Giovanni Mazzotti

Evidence for redifferentiation of human chondrocytes grown on a hyaluronan-based biomaterial (HYAff 11): molecular, immunohistochemical and ultrastructural analysis.

Association of biomaterials with autologous cells can provide a new generation of implantable devices for cartilage repair. Such scaffolds should provide a preformed three-dimensional shape and prevent cells from escaping into the articular cavity. Furthermore, these constructs should have sufficient mechanical strength to facilitate handling in a clinical setting and stimulate the uniform spreading of cells and their phenotype redifferentiation. The aim of this study was to verify the ability of HYAFF 11, a recently developed hyaluronic-acid-based biodegradable polymer, to support the growth of human chondrocytes and to maintain their original phenotype. This capability was assessed by the evaluation of collagen types I, II and aggrecan mRNA expression. Immunohistochemical analyses were also performed to evaluate collagen types I, II and proteoglycans synthesis. A field emission in lens scanning microscopy was utilized to verify the interactions between the cells and the biomaterial. 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 for the therapeutic potential of HYAFF 11 as a delivery vehicle in a tissue-engineered approach towards the repair of articular cartilage defects.

Zymographic Analysis and Characterization of MMP-2 and -9 Forms in Human Sound Dentin

The role and function of dentin matrix metalloproteinases (MMPs) are not well-understood, but they may play a key role in dentinal caries and the degradation of resin-bonded dentin matrices. To test the null hypothesis that MMP-9 is not found in dentin matrix, we used gelatin zymography to extract and isolate all molecular forms of gelatinolytic MMPs in demineralized mature sound dentin powder obtained from extracted human molars, characterizing and identifying the enzymes by Western blotting. Gelatinolytic MMPs were detected in extracts of demineralized dentin matrix and identified as MMP-2 and MMP-9. Acidic extracts (pH 2.3) yielded 3–8 times more MMP activity than did EDTA (pH 7.4). Their activation may contribute to dentin matrix degradation, which occurs during caries progression and following resin bonding. Inhibition of MMP-2 and -9 proteolytic activity may slow caries progression and increase the durability of resin-dentin bonds.

Differential kinetics of propidium iodide uptake in apoptotic and necrotic thymocytes.

Apoptosis and necrosis represent two different mechanisms by which cells die. The dynamics of cellular lesions in these two processes differ. In particular we demonstrate that plasma membrane damage, occurring as a primary event during necrosis represents, on the contrary, a delayed but massive phenomenon during apoptosis. In consequence there are different kinetics of propidium iodide incorporation by necrotic and apoptotic thymocytes. This represents the basis for the flow cytometric identification of different cellular subsets. Analysis of these subsets after sorting showed that clearly apoptotic cells, which are not able to exclude propidium iodide for long incubation periods, do not show any morphologically detectable membrane damage. The kinetics of propidium iodide incorporation in vivo in isolated rat thymocytes can therefore be used in flow cytometric analysis. This technique can be used instead of DNA staining of ethanol-treated cells or nick translation to recognize apoptotic cells, and distinguish apoptosis from necrosis, without killing the cell.

Immunocytochemical detection of phosphatidylinositol 4,5-bisphosphate localization sites within the nucleus.

Phosphatidylinositol 4,5-bisphosphate (PIP2) is a key element of signal transduction, being the preferential substrate of specific phospholipases that produce second messengers such as inositol trisphosphate (IP3) and diacylglycerol (DG). Because PIP2 has been cytochemically identified by monoclonal antibodies not only in the cytoplasmic membranes but also in the nuclear envelope and within the nucleus, we performed a study by immunoblotting and by confocal and electron microscopic immunocytochemistry to identify the nuclear sites of PIP2 localization and to exclude any cross-reactivity of the antibody with other nuclear molecules. The results confirm the specificity of the immunolabeling and indicate that PIP2 is localized at precise intranuclear sites both in in situ and in isolated nuclei. They also show that a significant amount of the phospholipid is retained by the cytoskeleton and by the inner nuclear matrix in in situ matrix preparations. Moreover the sensitivity of the immunocytochemical reaction is capable of detecting quantitative variations of PIP2 nuclear content induced by agonists that modulate the signal transduction system at the nuclear level.

