon HEMA treatment, allow to confirm the key role played by oral bacteria and saliva to prevent inflammatory and toxic processes which can occur in vivo in human gingival fibroblasts upon the release of dental material monomers.