Microcrack accumulation at different intervals during fatigue testing of compact bone

Fatigue damage in bone occurs in the form of microcracks. This microdamage contributes to the formation of stress fractures and acts as a stimulus for bone remodelling. A technique has been developed, which allows microcrack growth to be monitored during the course of a fatigue test by the application of a series of fluorescent chelating agents. Specimens were taken from bovine tibiae and fatigue tested in cyclic compression at a stress range of 80MPa. The specimens were stained before testing with alizarin and up to three other chelating agents were applied during testing to label microcracks formed at different times. Microcracks initiated in interstitial bone in the early part of a specimen's life. Further accumulation of microcracks is then suppressed until the period late in the specimen's life. Microcracks were found to be longer in the longitudinal than in the transverse direction. Only a small proportion of cracks are actively propagating; these are longer than non-propagating cracks. These results support the concept of a microstructural barrier effect existing in bone, whereby cracks initiate easily but slow down or stop at barriers such as cement lines.     

The intracellular iron sensor calcein is catalytically oxidatively degraded by iron(II) in a hydrogen peroxide-dependent reaction

The fluorescent metal chelating dye calcein is used to obtain an estimate of cellular iron levels and to measure the kinetics of the entry of chelators and chelating drugs into cells. Under reducing conditions in the presence of ascorbic acid, such as that would be present in the cell, the Fe(II)-calcein complex was rapidly formed with a rate constant of 3 x 10(5) M(-1) s(-1). A slower iron-dependent catalytic degradation of calcein also occurred that resulted in the formation of a non-fluorescent calcein product. The Fe(II)-catalyzed degradation of calcein was largely, but not completely, prevented by catalase. Electron paramagnetic resonance spin trapping experiments showed that the Fe(II)-calcein complex promoted formation of hydroxyl or a hydroxyl radical-like species. Together these results indicated that Fe(II) catalyzed the degradation of calcein through both hydrogen peroxide, and to a lesser extent, non-hydrogen peroxide-dependent pathways. The iron-calcein complexes that were responsible for the degradation of calcein were likely high valence oxidizing iron-oxo species such as perferryl or ferryl complexes that were redox cycled by ascorbic acid. Thus, the use of calcein as an intracellular iron-sensing indicator may yield misleading results due to its degradation under certain conditions.     

Visualizing normal and defective bone development in zebrafish embryos using the fluorescent chromophore calcein.

Zebrafish have recently become a model of choice among developmental biologists. This unique model enables both modern molecular and genetic studies to be carried out to identify genes involved in a wide variety of developmental processes. The success of the genetic approach depends largely on the application of an easy and effective screening method to identify interesting mutants. In order to develop a method for visualizing skeletal structures in zebrafish embryos that would be suitable for screening skeletal mutants, we investigated the use of the fluorescent chromophore calcein, which binds specifically to calcified skeletal structures. By using this method, we followed the development of the skeletal structures in zebrafish embryos from day 1 to day 21 postfertilization, and analyzed the effect of bone morphogenetic protein-2 (BMP2) on axial skeleton development. We found the development of the calcified skeletal structure to appear in a progressive fashion from head to tail. Calcified structures in the head (i.e., the jaw) developed first, which were then followed by the axial skeleton in the trunk. Interesting to note was that there appeared to be two domains in the calcification of vertebrae within the axial skeleton. The first three vertebrae were in the first domain; the rest being in the second domain. Compared with Alcian blue staining, we found that calcein staining indeed labels calcified skeletal structures, and, moreover, it is a more sensitive and inclusive method for visualizing skeletal structures. To determine whether calcein staining could also be used to detect abnormal bone development, we ectopically expressed BMP2 in zebrafish notochord cells. We demonstrated that ectopic expression of BMP2 in notochord cells inhibited the development of the axial skeleton. Together, these results clearly demonstrated the sensitivity of calcein staining for visualizing bone structures in developing zebrafish embryos and its effectiveness for screening for mutants that have bone structure defects.     

