Grafting onto wool: 9. Alpha and beta forms in keratin-polymer system

Various vinyl monomers, methyl methacrylate, methyl acrylate, ethyl acrylate, butyl acrylate, styrene, acrylonitrile, 4-vinyl pyridine, and 2-hydroxyethyl methacrylate were graft-copolymerized onto Lincoln wool fibres. The - and β-X-ray intensities diffracted from the native and the grafted fibres were analysed quantitatively. by grafting with hydrophobic monomers, the amount of the -crystallites falls to about one-half of the initial value, but the decrease in -content is considerably less with hydrophilic monomers. On the other hand, in the grafted wool containing the latter monomers, the production of the β-materials is more less constrained throughout the fibre extension. Results show that the production of the β-materials does not directly correlate with the content of the -materials remaining in the grafted fibres, and that little possibility exists for the production of the β-cystals from the partly disrupted chains of the -crystallites resulting from the deposition of polymer.     

Tumor suppression by RNA from C/EBPβ 3'UTR through the inhibition of protein kinase Cε activity

Background

Since the end of last century, RNAs from the 3′untranslated region (3′UTR) of several eukaryotic mRNAs have been found to exert tumor suppression activity when introduced into malignant cells independent of their whole mRNAs. In this study, we sought to determine the molecular mechanism of the tumor suppression activity of a short RNA from 3′UTR of C/EBPβ mRΝΑ (C/EBPβ 3′UTR RNA) in human hepatocarcinoma cells SMMC-7721.

Methodology/Principal Findings

By using Western blotting, immunocytochemistry, molecular beacon, confocal microscopy, protein kinase inhibitors and in vitro kinase assays, we found that, in the C/EBPβ 3′UTR-transfectant cells of SMMC-7721, the overexpressed C/EBPβ 3′UTR RNA induced reorganization of keratin 18 by binding to this keratin; that the C/EBPβ 3′UTR RNA also reduced phosphorylation and expression of keratin 18; and that the enzyme responsible for phosphorylating keratin 18 is protein kinase Cε. We then found that the C/EBPβ 3′UTR RNA directly inhibited the phosphorylating activity of protein kinase Cε; and that C/EBPβ 3′UTR RNA specifically bound with the protein kinase Cε-keratin 18 conjugate.

Conclusion/Significance

Together, these facts suggest that the tumor suppression in SMMC-7721 by C/EBPβ 3′UTR RNA is due to the inhibition of protein kinase Cε activity through direct physical interaction between C/EBPβ 3′UTR RNA and protein kinase Cε. These facts indicate that the 3′UTR of some eukaryotic mRNAs may function as regulators for genes other than their own.     

L-type Ca2+ channel function is linked to dystrophin expression in mammalian muscle

Background

In dystrophic mdx skeletal muscle, aberrant Ca²⁺ homeostasis and fibre degeneration are found. The absence of dystrophin in models of Duchenne muscular dystrophy (DMD) has been connected to altered ion channel properties e.g. impaired L-type Ca²⁺ currents. In regenerating mdx muscle, ‘revertant’ fibres restore dystrophin expression. Their functionality involving DHPR-Ca²⁺-channels is elusive.

Methods and Results

We developed a novel ‘in-situ’ confocal immuno-fluorescence and imaging technique that allows, for the first time, quantitative subcellular dystrophin-DHPR colocalization in individual, non-fixed, muscle fibres. Tubular DHPR signals alternated with second harmonic generation signals originating from myosin. Dystrophin-DHPR colocalization was substantial in wt fibres, but diminished in most mdx fibres. Mini-dystrophin (MinD) expressing fibres successfully restored colocalization. Interestingly, in some aged mdx fibres, colocalization was similar to wt fibres. Most mdx fibres showed very weak membrane dystrophin staining and were classified ‘mdx-like’. Some mdx fibres, however, had strong ‘wt-like’ dystrophin signals and were identified as ‘revertants’. Split mdx fibres were mostly ‘mdx-like’ and are not generally ‘revertants’. Correlations between membrane dystrophin and DHPR colocalization suggest a restored putative link in ‘revertants’. Using the two-micro-electrode-voltage clamp technique, Ca²⁺-current amplitudes (i_max) showed very similar behaviours: reduced amplitudes in most aged mdx fibres (as seen exclusively in young mdx mice) and a few mdx fibres, most likely ‘revertants’, with amplitudes similar to wt or MinD fibres. Ca²⁺ current activation curves were similar in ‘wt-like’ and ‘mdx-like’ aged mdx fibres and are not the cause for the differences in current amplitudes. i_max amplitudes were fully restored in MinD fibres.