High-resolution Detection of Newly Synthesized DNA by Anti-Bromodeoxyuridine Antibodies Identifies Specific Chromatin Domains'

We analyzed the incorporation of bromodeoxyuridine (BrdUrd) into DNA in exponentially growing murine erythroleukemia cells (FLC-745), using fluorescent anti-BrdUrd antibodies with light microscopy and flow cytometry. The fine localization of the DNA replicating sites was investigated at the ultrastructural level by using a second antibody conjugated with colloidal gold. The latter approach, which does not require acidic denaturation of the DNA, enables preservation of good morphology and obtains a better resolution power than that of electron microscopic autoradiography, the percentage of labeled cells obtained with the two techniques being comparable. After short BrdUrd pulses, characteristic distribution of the labeling can be identified in the heterochromatin, in interchromatin domains, or at the boundary between the dispersed and the condensed chromatin. Similar patterns are also observable in the nuclear structures which condense after acid denaturation, suggesting that DNA replication takes place at fixed sites associated with the nuclear matrix.

Immunohistochemical and biochemical assay of MMP-3 in human dentine

OBJECTIVE The function of endogenous MMP-3 and its distribution within the human dentine is unclear. Thus, the aim of the present study was to assay the presence and distribution of MMP-3 within human sound dentine by means of biochemical and immunohistochemical assays. METHODS Powdered dentine from extracted human teeth was prepared and (1) partially demineralised with 1% H(3)PO(4) for 10min or (2) untreated (control). The presence of MMP-3 was measured using a colorimetric assay system (QuantiSir™, Epigentek, USA). Additional cryo-fractured dentine fragments were processed for immunohistochemical identification of MMP-3 under FEI-SEM. Casein-zymography was used to investigate MMP-3 activity. RESULTS MMP-3 detected level was 2.732ng/μL in partially demineralised dentine powder, whilst it increased to 3.280ng/μL in mineralised dentine. The FEI-SEM analysis revealed positive immunolabelling patterns for MMP-3, predominantly localized on the intertubular collagen fibrillar network showing MMP-3 directly or indirectly bound to the collagen fibrils. Casein-zymograms showed positive proteolytic activity for MMP-3 in demineralised dentine powder. CONCLUSION The results of the study clearly revealed the presence and distribution of MMP3 in human sound dentine. Whilst the presence was verified, its role is still unclear. Future studies are needed to investigate the possible involvement of MMP-3 in physiological and pathological condition of the dentine-pulp complex.

Push‐out stress for fibre posts luted using different adhesive strategies

The influence of thermocycling on the bond strength of fibre posts cemented with different luting approaches was investigated. A total of 84 human incisors were selected for the study. Sixty teeth were assigned to one of the following adhesive/cement combinations for push-out bond-strength evaluation: group 1, XP Bond/CoreXFlow + DT Light-Post; group 2, Panavia F 2.0 + Tech 21; or group 3, RelyX Unicem + RelyX. Bonded specimens were cut into 1-mm-thick slabs and either thermocycled (40,000 cycles) or stored in artificial saliva (control specimens) before push-out bond-strength testing. Additional specimens were processed for quantitative interfacial nanoleakage analysis. Thermocycling decreased the bond strength in specimens of groups 2 and 3, but did not affect the specimens from group 1. No difference was observed among luting approaches in control specimens. Thermocycling resulted in increased silver nitrate deposition (i.e. interfacial nanoleakage) in all groups. Within the limitations of the study, the use of an etch-and-rinse adhesive in combination with a dual-cure cement to lute fiber posts is the most stable luting procedure if compared with a self-etch resin-based cement or a self-adhesive cement, as assayed by thermocycling of the bonded specimens.