An Intact Kidney Slice Model to Investigate Vasa Recta Properties and Function in situ

Background: Medullary blood flow is via vasa recta capillaries, which possess contractile pericytes. In vitro studies using isolated descending vasa recta show that pericytes can constrict/dilate descending vasa recta when vasoactive substances are present. We describe a live kidney slice model in which pericyte-mediated vasa recta constriction/dilation can be visualized in situ. Methods: Confocal microscopy was used to image calcein, propidium iodide and Hoechst labelling in 'live' kidney slices, to determine tubular and vascular cell viability and morphology. DIC video-imaging of live kidney slices was employed to investigate pericyte-mediated real-time changes in vasa recta diameter. Results: Pericytes were identified on vasa recta and their morphology and density were characterized in the medulla. Pericyte-mediated changes in vasa recta diameter (10-30%) were evoked in response to bath application of vasoactive agents (norepinephrine, endothelin-1, angiotensin-II and prostaglandin E(2)) or by manipulating endogenous vasoactive signalling pathways (using tyramine, L-NAME, a cyclo-oxygenase (COX-1) inhibitor indomethacin, and ATP release). Conclusions: The live kidney slice model is a valid complementary technique for investigating vasa recta function in situ and the role of pericytes as regulators of vasa recta diameter. This technique may also be useful in exploring the role of tubulovascular crosstalk in regulation of medullary blood flow.     

Effect of Chelate-Assisted Hexavalent Chromium on Physiological Changes,Biochemical Alterations,and Chromium Bioavailability in Crop Plants—An In Vitro Phytoremediation Approach

This study revealed heavy metal–induced physiological and biochemical alterations in crop seedlings by supplementing chelating agents in the nutrient solution. Hexavalent chromium (Cr⁺⁶) induces several toxic effects in hydroponically grown rice, wheat, and green gram seedlings. A noticeable decrease was observed in root length, shoot length, biomass content, and chlorophyll biosynthesis of the seedlings grown in the nutrient solutions supplemented with Cr⁺⁶ at 100 μM. The seedling growth was stimulated with supplement of chelating agents such as EDTA, DTPA, and EDDHA. An increase in proline content was noticed with the application of Cr⁺⁶ (100 μM) in nutrient solutions. Stimulated activities of antioxidant enzymes such as catalase and peroxidase were noticed with increasing concentrations of chromium. Cr bioaccumulation was significantly high in roots of seedlings treated with Cr⁺⁶ at 100 μM in nutrient solution. Shoot translocation of Cr as depicted by transportation index (Ti) values for different crops were enhanced with the application of chelating agents. The total accumulation rate (TAR) for Cr was enhanced with the supplementation of DTPA in rice and wheat, whereas the application of EDDHA was found effective for increasing the accumulation rate of Cr in green gram seedlings. This study demonstates the role of chelating agents in lessening the toxic effects of Cr⁺⁶. The chelating agents supplemented with Cr⁺⁶ in the culture medium enhanced the Cr bioavailability in plants.     

Effect of chelating agents and superoxide on human neutrophil NAD(P)H oxidation

NAD(P)H oxidation is frequently measured to assay the activity of the neutrophil O-2-generating oxidase. It was found that 10(-4) M ethylene glycol bis (beta-aminoethyl ether)-N-N'-tetraacetic acid (EGTA) increased NAD(P)H oxidation by the 27,000 g granule fraction of resting and stimulated human neutrophils without altering net O-2 production. The commonly used chelating agents EDTA and diethylene triamine pentaacetic acid had similar effects. The addition of superoxide dismutase eliminated the effect of the chelating agents and thus demonstrated that the stimulated reaction was dependent upon O-2. KCN and bathophenanthroline disulfonate, an iron-chelating agent, prevented O-2-dependent NADPH oxidation by neutrophil granule fractions in the presence of EGTA. In contrast, bathocuproine disulfonate, a copper-chelating agent, mimicked the EGTA effect. The effects of both bathophenanthroline disulfonate and bathocuproine disulfonate were completely abolished when the agents were saturated with iron and copper, respectively. All the chelating agents studied, except bathophenonthroline disulfonate, also promoted O-2-dependent NADPH oxidation in a system wherein O-2 was generated by xanthine oxidase. Thus, commonly used chelating agents, by interacting with available iron and copper, may alter the apparent stoichiometry of the neutrophil O-2-generating oxidase and artifactually increase NADPH oxidation in other systems where O-2 is present.     

