Direct Regulation of Osteocytic Connexin 43 Hemichannels through AKT Kinase Activated by Mechanical Stimulation

Connexin (Cx) 43 hemichannels in osteocytes are thought to play a critical role in releasing bone modulators in response to mechanical loading, a process important for bone formation and remodeling. However, the underlying mechanism that regulates the opening of mechanosensitive hemichannels is largely unknown. We have recently shown that Cx43 and integrin α5 interact directly with each other, and activation of PI3K appears to be required for Cx43 hemichannel opening by mechanical stimulation. Here, we show that mechanical loading through fluid flow shear stress (FFSS) increased the level of active AKT, a downstream effector of PI3K, which is correlated with the opening of hemichannels. Both Cx43 and integrin α5 are directly phosphorylated by AKT. Inhibition of AKT activation significantly reduced FFSS-induced opening of hemichannels and disrupted the interaction between Cx43 and integrin α5. Moreover, AKT phosphorylation on Cx43 and integrin α5 enhanced their interaction. In contrast to the C terminus of wild-type Cx43, overexpression of the C-terminal mutant containing S373A, a consensus site previously shown to be phosphorylated by AKT, failed to bind with α5 and hence could not inhibit hemichannel opening. Together, our results suggest that AKT activated by FFSS directly phosphorylates Cx43 and integrin α5, and Ser-373 of Cx43 plays a predominant role in mediating the interaction between these two proteins and Cx43 hemichannel opening, a crucial step to mediate the anabolic function of mechanical loading in the bone.     

Effect of an interspinous implant on loads in the lumbar spine.

Interspinous process implants are increasingly used to treat canal stenoses. Little information exists about the effects of implant height and stiffness on the biomechanical behavior of the lumbar spine. Therefore, a three-dimensional nonlinear finite element model of the osseoligamentous lumbar spine (L1 to L5) was created with a slightly degenerated disc at L3/L4. An interspinous implant was inserted at that segment. Implants with different heights and stiffnesses were studied. The model was loaded with the upper body weight and muscle forces to simulate walking and 25 degrees extension. Implant forces are influenced strongly by the height and negligibly by the elastic modulus of the implant. Intersegmental rotation at implant level is markedly reduced, while intradiscal pressure is slightly increased. Implant size and stiffness have only a minor effect on intradiscal pressure. The maximum von Mises stress in the vertebral arch is strongly increased by the implant.     

Osmolytes modulate polyglutamine aggregation in a sequence dependent manner

Osmolytes stabilize protein structure and suppress protein aggregation. The mechanism of how osmolytes impact polyglutamine (polyQ) aggregation implicated in Huntington's disease was studied. By using a reverse‐phase chromatography assay, we show that methylamines‐trimethylamine N‐oxide and betaine are generic in enhancing polyQ aggregation, while a disaccharide trehalose and an amino acid citrulline moderately retard polyQ aggregation in a sequence specific manner. Despite the altered kinetics, the fundamental nucleation mechanism of polyQ aggregation and the nature of end stage aggregates remains unaffected. These results highlight the importance of using osmolytes as modulatory agents of polyQ aggregation.     

Zinc,iron, and peroxidation in liver tissue

In an attempt to elucidate further the mechanisms involved in alcohol-mediated liver damage and the correlation between alcohol and viruses in chronic liver lesions, we determined the levels of liver glutathione (GSH), thiobarbituric acid reactive substances (TBARS), iron (Fe), and zinc (Zn) in 31 patients with chronic viral hepatitis (CAH), 6 with alcohol-related chronic hepatitis (CALD), 6 with alcoholic cirrhosis (AC), 8 with primary biliary cirrhosis (PBC), and 10 healthy controls (C). Liver GSH was significantly lower in CALD and AC patients (p<0.005). TBARS levels were significantly higher in CAH, CALD, and PBC patients (p<0.001, <0.02, and <0.001, respectively). In CAH patients, alcohol consumption correlated inversely with GSH and directly with TBARS (p<0.05). Patients with both CAH and alcohol abuse had a further reduction in liver GSH levels (p<0.005). Tissue levels of Fe were significantly increased in CALD and AC patients with respect to controls and CAH patients, whereas no significant difference was observed in Zn. These data confirm that patients with chronic ethanol exposure reveal a depletion in liver GSH content clearly correlated with an increase in lipid peroxidation and Fe liver storage. On the other hand, these findings appear to suggest no significant change in Zn levels in chronic hepatitis.     