Conclusions

We present evidence for a direct/indirect DHPR-dystrophin interaction present in wt, MinD and ‘revertant’ mdx fibres but absent in remaining mdx fibres. Our imaging technique reliably detects single isolated ‘revertant’ fibres that could be used for subsequent physiological experiments to study mechanisms and therapy concepts in DMD.     

No difference in keratin thickness between inner and outer foreskins from elective male circumcisions in Rakai, Uganda

It has been hypothesized that increased HIV acquisition in uncircumcised men may relate to a more thinly keratinized inner foreskin. However, published data are contradictory and potentially confounded by medical indications for circumcision. We tested the hypothesis that the inner foreskin was more thinly keratinized than the outer foreskin using tissues from 19 healthy, HIV-uninfected men undergoing routine prophylactic circumcision in Rakai, Uganda. Sections from 3 foreskin anatomic sites (inner, outer, and frenar band) were snap-frozen separately. Two independent laboratories each separately stained, imaged, and measured keratin thicknesses in a blinded fashion. There was no significant difference in keratin thickness between the inner (mean = 14.67±7.48 µm) and outer (mean = 13.30±8.49 µm) foreskin, or between the inner foreskin and the frenar band (mean = 16.91±12.42 µm). While the frenar band showed the greatest intra-individual heterogeneity in keratin thickness, there was substantial inter-individual variation seen in all regions. Measurements made by the two laboratories showed high correlation (r = 0.741, 95% CI, 0.533–0.864). We conclude that, despite inter- and intra-individual variability, keratin thickness was similar in the inner and outer foreskin of healthy Ugandan men, and that reduced keratin thickness is not likely to make the inner foreskin more susceptible to HIV acquisition.     

X-ray diffraction analysis of internal wool lipids

Polarised optical microscopy (POM) and X-ray diffraction techniques were applied to intercellular lipids extracted from wool to study their structural arrangement in order to determine their role in the diffusion properties of wool fibre. Intercellular wool lipids (IWL) arranged as concentrated liposomes were shown to be a good intercellular lipid model, allowing their study by X-ray diffraction techniques. The results confirm that intercellular lipids of wool fibre are organised in a lamellar structure of 5.0–8.0 nm width, termed β-layer, which had been assumed to be lipids arranged as a bilayer. Structurally, internal wool lipids are distributed at least in two domains at low temperatures: an ordered phase made up of ceramides and free fatty acids (FFA) alone, arranged in crystal orthorhombic states separately, and a liquid crystal state when mixed together. At 40 °C there is a reversible phase transition produced by the melt of the crystal orthorhombic states, whereas the liquid crystal state remains until 65 °C.     

Incorporation of the antibacterial agent, miconazole nitrate into a cellulosic fabric grafted with β-cyclodextrin

The aim of the study was to investigate the incorporation of the antibacterial agent, miconazole nitrate into cyclodextrin cavities covalently bonded onto cloth fibers. The cellulosic fabric was grafted with β-cyclodextrin molecules through reaction with monochlorotriaziny β-cyclodextrin (MCT-β-CD). The suitable bonded reaction conditions were found to be MCT-β-CD 60–100 g/L, catalyst Na₂CO₃ 50–60 g/L, the reaction temperature 150–160 °C and the reaction time 5–8 min.

The modified and unmodified fabrics were characterized by UV spectrophotometry. The level of miconazole nitrate entrapped in the fabrics were determined by HPLC and was founded to be much higher (0.458% w/w) for the textile functionalized with MCT-β-CD compared to the unmodified fabric (0.056% w/w). The antibacterial abilities measured by shaker flask method showed that the antibacterial property was markedly enhanced by impregnation with miconazole nitrate of the MCT-β-CD grafted textile. The finished fabric kept the antibacterial abilities more than 70% even after washing 10 times, while the antibacterial activity of the unmodified textile was almost lost.     