Chelation in Auxin Action: I. A STUDY OF THE INTERACTIONS OF 3-INDOLYLACETIC ACID AND SYNTHETIC CHELATING AGENTS AS AFFECTING THE GROWTH OF WHEAT ROOTS AND COLEOPTILE SECTIONS

Factorial experiments have been carried out on the effects,upon growth of roots of intact wheat seedlings and growth ofwheat coleoptile sections, of different concentrations of 3-indolylaceticacid (IAA) and various known chelating agents. These have demonstrateda similar mutual antagonism between pairs of agents whetherthese are IAA and a single known chelating agent or two knownchelating agents. This interaction takes the form that eitheragent alone in ‘high’ concentration severely inhibitsgrowth but this inhibitory effect is almost or entirely removedby the presence of one-millionth the concentration of the otheragent; when both agents are present in ‘high’ concentrationthe inhibition is again severe. The substitution of a non-chelatinganalogue for one of the agents either destroys the mutual characterof the antagonism or entirely prevents either agent at low concentrationfrom reducing measurably the inhibition caused by high concentrationof the other. The fact that IAA interacts with known chelatingagents, in controlling the growth both of roots and coleoptilesections, in the same unexpected and symmetrical way that theseinteract with each other, is held strongly to support the hypothesisthat it is here itself acting as a chelating or complexing agent;the absence of such interactions with a non-chelating analoguemakes this the more convincing. These results are concernedwith the removal of growth inhibition, due to supra-optimalconcentrations of one agent, by minute proportions of another;it cannot be regarded as proven that the promotion of growthby IAA in the absence of another agent is also due to chelationor complex formation. This seems probable, however, when thefindings here presented are taken in conjunction with the accumulatingevidence that IAA and other auxins can form complexes or chelateswith metals in vitro, and with the finding already publishedin detail that the eight chelating agents tried promoted growthin the wheat coleoptile test. The main criticisms to which this hypothesis has been subjectedhave been concerned with the relative magnitudes of effectsof IAA and chelating agents upon growth, with the low stabilityconstants of metal complexes with IAA and other auxins, withthe lack of parallelism between stability constants and growth-promotingactivity, and with the fact that one chelating agent (ethylenediamine-tetraaceticacid; EDTA) has been found inactive in certain growth tests.A series of factorial experiments comparing the authors' techniques(which are here described in detail), chemicals, and strainof wheat with those used by Fawcett et al. (1956) demonstratethat the discrepancies found, both as regards magnitudes ofeffects of IAA and EDTA and optimal concentrations, were partlydue to differences in strain but mainly to differences of technique.It is considered that ‘foreign’ molecules such asEDTA are likely to have side effects, which may well differin different strains or tests; competition with internal chelators(Burstrom and Tullin, 1957) is also likely to differ; differencesin rate of penetration and steric hindrance may also be involved.For these reasons effective chelating activity in vivo may bevery different from that in vitro and in the first instancethe magnitudes of growth-promoting effects of chelating agents(which may indeed be the net result of stimulatory and inhibitoryprocesses) seem less important than the fact that they are foundin so many instances. Possible ways in which IAA and other growth substances may regulategrowth by chelation or complex-formation are discussed.     

Growth fraction of myelocytes in normal human granulopoiesis

The labelling index (LI) of myelocytes (M) after flash labelling of normal human bone marrow cells with [3H]-thymidine ([3H]TdR) is always lower that the LI obtained for myeloblasts (MB) and for promyelocytes (PM). This fact can be interpreted in two ways: it may mean that the duration of the G1 phase of the cell cycle is longer in M than in MB or PM, or it may mean that the proportion of cells in cycle, i.e., the growth fraction (GF), is lower in the M population than in MB or PM. The evolution of the LI and of the mean number of grains per cell was monitored in [3H]TdR-labelled normal bone marrow during in vitro incubation for 50 hr. The generation time, measured by the halving time of the mean number of grains per cell after flash labelling, was similar for M to that for MB and PM. During continuous labelling, the LI of MB and PM reached 1 and the LI value for M never rose to more than 50% of the values recorded for MB and PM after 30 hr. These findings give support to the second hypothesis, i.e., a lower GF in the M population. Good correlation was found between the LI of M and the proportion of mature polymorphonuclear cells in the bone marrow of normal subjects and of patients with chronic benign neutropenia or hyperleucocytosis. Variations in the M growth fraction could be a medium-term (2-3 days) regulatory factor in granulocyte production.     

