Implant-supported anterior tooth restoration.

Various options are available for restoring anterior teeth. Their choice is dictated by the severity of infection of the teeth to be extracted and the pocket depth. Immediate single-stage implant placement proved to be the least traumatic option, which best preserved the soft tissue. A differential use of surgical and prosthodontic techniques is indispensable to account for conditions in the individual case. Given an adequate amount of hard tissue, soft tissue contours can be expected to return to normal. Immediate implants combined with a soft tissue support have been found to ensure that the depth of even larger pockets is stable for years.

Differently bound copper(I) in yeast Cu8-thionein.

The reactivity of yeast Cu-thionein in the presence of the Cu(I)-chelators, bathocuproinesulphonate and cuproine, was examined to distinguish between possible differently coordinated Cu(I). Electronic absorption measurements revealed that two out of eight coppers of the protein reacted within seconds with the chelator. At the same time, the shape and magnitude of the characteristic Cotton bands attributable to the Cu(I)-thiolate chromophores remained constant. Due to the successful removal of circular dichroic silent copper, all specific theta Cu values rose by 53% of the original value. Thus, it is strongly suggested that two or more distinct types of Cu(I) ought to be present in Cu8-thionein. In the light of the many different Cu/cysteine ratios of Cu-thioneins from vertebrate and microbial origin, possible interconversion reactions of the Cu(I)-thiolate centres seem to be likely.

Copper-thionein from fetal bovine liver.

It was of interest to examine whether or not a low molecular weight copper-rich metal-thionein was present in biological species which received no metal pretreatment at all. From bovine fetal liver an 8 Cu 2 Zn-thionein having a molecular weight of 11 500 was successfully isolated. 16% of the total copper present in the whole liver were recovered in this protein. During the isolation process anaerobic conditions had to be maintained to avoid uncontrolled oxidation leading to polymeric species and the loss of most of the copper. The similarity of both the present copper-thionein and the polymeric neonatal type mitochondrocuprein was shown. A comparison of different copper-thioneins containing variable amounts of copper was possible when xiCu from 280 nm to longer wavelength was determined. With respect to the ultraviolet properties there were no detectable differences between copper-thioneins prepared either in vivo or in vitro and the fetal copper-thionein. Furthermore, the positions of the Cotton effects as deduced from circular dichroism measurements were rather similar although the magnitude of the observed Cotton extrema was less pronounced and sometimes the signs were reversed. X-ray photoelectron spectrometric studies revealed a Cu(2p3/2) binding energy value of 932.9 eV. Unlike the S(2p1/2,3/2) value near 162 eV using Cu-thioneins from chicken liver or yeast the higher S(20p1/2,3/2) binding energy of 163.0 eV employing fetal Cu-thionein was attributed to partial oxidation of the protein moiety and/or a particular chemical environment. The second S(2p1/2,3/2) peak was assigned to the copper catalyzed oxidation of sulphur via OH to yield RSO-3. In the X-ray photoelectron spectrum of the apoprotein one homogeneous S(2p1/2,3/2) band at 163.7 eV was seen attributable to RSSR.

Transient thiyl radicals in yeast copper(I) thionein.

In an EPR study employing yeast copper(I) thionein, GSH and Cu-GSH it was shown that thiyl radicals could be successfully generated from the thiolate sulfur via oxidation by photochemically formed superoxide at 77 K. The g-value was 2.036. Essentially no EPR detectable copper(II) was monitored under the experimental conditions, indicating that the oxidation reduction process is restricted to the thiolate sulfur. The Cu(I)-thiolate chromophores remained fully intact as deduced from chiroptical and luminescence measurements. Thus, copper thionein is supposed to be actively involved in the scavenging of oxygen free radicals by a reversible thiolate oxidation reduction cycle. The coordinated Cu(I) seems to serve as a prominent candidate to stabilize the transiently formed thiyl radical.

Oxidation-reduction reactions of copper-thiolate centres in Cu-thionein.