Kinetics of Photobleaching of β-Carotene in Chloroform and Formation of Transient Carotenoid Species Absorbing in the Near Infrared

Upon laser flash photolysis of β-carotene in chloroform instantaneous bleaching of β-carotene and concomitant formation of near infrared absorbing species are observed. One species, absorbing with maximum at 920 nm, is formed during the laser pulse (10 ns) and is practically gone in one millisecond, the decay showing a bi-exponential behaviour. The second species, absorbing with maximum at 1000 nm, is formed from the species absorbing at 920 nm by first order kinetics with a rate constant of 4.9·10⁴ s^-1 at 20°C. This second species decays by second order kinetics and is gone within a few milliseconds. An additional slow bleaching of β-carotene and formation of the species absorbing at 920 nm is observed. This slow bleaching/formation of transient absorption is probably due to processes involving free radicals generated during the instantaneous bleaching. The species absorbing at 920 nm is suggested to be either (i) a free radical adduct formed from β-carotene and chloroform or (ii) β-carotene after abstraction of a hydrogen atom. The species absorbing at 1000 nm is most likely the radical cation. Formation and decay of the near infrared absorbing species and bleaching of β-carotene are independent of whether oxygen is present or absent in the solutions.     

Kinetics of Parallel Electron Transfer from β-Carotene to Phenoxyl Radical and Adduct Formation Between Phenoxyl Radical and β-Carotene

Phenoxyl radicals generated by laser flash photolysis were found to react with β-carotene with concomitant β-carotene bleaching in two parallel reactions with similar rates: (i) formation of a β-carotene adduct with a (pseudo) first order rate constant of 1-1.5 ± 10⁴ s^-1 with absorption maximum around 800 nm, and (ii) formation of a β-carotene radical cation with a (pseudo) first order rate constant of 2-3 ± 10⁴ s^-1 with absorption maximum around 920 nm. Both β-carotene radicals decay on a similar time scale and have virtually disappeared after 100 ms, the β-carotene adduct by a second order process. Oxygen had no effect on β-carotene bleaching or radical formation and decay. The reduction of phenoxyl radicals by β-carotene may prove important for an understanding of how β-carotene acts as an antioxidant.     

Phosphoinositide 3-Kinase C2�� Regulates RhoA and the Actin Cytoskeleton through an Interaction with Dbl

The regulation of cell morphology is a dynamic process under the control of multiple protein complexes acting in a coordinated manner. Phosphoinositide 3-kinases (PI3K) and their lipid products are widely involved in cytoskeletal regulation by interacting with proteins regulating RhoGTPases. Class II PI3K isoforms have been implicated in the regulation of the actin cytoskeleton, although their exact role and mechanism of action remain to be established. In this report, we have identified Dbl, a Rho family guanine nucleotide exchange factor (RhoGEF) as an interaction partner of PI3KC2β. Dbl was co-immunoprecipitated with PI3KC2β in NIH3T3 cells and cancer cell lines. Over-expression of Class II phosphoinositide 3-kinase PI3KC2β in NIH3T3 fibroblasts led to increased stress fibres formation and cell spreading. Accordingly, we found high basal RhoA activity and increased serum response factor (SRF) activation downstream of RhoA upon serum stimulation. In contrast, the dominant-negative form of PI3KC2β strongly reduced cell spreading and stress fibres formation, as well as SRF response. Platelet-derived growth factor (PDGF) stimulation of wild-type PI3KC2β over-expressing NIH3T3 cells strongly increased Rac and c-Jun N-terminal kinase (JNK) activation, but failed to show similar effect in the cells with the dominant-negative enzyme. Interestingly, epidermal growth factor (EGF) and PDGF stimulation led to increased extracellular signal-regulated kinase (Erk) and Akt pathway activation in cells with elevated wild-type PI3KC2β expression. Furthermore, increased expression of PI3KC2β protected NIH3T3 from detachment-dependent death (anoikis) in a RhoA-dependent manner. Taken together, these findings suggest that PI3KC2β modulates the cell morphology and survival through a specific interaction with Dbl and the activation of RhoA.     