Gap-junctional single-channel permeability for fluorescent tracers in mammalian cell cultures

We have developed a simple dye transfer method that allows quantification of the gap-junction permeability of small cultured cells. Fluorescent dyes (calcein and Lucifer yellow) were perfused into one cell of an isolated cell pair using a patch-type micropipette in the tight-seal whole cell configuration. Dye spreading into the neighboring cells was monitored using a low-light charge-coupled device camera. Permeation rates for calcein and Lucifer yellow were then estimated by fitting the time course of the fluorescence intensities in both cells. For curve fitting, we used a set of model equations derived from a compartment model of dye distribution. The permeation rates were correlated to the total ionic conductance of the gap junction measured immediately after the perfusion experiment. Assuming that dye permeation is through a unit-conductance channel, we were then able to calculate the single-channel permeance for each tracer dye. We have applied this technique to HeLa cells stably transfected with rat-Cx46 and Cx43, and to BICR/M1R(k) cells, a rat mammary tumor cell line that has very high dye coupling through endogenous Cx43 channels. Scatter plots of permeation rates versus junctional conductance did not show a strictly linear correlation of ionic versus dye permeance, as would have been expected for a simple pore. Instead, we found that the data scatter within a wide range of different single-channel permeances. In BICR/M1R(k) cells, the lower limiting single-channel permeance is 2.2 +/- 2.0 x 10(-12) mm3/s and the upper limit is 50 x 10(-12) mm3/s for calcein and 6.8 +/- 2.8 x 10(-12) mm3/s and 150 x 10(-12) mm3/s for Lucifer yellow, respectively. In HeLa-Cx43 transfectants we found 2.0 +/- 2.4 x 10(-12) mm3/s and 95 x 10(-12) mm3/s for calcein and 2.1 +/- 6.8 x 10(-12) mm3/s and 80 x 10(-12) mm3/s for Lucifer yellow, and in HeLa-Cx46 transfectants 1.7 +/- 0.3 x 10(-12) mm3/s and 120 x 10(-12) mm3/s for calcein and 1.3 +/- 1.1 x 10(-12) mm3/s and 34 x 10(-12) mm3/s for Lucifer yellow, respectively. This variability is most likely due to a yet unknown mechanism that differentially regulates single-channel permeability for larger molecules and for small inorganic ions.     

Calcein AM release-based cytotoxic cell assay for fish leucocytes

A non-specific cytotoxic cell assay for fish is presented that is based on the release of the activated fluorochrome calcein AM from lysed carp epithelioma papulosum cyprini (EPC) cells. To establish the suitability of treating EPC cells with calcein AM the uptake and spontaneous release of the calcein AM by the EPC cells was evaluated. Incubation of 5 microM calcein AM in culture medium with 1x10(5)EPC cells well(-1)for a minimum of 3 h provided sufficient labelling. Spontaneous release of fluorescence from the labelled EPC cells during 10 h of post labelling incubation ranged from 30 to 39% of the total observed fluorescence. Cytotoxic activity of trout leucocytes was evaluated at three leucocyte to target cell ratios (10:1, 2:1 and 1:1) following incubation (4, 6, 8, and 10 h) with calcein AM-labelled EPC cells at 15 degrees C. In some instances, the monoclonal antibody specific for the NCC surface receptor NCCRP-1 (MAb5C.6) was included in the cultures. The activity of NCC cells was significantly inhibited in the presence of 0.25 microg well(-1)of MAb5C.6 relative to no antibody (P相似文献   

Fluorescent Bone Viewed through Toenails of Living Animals: a Method to Observe Bone Regrowth

We have developed a new method to observe bone and to document growth in living animals. The technique involves injecting calcein, a fluorescent calcium deposition marker, waiting approximately 4 hr for it to clear the vascular system, and observing bone directly through the toenails of lightly anesthetized living animals. Bone regrowth can be monitored in situ by amputating the digit through the nail plate, waiting the desired number of days, and injecting a second fluorescent label, alizarin red. Bone that has regrown since the amputation appears as a red area distal to the green calcein label on toes of lightly anesthetized animals when viewed under FITC fluorescence. This method has been used to demonstrate blocked bone synthesis and to quantitate significant differences in bone growth in control and experimental toes of individual animals. Advantages of this method include its simplicity, the use of fewer animals to collect sequential data, and increased reliability of repeated microscopic measurements using the same animal.     