Cu-thionein from yeast was investigated by EPR spectroscopy to probe the oxidation state of copper, and the effects on it of oxidizing and reducing agents. At pH 0.2 the copper was released, but no EPR signal from Cu(II) was observed, unless air was present. Optical experiments did not detect any disulphide groups which might have been formed during anaerobic release of copper. The mercurial, p-hydroxymercuribenzoate caused the release of EPR-detectable copper only under aerobic conditions, and EDTA caused release of Cu(II) on heating. No reduction of the copper-thiolate units in Cu-thionein by ascorbate was detected. Potentiometric titrations with hexachloroiridate(IV) or hexacyanoferrate(III) produced several different Cu(II) EPR signals at various stages of oxidation. The former oxidizing agent required a lower oxidation-reduction potential (+350 mV) to oxidize the copper, than the latter (+410 mV) and neither titration was fully reversible. The EPR signal from Cu(II) oxidized by hexachloroiridate(IV) resembled that produced by p-hydroxy-mercuribenzoate in air, suggesting that the copper was released from its thiolate ligands. It is concluded that the EPR non-detectable copper in the native protein is Cu(I). Oxidation-reduction of the copper-thiolate clusters of Cu-thionein is proposed to be decisive for controlling storage and transport of cellular copper.

Copper-thionein in melanoma.

The phenomenon of an elevated copper concentration in melanoma tumors was examined. It was demonstrated that 50-60% of total tissue copper is associated with metallothionein. The amino acid composition, electronic absorption and fluorescence were identical to that of the many known vertebrate Cu-thioneins. The immunological identification of melanoma tissue metallothionein was successful. The elevated Cu-thionein concentration in melanoma tumor tissue is not yet understood. It appears to be a common concept that in most tumors transient changes of the copper status parallel the metallothionein levels.

A pulse radiolytic study on the reaction of hydroxyl and superoxide radicals with yeast Cu(I)-thionein.

In a pulse radiolytic study employing aqueous intact yeast copper(I)-thionein at pH 7 it was shown that both superoxide and hydroxyl radicals efficiently react with this Cu(I)- and thiolate-rich protein. The reaction constant of hydroxyl radicals with Cu(I)-thionein was determined by competition kinetics and was 2.2 x 10(11) M-1 s-1 at a rate close to a diffusion-controlled limit. The reaction of Cu(I)-thionein with superoxide was also successful and proceeded at a rate of 7.5 x 10(6) M-1 s-1. According to chiroptical and luminescence emission measurements minor oxidation of the copper(I)-thiolate oligonuclear binding centres was observed, leading to the release of some Cu(II). It is important to realise the dual reactivity of this yeast Cu(I)-thiolate protein in controlling copper transport and storage as well as its distinct role in the scavenging of free radicals.

The role of Cu(I)-thiolate clusters during the proteolysis of Cu-thionein.

Rat liver Cu,Zn-[35S]thionein and yeast Cu-thionein were subjected to proteolysis in vitro using equilibrium dialysis. The partially copper-loaded vertebrate thionein (2-7 Cu/mol) was affected by different proteases including thermolysin, proteinase K, protease from Streptomyces griseus and lysosomal enzymes. Unlike the 2Cu-thionein the respective 7Cu-thiolate-centred metallothionein was hardly proteolytically digested. In contrast to fully copper-loaded native yeast Cu-thionein both the H2O2-oxidized and the metal-free protein were effectively cleaved in the presence of proteinase K. It is important to realize that the native Cu(I)-thiolate chromophore survives the proteolytic attack. When the copper-sulphur bonding is broken and the same amount of copper is unspecifically bound to the thionein portion, proteolysis proceeds identically with respect to the rate observed in the presence of the apoprotein. The unsuccessful proteolysis of native Cu-thionein is not attributable to a simple copper-dependent inhibition of the proteinases. It is suggested that prior to proteolysis the copper-sulphur clusters must be destroyed.