Molecular refinement of clinical staging in hepatocellular carcinoma patients evaluated for potentially curative therapies

Aim

VEGF and AFP mRNA determinations in the blood are promising prognostic factors for patients with HCC. This study explores their potential prognostic synergy in a cohort of HCC patients evaluated for potentially curative therapies.

Methods

One hundred twenty-four patients with a diagnosis of HCC were prospectively enrolled in the study. Inclusion criteria were: (a) histological diagnosis of HCC and assessment of tumour grade and (b) determination of AFP mRNA status and VEGF levels in the blood before therapy.

Results

At baseline evaluation, 40% of the study group had AFP mRNA in the blood (AFP mRNA positive), and 35% had VEGF23 pg ml⁻¹ (VEGF positive). Surgery was performed in 58 patients (47%), 54 (43%) had tumour ablation, and 12 had chemoembolisation (10%). Median follow-up and survival of the study group were 19 and 26 months (range, 1 to 60), respectively. The association of AFP mRNA and VEGF proved to be prognostically more accurate than their single use in discriminating the risk of death (ROC curve analysis) and survival probability (Cox analysis). In particular, we identified 3 main molecular stages (0,0001): both negative (3-year survival = 63%), one positive (3-year survival = 40%), both positive (3-year survival = 16%). Multivariate analysis identified BCLC staging, surgery, and molecular staging as the most significant survival variables.

Conclusions

The preoperative determination of AFP mRNA status and VEGF may potentially refine the prognostic evaluation of HCC patients and improve the selection process for potentially curative therapies.     

Intact salicylic acid signalling is required for potato defence against the necrotrophic fungus Alternaria solani

Plant Molecular Biology - HbMBF1a was isolated and characterized in H. brevisubulatum, and overexpressed HbMBF1a could enhance the salt tolerance and ABA insensitivity in Arabidopsis thaliana. The...     

Adaptation of connexin 43-hemichannel prostaglandin release to mechanical loading

Bone tissues respond to mechanical loading/unloading regimens to accommodate (re)modeling requirements; however, the underlying molecular mechanism responsible for these responses is largely unknown. Previously, we reported that connexin (Cx) 43 hemichannels in mechanosensing osteocytes mediate the release of prostaglandin, PGE(2), a crucial factor for bone formation in response to anabolic loading. We show here that the opening of hemichannels and release of PGE(2) by shear stress were significantly inhibited by a potent antibody we developed that specifically blocks Cx43-hemichannels, but not gap junctions or other channels. The opening of hemichannels and release of PGE(2) are magnitude-dependent on the level of shear stress. Insertion of a rest period between stress enhances this response. Hemichannels gradually close after 24 h of continuous shear stress corresponding with reduced Cx43 expression on the cell surface, thereby reducing any potential negative effects of channels staying open for extended periods. These data suggest that Cx43-hemichannel activity associated with PGE(2) release is adaptively regulated by mechanical loading to provide an effective means of regulating levels of extracellular signaling molecules responsible for initiation of bone (re)modeling.     

Production of dimethyl triselenide and dimethyl diselenenyl sulfide in the headspace of metalloid-resistant Bacillus species grown in the presence of selenium oxyanions

A Bacillus species harvested from the environment is metalloid resistant and, when grown anaerobically in complex growth medium and amended with the selenium oxyanion selenate, selenite, or selenocyanate, produces volatile organoselenium compounds in bacterial culture headspace. Two novel compounds so far undetected in bacterial culture headspace, CH₃Se₂SCH₃ and CH₃SeSeSeCH₃, are produced and can be detected using solid-phase microextraction and gas chromatography with either fluorine-induced chemiluminescence or mass spectrometric detection. Differences in the electron impact fragmentation pattern of the mixed sulfur/selenide compounds allow the tentative differentiation between the symmetric and asymmetric isomers in this bacterium’s headspace in favor of the asymmetric CH₃SeSeSCH₃ isomer.     