Fluorescent Bone Viewed through Toenails of Living Animals: a Method to Observe Bone Regrowth

We have developed a new method to observe bone and to document growth in living animals. The technique involves injecting calcein, a fluorescent calcium deposition marker, waiting approximately 4 hr for it to clear the vascular system, and observing bone directly through the toenails of lightly anesthetized living animals. Bone regrowth can be monitored in situ by amputating the digit through the nail plate, waiting the desired number of days, and injecting a second fluorescent label, alizarin red. Bone that has regrown since the amputation appears as a red area distal to the green calcein label on toes of lightly anesthetized animals when viewed under FITC fluorescence. This method has been used to demonstrate blocked bone synthesis and to quantitate significant differences in bone growth in control and experimental toes of individual animals. Advantages of this method include its simplicity, the use of fewer animals to collect sequential data, and increased reliability of repeated microscopic measurements using the same animal.     

Microdamage in bone: surface analysis and radiological detection

Microdamage accumulation leads to reduced bone strength and fracture. Intact, damaged and Rose Bengal stained cortical bone specimens were studied using SEM and EDXA imaging. SEM coupled with EDXA studies showed selective labelling of surface damage due to binding of dye at free lattice sites. A series of novel iodinated X-ray contrast agent were synthesised. These agents demonstrated excellent stability, water solubility and lack of atropisomerism. Preliminary imaging studies, using cone-beam mu-CT, demonstrated their ability to provide visible contrast in the solid state on bone surfaces.     

Growth Fraction of Myelocytes In Normal Human Granulopoiesis

Abstract. The labelling index (LI) of myelocytes (M) after flash labelling of normal human bone marrow cells with [³H]-thymidine ([³H]TdR) is always lower that the LI obtained for myeloblasts (MB) and for promyelocytes (PM). This fact can be interpreted in two ways: it may mean that the duration of the G₁ phase of the cell cycle is longer in M than in MB or PM, or it may mean that the proportion of cells in cycle, i.e., the growth fraction (GF), is lower in the M population than in MB or PM. the evolution of the LI and of the mean number of grains per cell was monitored in [³H]TdR-labelled normal bone marrow during in vitro incubation for 50 hr. the generation time, measured by the halving time of the mean number of grains per cell after flash labelling, was similar for M to that for MB and PM. During continuous labelling, the LI of MB and PM reached 1 and the LI value for M never rose to more than 50% of the values recorded for MB and PM after 30 hr. These findings give support to the second hypothesis, i.e., a lower GF in the M population. Good correlation was found between the LI of M and the proportion of mature polymorphonuclear cells in the bone marrow of normal subjects and of patients with chronic benign neutropenia or hyperleucocytosis. Variations in the M growth fraction could be a medium-term (2-3 days) regulatory factor in granulocyte production.     

An antibody-desferrioxamine conjugate labelled with 67Ga

The optimum conditions for producing a ⁶⁷Ga labelled antibody-desferrioxamine conjugate were determined. The mouse monoclonal antibody LICR-LON-M8 was coupled to the metal chelating compound desferrioxamine (DFO) using glutaraldehyde (GLUT). A DFO: GLUT: M8 molar ratio of 500: 150: 1 gave an immunoreactive antibody with low amounts (< 5%) of high molecular weight polymer. The labelling efficiency with ⁶⁷Ga was >90%, with a specific activity of 2–4 MBq/mg antibody. This ⁶⁷Ga labelled antibody is suitable for evaluation as a diagnostic imaging agent.     