Reconstitution of stellacyanin as a case of direct Cu(I) transfer between yeast copper thionein and 'blue' copper apoprotein.

It was of interest to examine whether yeast Cu-thionein could be used to transfer the thiolate bound copper directly into the copper binding site of 'blue' apoproteins which contain free thiol groups. In particular apo-stellacyanin was used in the present study and it was found to be able to accept Cu(I) from yeast Cu-thionein, without any detectable unspecific Cu(II) intermediate, both aerobically and anaerobically.

Monoclonal antibodies to monomeric rat liver metallothionein-I: the immunoreactivity of lysine residues in metallothionein.

Regardless of the weak immunological response against the low-Mr metallothioneins (MTs) the production of murine monoclonal antibodies (mAbs) to monomeric rat liver MT-I was successful. ELISA revealed two groups of mAbs which exhibited different specificities as examined on the native and the lysine-residue modified antigen (Ag). One "lysine-directed mAb" group, consisting of three mAbs, exhibited a specific immunoreactivity with the lysine-containing epitopes of MTs. Their role in the antigenicity of MTs was examined by modifying these residues using glutaraldehyde (GA). Titration with GA resulted in a progressive decline in Ag recognition in the immunoblot; this was completely leveled off when equimolar concentrations were reached. A similar response employing the GA-modified protein in the ELISA was noticed. The second group of mAb cross-reacted with various MTs of different origin, indicating that the common, lysine-free NH2-terminus is exclusively recognized. In direct ELISA of cross-linked MTs, the observed reactivities were much more pronounced. Iodoacetamide (IA) modification of the lysines confirmed the above observations of the GA-derived Ag. Notably, the immunoreactivity was not affected when the cysteine residues were IA-carboxymethylated, nor did the subsequent loss of metals diminish the immunological response in the immunoblot.

Acquisition of blood--tissue barrier--supporting features by hepatic stellate cells and astrocytes of myofibroblastic phenotype. Inverse dynamics of metallothionein and glial fibrillary acidic protein expression.

A number of similarities between astrocytes and hepatic stellate cells (HSC) rose the question whether or not the protective barrier features of blood-tissue interface may be provided by HSC as well. To test this hypothesis, we investigated the presence of metallothionein (MT), a functional marker of blood--brain barrier, in HSC in situ and in cell culture and compared the results with those obtained with astrocytes. The dynamics of MT expression in cultured astrocytes and HSC was investigated by simultaneous labelling of the cells with a monoclonal antibody (MAb MT) against a lysine-containing epitope of the cadmium-induced monomer of MT-I from rat liver and antiserum against glial fibrillary acidic protein (GFAP). Cell activation was estimated by the presence of smooth muscle alpha-actin (SMAA). In immunoblotting, MAb MT recognized monomeric MT protein and proteins in the 30-kDa range; both bands were pronounced in brain and barely visible in liver homogenates. In situ, MAb MT reacted with very few perivascular cells situated in the parenchyma of the liver. Double immunolabelling of brain slices with MAb MT and antiserum against GFAP showed large areas of brain containing cells expressing both MT and GFAP. However, there were also regions in the brain where the cells produced solely GFAP or MT. In liver cell culture, MT was absent from HSC and hepatocytes in early periods of cultivation, during which the cells maintained their original features; however, MT was expressed strongly in HSC during their activation under prolonged culture conditions. Inversely, in astrocytes MT was expressed during early culturing and disappeared from the cells together with SMAA in late culture when GFAP was upregulated. These results suggest that the acquisition of myofibroblastic features by perivascular cells empowers them to establish a protective blood-tissue permeability barrier. In addition, this study shows that, at least in cell culture, an enrichment of perivascular cells in GFAP results in the disappearance of protective functions.

Copper dependent control of the enzymic and phagocyte induced degradation of some biopolymers, a possible link to systemic inflammation.