Simple,Fast, and Sensitive Method for Quantification of Tellurite in Culture Media

A fast, simple, and reliable chemical method for tellurite quantification is described. The procedure is based on the NaBH₄-mediated reduction of TeO₃²⁻ followed by the spectrophotometric determination of elemental tellurium in solution. The method is highly reproducible, is stable at different pH values, and exhibits linearity over a broad range of tellurite concentrations.The tellurium oxyanion tellurite is toxic for most organisms, making important its accurate assessment. Several methods for quantifying tellurite have been described to date. However, most of them are rather complicated and require sophisticated equipment and in some cases the detection is not quite sensitive enough to allow the assessment of TeO₃²⁻ concentrations below 50 μg/ml (200 μM). For example, the analytical determination of tellurium (Te) oxyanions by atomic absorption spectrometry (AAS) is hampered by poor sensitivity. Where flame or electrothermal AAS routinely yields detection limits of less than 10 ppb for iron (16), normal flame AAS tellurium detection limits are 100 to 1,000 times higher and require pretreatment to achieve the +IV oxidation state before analysis (11).On the other hand, hydride generation AAS (HGAAS) is used to achieve ppb-level detection limits for Se and Te as well as arsenic and antimony among others. For Te the volatile hydride gas H₂Te is generated by first converting the metalloid to the +IV oxidation state and then by chemical reduction to the gaseous hydride using—almost universally—sodium borohydride (NaBH₄). In automated HGAAS systems, an inert purge gas sweeps the volatile hydride formed in a glass reaction vessel into a quartz cell heated by the AAS flame where gaseous hydride decomposition and atomization occur. Though tellurite reduction, precipitation, and detection methods have been reported (3, 17), they are temporally relatively unstable and pH dependent.Since tellurium is toxic and environmentally important (7, 8), determining low concentrations in bacterial cultures is very desirable and a simple analysis without pretreatment steps that could quickly establish total metalloid oxyanion content in a liquid sample would be a plus. Here we report a new method for the determination of tellurite in bacterial culture media. This procedure is based on the NaBH₄ reduction of tellurite to the elemental form, which is analyzed spectrophotometrically at 500 nm or 320 nm (see below), by which the light scattered by the particles of elemental metalloid in solution is measured. While the detection limits do not compare to those of HGAAS (14) or capillary electrophoresis (13), they do approach those of old flame AAS but involve a much simpler and quicker procedure requiring only one reagent and a spectrophotometer to determine total content of solutions of +IV oxyanions in solution. Linear calibration range, method development time and probe stability, effect of sample pH, common interferences, and detection limits were investigated.Calibration curves to determine K₂TeO₃ concentrations in routinely used microbiological culture media such as Luria-Bertani (LB) or M9 minimal medium amended with 0.2% glucose (15) were constructed. A set of solutions containing increasing concentrations of K₂TeO₃ (Sigma) were prepared in LB or M9 culture medium, and the tellurium oxyanion was quantitatively reduced using freshly prepared 3.5 mM NaBH₄ (final concentration).The reaction was carried out at 60°C for 10 min (bubbling was overcome by vortexing), and after 5 min at room temperature, the optical density at 500 nm (OD₅₀₀) was determined spectrophotometrically as described previously (4, 5, 9, 12). Blanks contained no borohydride. Figure ​Figure11 shows that in both media good curve linearity was obtained, with r² values of 0.9740 and 0.9963 for LB and M9, respectively. Tellurite concentrations lower than 1 μg/ml or higher than 200 μg/ml were also tested, but OD₅₀₀ values were close to the spectrophotometer error limit at low concentrations or nonlinear above 200 μg/ml (not shown). Thus, the NaBH₄ method allows determination of a wide range of tellurite concentrations in a fast and simple way. Tellurite concentrations lower than 50 μg/ml in both rich and minimal media can be easily determined; the experimental error was about 10%, similar to that reported for the diethyl dithiocarbamate (DDTC) tellurite method (17).Open in a separate windowFIG. 1.Calibration curves to determine K₂TeO₃ concentrations in LB (A) (R² = 0.9963) or M9 minimal (B) (R² = 0.9740) medium. Optical density at 500 nm was determined after reducing the oxyanion with sodium borohydride. Error bars denote 1 standard deviation of three replicates.To analyze the resulting solutions after tellurite reduction by NaBH₄, absorption/scattering spectra were determined. Figure ​Figure22 shows that spectra from LB and those from M9 after tellurite reduction are quite different, which may be a consequence of the different chemical compositions of these culture media. In both cases, absorption spectra showed linearity between optical density at 500 nm and tellurite concentration in the sample. However, high tellurite concentrations (∼100 μg/ml) caused a loss of linearity in LB medium.Open in a separate windowFIG. 