Influence of the microenvironment on the activity of enzymes immobilized on Teflon membranes grafted by γ-radiation

The effect of the microenvironment and immobilization method on the activity of immobilized β-galactosidase was investigated. Immobilization was done on Teflon membranes grafted with different acrylic monomers by γ-radiation and activated by two different coupling agents through the functional groups of the grafted monomers. 2-Hydroxyethyl methacrylate (HEMA) and methacrylic acid (MAA) were grafted on the membrane, and 1,6-hexamethylenediamine (HMDA) was used as a spacer. Glutaraldehyde or cyanuric chloride were used as coupling agents to bind the enzyme to the membrane. Four different catalytic membranes were obtained using the same solid support. Direct comparison between the isothermal behaviour of the biocatalyst in its free and immobilized form was carried out. In particular the dependence of the isothermal activity on the temperature and pH was studied and the kinetic parameters determined. The influence of the microenvironment on the observed activity of the four membranes was evidenced and discussed. The way of improving the yield of these catalytic membranes is discussed also.     

Human neural stem cell replacement therapy for amyotrophic lateral sclerosis by spinal transplantation

Background

Mutation in the ubiquitously expressed cytoplasmic superoxide dismutase (SOD1) causes an inherited form of Amyotrophic Lateral Sclerosis (ALS). Mutant synthesis in motor neurons drives disease onset and early disease progression. Previous experimental studies have shown that spinal grafting of human fetal spinal neural stem cells (hNSCs) into the lumbar spinal cord of SOD1^G93A rats leads to a moderate therapeutical effect as evidenced by local α-motoneuron sparing and extension of lifespan. The aim of the present study was to analyze the degree of therapeutical effect of hNSCs once grafted into the lumbar spinal ventral horn in presymptomatic immunosuppressed SOD1^G93A rats and to assess the presence and functional integrity of the descending motor system in symptomatic SOD1^G93A animals.

Methods/Principal Findings

Presymptomatic SOD1^G93A rats (60–65 days old) received spinal lumbar injections of hNSCs. After cell grafting, disease onset, disease progression and lifespan were analyzed. In separate symptomatic SOD1^G93A rats, the presence and functional conductivity of descending motor tracts (corticospinal and rubrospinal) was analyzed by spinal surface recording electrodes after electrical stimulation of the motor cortex. Silver impregnation of lumbar spinal cord sections and descending motor axon counting in plastic spinal cord sections were used to validate morphologically the integrity of descending motor tracts. Grafting of hNSCs into the lumbar spinal cord of SOD1^G93A rats protected α-motoneurons in the vicinity of grafted cells, provided transient functional improvement, but offered no protection to α-motoneuron pools distant from grafted lumbar segments. Analysis of motor-evoked potentials recorded from the thoracic spinal cord of symptomatic SOD1^G93A rats showed a near complete loss of descending motor tract conduction, corresponding to a significant (50–65%) loss of large caliber descending motor axons.

Conclusions/Significance

These data demonstrate that in order to achieve a more clinically-adequate treatment, cell-replacement/gene therapy strategies will likely require both spinal and supraspinal targets.     

The regulatory subunit of PKA-I remains partially structured and undergoes β-aggregation upon thermal denaturation

Background

The regulatory subunit (R) of cAMP-dependent protein kinase (PKA) is a modular flexible protein that responds with large conformational changes to the binding of the effector cAMP. Considering its highly dynamic nature, the protein is rather stable. We studied the thermal denaturation of full-length RIα and a truncated RIα(92-381) that contains the tandem cyclic nucleotide binding (CNB) domains A and B.

Methodology/Principal Findings

As revealed by circular dichroism (CD) and differential scanning calorimetry, both RIα proteins contain significant residual structure in the heat-denatured state. As evidenced by CD, the predominantly α-helical spectrum at 25°C with double negative peaks at 209 and 222 nm changes to a spectrum with a single negative peak at 212–216 nm, characteristic of β-structure. A similar α→β transition occurs at higher temperature in the presence of cAMP. Thioflavin T fluorescence and atomic force microscopy studies support the notion that the structural transition is associated with cross-β-intermolecular aggregation and formation of non-fibrillar oligomers.