The role of copper during inflammation is unknown. An attempt was made to examine the reactivity of copper on the oxygen free radical induced depolymerization of hyaluronic acid and synovial fluid. Thionein-copper and CuSO4 at 2 mumol/l concentrations inhibited the degradation of this biopolymer successfully. Translation of the enzymically generated excited oxygen species onto a cellular level was performed. Activated PMN cells were used to decompose hyaluronic acid in the presence of CuSO4, Cu-thionein and ceruloplasmin not exceeding physiological levels. All employed copper compounds inhibited the depolymerizing process. Furthermore, PMN cell induced bleaching of cytochrome c was also affected in the presence of both CuSO4 and thionein-copper.

Stable thiyl radicals in dried yeast Cu(I)6-thionein.

It was of interest to obtain long-lived thiyl radicals embedded in organic matrices. Solid thiol compounds including penicillamine, glutathione, and cysteine were UV irradiated under anaerobic conditions at 293 K for 60 min. The formed radicals were identified by electron paramagnetic resonance (EPR) (g = 2.0265 +/- 0.0015) at 293 K as thiyl radicals. The blue-colored radical species were subjected to reflection spectrometry (lambda max = 601 +/- 3 nm). The color and the EPR signal remained unchanged for six months. At the same time, the UV irradiation of lyophilisized yeast Cu(I)6-thionein generated stable EPR detectable thiyl was seen when the Cu(I)-thiolate was used. No EPR detectable thiyl radicals radicals at a g-value of 2.026 +/- 0.001. Unlike irradiated cysteine, a five times higher concentration of thiyl radicals were measured in the Cu(I)-thiolates of penicillamine, glutathione, and thiophenole, indicating that the hexanuclear copper arrangement in Cu(I)-thionein is most suitable for both the formation and stabilization of this sulfur radical species.

Antiinflammatory reactivity of copper(I)-thionein.

In unseparated human blood the reactivity of yeast copper (I)-thionein on TPA-activated polymorphonuclear leukocytes was evaluated and compared with low Mr copper chelates exerting Cu2Zn2 superoxide dismutase mimetic activity. Cu, 18 microM, in the form of Cu-thionein was sufficient to inhibit the superoxide production of activated human blood phagocytes by 50%. Furthermore, the scavenging of hydroxyl radicals and singlet oxygen by Cu(I)-thionein was determined, using the 2-deoxyribose fragmentation assay induced by decaying K3CrO8 and the NADPH oxidation caused by UVA illuminated psoralen, respectively. The inhibitory reactivity of Cu-thionein in both assays was compared with that of serum proteins including albumin, ceruloplasmin, transferrin, and ferritin. The galactosamine/endotoxin-induced hepatitis in male NMRI mice was used to evaluate the antiinflammatory reactivity of Cu-thionein in vivo. The serum copper, superoxide dismutase, and sorbitol dehydrogenase concentrations, as well as the activity of polymorphonuclear leukocytes in unseparated blood seemed most appropriate to quantify the protective capacity of Cu-thionein in the course of an oxidative stress-dependent liver injury. The intraperitoneal application of 32.5 mumols/kg thionein-Cu limited this damage to 45%.

Reactivity of active center analogs of Cu2Zn2 superoxide dismutase on activated polymorphonuclear leukocytes.

In unseparated human blood the Cu2Zn2 superoxide dismutase mimetic reactivity of several differently coordinated low Mr copper chelates on TPA-activated polymorphonuclear leukocytes was evaluated and compared to their apo-chelates, CuSO4, and the native enzyme. Similar to intact superoxide dismutase, 350-400 nM Cu flexibly complexed in a di-Schiff base mode in CuPu(Py)2 and CuPu(Im)2, respectively, was sufficient to inhibit the oxidative burst-dependent superoxide production of human blood phagocytes by 50%. Acetate- or biuret-type copper chelates behaved like CuSO4. The catalytic superoxide dismuting reactivity of the di-Schiff base active center analogs of SOD was confirmed using isolated porcine PMNs. Even in the presence of 600 microM albumin as a model for competitive copper chelation in biological fluids CuPu(Py)2 and CuPu(Im)2 remained active. The stability during the Cu(I)/Cu(II) redox cycling was demonstrated in the presence of activated PMNs and albumin, taking advantage of the electron paramagnetic properties of CuPu(Py)2 and CuPu(Im)2.