Nuclear matrix-bound replicational sites detected in situ by 5-bromodeoxyuridine

SummaryThe nuclear matrix was prepared in situ from Swiss 3T3 cells, which were synchronized by contact inhibition and serum starvation and pulse-labelled for very short periods of time with 5-bromodeoxyuridine (5-BrdU). For the first time 5-BrdU has been employed to demonstrate the association of newly synthesized DNA with a nucleoskeleton. Immunofluorescence analysis using a monoclonal antibody to 5-BrdU revealed five different intranuclear staining patterns at different stages of the S phase. These patterns were observed also in intact cells and did not change during the matrix preparation steps which involve extraction with 2M NaCl and DNase I digestion. Such an observation was also confirmed by spatial confocal microscopy studies. The intensity of lfuorescence, which was evaluated by cytofluorometry, increased to reach a maximum during mid-S phase and then decreased. Because no significant difference was found in the time to label residual DNA of different 5-BrdU staining patterns, this strongly suggests that a different number of replicons is activated at different stages of the S phase. These results strengthen the hypothesis that eukaryotic DNA replication occurs in close association with an insoluble protein nuclear skeleton, which determines the three-dimensional spatial organization of chromosome duplication.

Involvement of nuclear PLCβ1 in lamin B1 phosphorylation and G2/M cell cycle progression

Inositide‐specific phospholipase Cβ1 (PLCβ1) signaling in cell proliferation has been investigated thoroughly in the G1 cell cycle phase. However, little is known about its involvement in G2/M progression. We used murine erythroleukemia cells to investigate the role of PLCβ1 in G2/M cell cycle progression and screened a number of candidate intermediate players, particularly mitogen‐activated protein kinase (MAPK) and protein kinase C (PKC), which can, potentially, transduce serum mitogenic stimulus and induce lamin B1 phosphorylation, leading to G2/M progression. We report that PLCβ1 colocalizes and physically interacts with lamin B1. Studies of the effects of inhibitors and selective si‐RNA mediated silencing showed a role of JNK, PKCα, PKCβI, and the β1 isoform of PI‐PLC in cell accumulation in G2/M [as observed by fluorescence‐activated cell sorter (FACS)]. To shed light on the mechanism, we considered that the final signaling target was lamin B1 phosphorylation. When JNK, PKCα,orPLCβ1 were silenced, lamin B1 exhibited a lower extent of phosphorylation, as compared to control. The salient features to emerge from these studies are a common pathway in which JNK is likely to represent a link between mitogenic stimulus and activation of PLCβ1, and, foremost, the finding that the PLCβ1‐mediated pathway represents a functional nuclear inositide signaling in the G2/M transition.— Fiume, R., Ramazzotti, G., Teti, G., Chiarini, F., Faenza, I., Mazzotti, G., Billi, A. M., Cocco, L., Involvement of nuclear PLCβl in lamin B1 phosphorylation and G2/M cell cycle progression. FASEB J. 23, 957–966 (2009)

Effects of HEMA on type I collagen protein in human gingival fibroblasts

The cytotoxicity of dental composites has been attributed to the release of residual monomers from polymerized adhesive systems due to degradation processes or the incomplete polymerization of materials. 2-Hydroxyethyl methacrylate (HEMA) is one of the major components released from dental adhesives. Cytotoxic effects due to high concentrations of HEMA have already been investigated, but the influence of minor toxic concentrations on specific proteins such as type I collagen has not been studied in depth. The objective of this project was to study the effect of minor toxic concentrations of HEMA on human gingival fibroblasts (HGFs), investigating modification in cell morphology, cell viability, and the influence on type I collagen protein. Primary lines of human gingival fibroblasts were exposed to 3 mmol/L HEMA for different periods of time (24 h, 72 h, 96 h). The cell vitality was determined by MTT assay, and high-resolution scanning electron microscopy analysis was performed to evaluate differences in cell morphology before and after treatment. The presence and localization of type I collagen was determined by immunofluorescence in HGFs treated with HEMA for the same period of time. The vitality of the cells decreased after 72 h of exposure. The HGFs grown in monolayer and observed by field emission in-lens scanning electron microscopy demonstrated a preserved surface morphology after 24 h of treatment, while they showed an altered morphology after 96 h of treatment. Immunofluorescence demonstrated a reduction of type I collagen due to HEMA exposure after 96 h. From these results, we conclude that low concentrations of HEMA can significantly alter the morphology of human gingival fibroblasts and interfere with the presence of type I collagen protein.