Conclusions/Significance

Thermal denaturation of RIα leads to partial loss of native packing with exposure of aggregation-prone motifs, such as the B'' helices in the phosphate-binding cassettes of both CNB domains. The topology of the β-sandwiches in these domains favors inter-molecular β-aggregation, which is suppressed in the ligand-bound states of RIα under physiological conditions. Moreover, our results reveal that the CNB domains persist as structural cores through heat-denaturation.     

Pro-oxidative effect of beta-carotene and the interaction with flavonoids on UVA-induced DNA strand breaks in mouse fibroblast C3H10T1/2 cells

It has been suggested that β-carotene itself is unstable under certain conditions and that a combination of antioxidants may prevent the pro-oxidative effects of β-carotene. Thus, the present study aimed to investigate the interaction of β-carotene with three flavonoids—naringin, rutin and quercetin—on DNA damage induced by ultraviolet A (UVA) in C3H10T1/2 cells, a mouse embryo fibroblast. The cells were preincubated with β-carotene and/or flavonoid for 1 h followed by UVA irradiation, and DNA damage was measured using comet assay. We showed that β-carotene at 20 μM enhanced DNA damage (by 35%; P<.05) induced by UVA (7.6 kJ/m²), whereas naringin, rutin and quercetin significantly decreased UVA-induced DNA damage. When each flavonoid was combined with β-carotene during preincubation, UVA-induced cellular DNA damage was significantly suppressed and the effects were in the order of naringin≥rutin>quercetin. The flavonoids decreased UVA-induced oxidation of preincorporated β-carotene in the same order. Using electron spin resonance spectroscopy, we showed that the ability of these flavonoids to quench singlet oxygen was consistent with protection against DNA damage and β-carotene oxidation. All three flavonoids had some absorption at the UVA range (320–380 nm), but the effects were opposite to those on DNA damage and β-carotene oxidation. Taken together, this cell culture study demonstrates an interaction between flavonoids and β-carotene in UVA-induced DNA damage, and the results suggest that a combination of β-carotene with naringin, rutin or quercetin may increase the safety of β-carotene.     

Unravelling the proteome of wool: towards markers of wool quality traits

With ongoing efforts to make wool more competitive alongside other fibres, notably synthetics, there is a need to obtain a better understanding of the relationship between protein composition and characteristic wool properties to assist sheep breeding programmes. Before this can be achieved, the wool proteome needs to be mapped, by gel and non-gel techniques, and methods developed to reliably quantitate protein expression. Nevertheless, in setting out to achieve this, there are numerous challenges to be faced in the application of proteomics to wool, including the relative lack of wool protein sequence information in the publically accessible databases, the wide variety of proteins in the wool fibre, the high homology within the Type I and Type II keratins, the high degree of homology and polymorphism within individual keratin associated protein families, the dominance of the keratin proteins over others in wool and the peculiar chemistries found in keratins and their associated proteins. This review will discuss the various strategies that have been developed to both identify these proteins in the wool protein map and quantify them with the view to their application to the identification of markers for wool quality traits.     

UVA-induced DNA double-strand breaks result from the repair of clustered oxidative DNA damages

UVA (320–400 nm) represents the main spectral component of solar UV radiation, induces pre-mutagenic DNA lesions and is classified as Class I carcinogen. Recently, discussion arose whether UVA induces DNA double-strand breaks (dsbs). Only few reports link the induction of dsbs to UVA exposure and the underlying mechanisms are poorly understood. Using the Comet-assay and γH2AX as markers for dsb formation, we demonstrate the dose-dependent dsb induction by UVA in G₁-synchronized human keratinocytes (HaCaT) and primary human skin fibroblasts. The number of γH2AX foci increases when a UVA dose is applied in fractions (split dose), with a 2-h recovery period between fractions. The presence of the anti-oxidant Naringin reduces dsb formation significantly. Using an FPG-modified Comet-assay as well as warm and cold repair incubation, we show that dsbs arise partially during repair of bi-stranded, oxidative, clustered DNA lesions. We also demonstrate that on stretched chromatin fibres, 8-oxo-G and abasic sites occur in clusters. This suggests a replication-independent formation of UVA-induced dsbs through clustered single-strand breaks via locally generated reactive oxygen species. Since UVA is the main component of solar UV exposure and is used for artificial UV exposure, our results shine new light on the aetiology of skin cancer.     