Short-term variations of the abundance and biomass of planktonic ciliates in a eutrophic lake.

Short-time spatio-temporal variations of planktonic ciliates in a eutrophic lake were examined for evidence of diel vertical migration in relation to food supply (bacteria, nanoplankton, and detritus) and physico-chemical parameters. Two campaigns were conducted during successive summers in Lake Aydat, France. Ciliates were less abundant during the first campaign (July 1988; global means 1500 cells/1 and 61.0 µgC/l) than during the second (July 1989; 5000 cells/l; 110.8 µgC/l). On both dates, ciliate abundance decreased from surface to depth, while biomass increased. Each layer (epilimnion, metalimnion, hypolimnion) was inhabited by a separate ciliate community, generally dominated by bacterivores/detritivores. There was no clear evidence of vertical migrations across major physical-chemical boundaries. Circadian variations in each layer occurred independently of light-dark rhythms, partly due to micropatchiness. Temporal variability increased from the vertically mixed epilimnion (C.V. = 32%-41%) to the well stratified deeper zones (C.V. = 41%-100%). Ciliate biomass was negatively and significantly correlated to temperature and dissolved oxygen, and to most principal food parameters. The vertical differences in ciliate biomass were linked to the long-term (seasonal) evolution of the lake system (correlations with temperature, oxygen) and its larger-sized food resources (correlations with chlorophyll, nanoplankton, detritus). By contrast, circadian variations of ciliates were linked to availability of bacteria, an important food resource for many ciliate species of this study.

Evidence for the contribution of ciliates to denitrification in a eutrophic lake.

High levels of nitrate reductase (NR) activity were found during a field survey in the epilimnion and metalimnion of a temperate lake (Lake Aydat, France) during summer stratification, when nitrates were analytically undetectable (< 0.5 mg L(-1)). We hypothesized that the NR activities were due to phytoplankton in the epilimnion, due to the ciliate Loxodes at the mid-depth oxic/anoxic interface and preferentially due to bacteria in the anoxic hypolimnion of the lake. In support of the hypothesis, a significant negative correlation was detected in the metalimnion between the abundance of Loxodes and nitrate concentrations, indicating nitrate use by the ciliate, and significant positive correlations were found between bacteria and nitrite concentrations at depth. The correlations are corroborated by additional evidence from chlorophyll a/NRA ratios, nitrite dynamics, and lake circulation patterns. Other ciliates besides Loxodes did not appear to significantly contribute to NRA potential. The data suggest that facultatively anaerobic ciliates such as Loxodes may be significant contributors to denitrification in eutrophic planktonic ecosystems.

Zn2Mg alkaline phosphatase in an early ptolemeic mummy.

Bone samples of a ptolemeic mummy have been employed to study the mode of conservation on the intactness of Zn2Mg alkaline phosphatase in both structure and catalytic activity. A protein of M(r) = 190 +/- 10 kDa being identical to the 200 kDa enzyme of fresh human bones was successfully isolated. Regardless of age 200 kDa protein bands and a distinct subunit at 60 kDa were seen in SDS-PAGE electrophoresis. The 200 kDa band was also monitored by activity staining. The specific activity was 120 mU/mg and 65% of the respective activity obtained in the identical preparation using fresh human tibia or rib. The enzymic activity was inhibited in the presence of 1,10-phenanthroline and L-homoarginine. Radiocarbon dating supported the assignment of the mummy to the early ptolemeic period. Among the many bactericidal and fungicidal components employed for mummification were aromatic alcohols, mono- and sesquiterpenes. Pistachio resin was the major balm resin used. The microbiological sterility of the bone surface was ascertained by independent bacterial and fungal examinations.