Stable isotope composition of organic compounds transported in the phloem of European beech--evaluation of different methods of phloem sap collection and assessment of gradients in carbon isotope composition during leaf-to-stem transport

The analysis of stable isotope composition (delta13C, delta15N, delta18O) of phloem-transported organic matter is a useful tool for assessing short-term carbon and water balance of trees. A major constraint of the general application of this method to trees at natural field sites is that the collection of phloem sap with the "phloem bleeding" technique is restricted to particular species and plant parts. To overcome this restriction, we compared the contents (amino compounds and sugars) and isotope signatures (delta13C, delta15N, delta18O) of phloem sap directly obtained from incisions in the bark (bleeding technique) with phloem exudates where bark pieces were incubated in aqueous solutions (phloem exudation technique with and without chelating agents [EDTA, polyphosphate] in the initial sampling solution, which prevent blocking of sieve tubes). A comparable spectrum of amino compounds and sugars was detected using the different techniques. O, C, or N compounds in the initial sampling solution originating from the chelating agents always decreased precision of determination of the respective isotopic signatures, as indicated by higher standard deviation, and/or led to a significant difference of mean delta as compared to the phloem bleeding technique. Hence, depending on the element from which the ratio of heavy to light isotope is determined, compounds lacking C, N, and/or O should be used as chelating agents in the exudation solution. In applying the different techniques, delta13C of organic compounds transported in the phloem of the twig (exudation technique with polyphosphate as chelating agent) were compared with those in the phloem of the main stem (phloem bleeding technique) in order to assess possible differences in carbon isotope composition of phloem carbohydrates along the tree axis. In July, organic compounds in the stem phloem were significantly enriched in 13C by > 1.3 per thousand as compared to the twig phloem, whereas this effect was not observed in September. Correlation analysis between delta13C and stomatal conductance (Gs) revealed the gradient from the twigs to the stem observed in July may be attributed to temporal differences rather than to spatial differences in carbon isotope composition of sugars. As various authors have produced conflicting results regarding the enrichment/depletion of 13C in organic compounds in the leaf-to-stem transition, the different techniques presented in this paper can be used to provide further insight into fractionation processes associated with transport of C compounds from leaves to branches and down the main stem.     

Chemical treatment of Escherichia coli: 1. Extraction of intracellular protein from uninduced cells

Extraction of intracellular protein from Escherichia coli is traditionally achieved by mechanical disruption. A chemical treatment that destroys the integrity of the bacterial cell wall and could provide an alternative technique is examined in this study. Treatment with a combination of the chelating agent ethylenediaminetet-raacetate (EDTA) (greater than 0.3 mM) and the chaotropic agent urea (6 M) is highly effective at releasing protein from uninduced E. coli. The 6 M urea in the presence of 3 mM EDTA can release cytoplasmic protein from both logarithmic-phase and stationary-phase E. coli cells at levels equivalent to mechanical disruption. The concentrations of the two chemical agents were the major variables affecting the maximum levels of protein release. Several minor variables and interactions were also identified. The kinetics of protein release is first order. For 2, 4, and 6 M urea with 3 mM EDTA, the time constant is approximately 2.5 min independent of urea concentration. Kinetics for 3 mM EDTA without urea is considerably slower, with a time constant of 12.3 min. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 53: 453-458, 1997.     

Metabolism of lactic acid bacteria studied by nuclear magnetic resonance

The complexity of metabolic and regulatory networks presents a great scientific challenge to an integrated view of how individual components contribute to the overall function. Nuclear magnetic resonance (NMR) spectroscopy is undoubtedly a suitable technique for global investigations of microbial metabolism, since it allows a view into living cells without disturbing the cellular organisation. Therefore, metabolic processes can be monitored in real time under physiological conditions. In the present paper, examples of the application of NMR to study the metabolism of lactic acid bacteria will be given. These include the analysis of labelling patterns in end-products using ¹³C as a tracer, thereby establishing metabolic pathways, the detection and quantification of intermediates in the pathway of exopolysaccharide biosynthesis, and on line monitoring of glycolytic kinetics to assess the effect of metabolic engineering strategies.     

A comparison of the distribution of 239-Pu and calcein in the illium of the female CBA mouse

Conclusions As a model for the behaviour of plutonium in bone, calcein data must be treated with some care. It does not label the same surfaces as plutonium which results in different distribution patterns at later times. However, it might be that if in man or a long lived animal, labelling occured over a period of weeks, so that most surfaces become labelled, the resultant distribution pattern at late times would more nearly model plutonium behaviour. The single biggest difference between the behaviour of the two substances is the build up of plutonium in the bone marrow, an effect seen only slightly with calcein. The other differences noted was the redeposition of plutonium, as a consequence of recycling of the radionuclide, maintaining a concentration of plutonium on endosteal surface.