Roles of yeast eIF2α and eIF2β subunits in the binding of the initiator methionyl-tRNA

Heterotrimeric eukaryotic/archaeal translation initiation factor 2 (e/aIF2) binds initiator methionyl-tRNA and plays a key role in the selection of the start codon on messenger RNA. tRNA binding was extensively studied in the archaeal system. The γ subunit is able to bind tRNA, but the α subunit is required to reach high affinity whereas the β subunit has only a minor role. In Saccharomyces cerevisiae however, the available data suggest an opposite scenario with β having the most important contribution to tRNA-binding affinity. In order to overcome difficulties with purification of the yeast eIF2γ subunit, we designed chimeric eIF2 by assembling yeast α and β subunits to archaeal γ subunit. We show that the β subunit of yeast has indeed an important role, with the eukaryote-specific N- and C-terminal domains being necessary to obtain full tRNA-binding affinity. The α subunit apparently has a modest contribution. However, the positive effect of α on tRNA binding can be progressively increased upon shortening the acidic C-terminal extension. These results, together with small angle X-ray scattering experiments, support the idea that in yeast eIF2, the tRNA molecule is bound by the α subunit in a manner similar to that observed in the archaeal aIF2–GDPNP–tRNA complex.     

Strong expression of foreign genes following direct injection into fish muscle

We report here for the first time direct injection of genes into fish muscle in vivo. Plasmids used contain either SV40 early promoter, rabbit β-cardiac myosin heavy chain promoter, human MxA promoter of an artificial promoter, fused to a chloramphenicol acetyltransferase (CAT) or β-galactosidase reporter gene. CAT assays revealed that most gene constructs were highly expressed. Histochemical analysis showed that β-galactosidase was strongly expressed at the site of injection within muscle fibres. This method provides an excellent system for testing expression of gene constructs, including those of mammalian origin, in fish muscle in vivo and has the potential for fish vaccination.     

μ-opioid receptor-mediated inhibition of the release of radiolabelled noradrenaline and acetylcholine from rat amygdala slices

Presynaptic modulation by opioids of electrically-evoked neurotransmitter release from superfused rat amygdala slices prelabelled with [³H]noradrenaline (NA) and [¹⁴C]choline was examined. Both [³H]NA and [¹⁴C]acetylcholine release were strongly inhibited by morphine, the mixed δ/μ-receptor agonist [ -Ala², -Leu⁵]enkephalin (DADLE) and the highly selective μ-agonist [ -Ala², MePhe⁴, Gly-ol⁵]enkephalin (DAMGO), whereas the highly selective δ-agonist [ -Pen², -Pen⁵]enkephalin and the κ-agonist bremazocine were without effect. The inhibitory effects were potently antagonized by naloxone but not by the selective δ-receptor antagonist fentanylisothiocyanate. When the selective uptake inhibitor desipramine was used to prevent uptake of [³H]NA into noradrenergic nerve terminals, but sparing the uptake into dopaminergic nerve terminals, the electrically evoked release of tritium was strongly inhibited by bremazocine but not by DADLE or DAMGO.

The data indicate, that in the amygdala transmitter release from dopaminergic nerve fibres is inhibited only via activation of κ-receptors, whereas transmitter release from noradrenergic and cholinergic nerve fibers is subjected to inhibition by opioids via activation of μ-receptors only. Regional differences and similarities of modulation of neurotransmitter release by opioids in the rat brain are briefly discussed.     

Biochemical and immunological studies of lentoid formation in cultures of embryonic chick neural retina and day-old chick lens epithelium

During long-term cell culture of 8-day embryonic chick neural retina, lentoid bodies containing lens crystallins are developed. Although very low levels of crystallin can be detected in the embryonic neural retina, gross synthesis of each major crystallin class (α, anodal β, cathodal β, and δ) begins only after 12–16 days in culture. This occurs at least 10 days before lentoid bodies can be distinguished by eye. The concentration of each crystallin class was determined during lentoid development in cultures of both neural retina and lens epithelium. The proportions of crystallins in lentoid-containing cultures do not resemble those of embryonic lens fibres. Comparisons between two chick strains (N and Hy-1) differing in their growth rates revealed several differences in the crystallin compositions of lentoid bodies. These differences imply independent quantitative regulation for most or all of the crystallins.