2.Absorption spectra after reducing samples of LB (A) or M9 (B) culture medium containing increasing tellurite concentrations with 3.5 mM NaBH₄. Tellurite concentrations used were 20, 40, 60, 80, and 100 (LB) and 2, 4, 6, 8, and 10 (M9) μg/ml. (Inset) Calibration curve in M9 medium using the absorbance maxima at 320 nm.Figure ​Figure2B2B shows that in M9 medium there is a zone around 320 nm exhibiting higher optical density than that at 500 nm, which represents an advantage in the determination of tellurite in chemically defined culture media. This is reflected in a wider range of measurable concentrations at 320 nm (Fig. ​(Fig.2B,2B, inset), as well as in a higher sensitivity of the method as determined by the slope of the calibration curve. The product of tellurite reduction by NaBH₄ showed good stability at both wavelengths in rich and minimal culture media (not shown).Since in M9 medium the method allows the determination of minor tellurite concentrations (1 to 20 μg/ml), it would be of great help in assessing tellurite uptake in tellurite-sensitive microorganisms whose MICs range from 1 to 10 μg/ml. Sulfur-containing salts, commonly present in culture media as sulfites and sulfates, did not interfere with our NaBH₄ method for tellurite assessment at concentrations up to 0.5 M (not shown).As shown in Fig. ​Fig.3,3, tellurite assessment was not affected by the pH of the culture medium. In fact, linearity was observed in a wide pH range with minor slope changes in LB. Similar results were obtained with M9 medium, although tellurite assessment was not possible at pH values higher than 7.0 because of the formation of a precipitate. This may be due to an interaction of the phosphate salts present in the medium and some charged (2⁺) chemical species forming at alkaline pH values, as has been reported earlier (17).Open in a separate windowFIG. 3.Effect of pH in determining tellurite concentrations in LB (A) and M9 minimal (B) media.To date, the most commonly used procedure for determining tellurite in culture media is that involving the spectrophotometric determination (340 nm) of the complex that forms between tellurite and diethyl dithiocarbamate (17). This procedure has been used to assess tellurite uptake by the phototrophic bacterium Rhodobacter capsulatus, which is naturally resistant to K₂TeO₃ (MIC, ∼1.4 mM) (2, 3). However, K₂TeO₃ uptake studies in highly sensitive cells such as Escherichia coli (MIC, ∼4 μM) are difficult to carry out because of the low concentrations of toxicant present in the culture medium, far below the detection limit of the DDTC procedure (17).In this context and for testing the applicability of our method in vivo, we used the tellurite-sensitive bacterium E. coli BW25113 (10) and the tellurite-resistant Aeromonas caviae ST (5, 6). An overnight culture of E. coli BW25113 in M9 minimal medium was diluted 100-fold with fresh M9 supplemented with 0.2% glucose and grown at 37°C with shaking. When the OD₆₀₀ was 0.1, the culture was amended with 20 μg/ml K₂TeO₃ (arrow, Fig. ​Fig.4A).4A). Then aliquots were taken at the indicated times and cells were centrifuged at 8,500 × g for 3 min; supernatants were used to assess extracellular tellurite by our NaBH₄ method. While added tellurite did not affect bacterial growth (Fig. ​(Fig.4A),4A), the remaining tellurite in the supernatant dropped approximately to one-third after 3 h (Fig. ​(Fig.4B).4B). Tellurite determinations were validated using, in parallel, the DDTC method (not shown).Open in a separate windowFIG. 4.Tellurite uptake by Escherichia coli. Time zero in panel B represents the moment of tellurite addition.Regarding the tellurite-resistant bacterium A. caviae ST, a 1:100 dilution of an overnight culture was inoculated into fresh LB medium and the OD₆₀₀ was recorded at the indicated times. When the OD₆₀₀ was ∼0.4, the culture was amended with tellurite (400 μg/ml final concentration) (Fig. ​(Fig.5A,5A, arrow) and the remaining tellurite in the supernatants was assessed as described above. Figure ​Figure5B5B shows that in 4 h ∼27% of the toxic oxyanion was removed from the culture medium.Open in a separate windowFIG. 5.Tellurite uptake by Aeromonas caviae ST. See the text for details.In summary and in comparison to the DDTC procedure, the NaBH₄ method described here allows more sensitive determination of the initial tellurite concentrations as well as the continuous uptake of the toxicant by tellurite-sensitive and tellurite-resistant microorganisms. This method should be of great help in future studies aimed at unveiling the tellurite reductase activity exhibited by some metabolic enzymes such as nitrate reductase (1), catalase (4), and the pyruvate dehydrogenase complex (5, 6). These studies are currently being carried out in our laboratory.