Lysophosphatidylcholine Induces Taurine Release from HeLa Cells

The putative role of lysophospholipids in activation and regulation of the volume-sensitive taurine efflux was investigated in HeLa cells using tracer technique. Lysophosphatidylcholine (LPC, 10 μm) with oleic acid increased taurine efflux during hypotonic and isotonic conditions. Substituting palmitic or stearic acid for oleic acid enhanced taurine release during isotonic conditions, whereas ethanolamine, serine or inositol containing lysophospholipids were ineffective. High concentrations of LPC (25 μm) induced Ca²⁺ influx, loss of adenosine nucleotides, taurine and the Ca²⁺-sensitive probe Fura-2, and thus reflected a general breakdown of the membrane permeability barrier. Low concentrations of LPC (5–10 μm) solely induced taurine efflux. The LPC-induced taurine release was unaffected by anion channel blockers (DIDS, MK196) and the 5-lipoxygenase inhibitor ETH 615-139, which all blocked the volume sensitive taurine efflux. Furthermore, LPC-induced taurine release was reduced by antioxidants (NDGA, vitamin E) and the protein tyrosine kinase inhibitor genistein. The swelling-induced taurine efflux was in the absence of LPC unaffected by vitamin E, blocked by genistein, and increased by H₂O₂ and the protein tyrosine phosphatase inhibitor vanadate. It is suggested that low concentrations of LPC permeabilizes the plasma membrane in a Ca²⁺-independent process that involves generation of reactive oxygen species and tyrosine phosphorylation, and that LPC is not a second messenger in activation of the volume sensitive taurine efflux in HeLa cells. Received: 17 December 1999/Revised: 13 April 2000     

Prediction from an integrated regression equation: a forestry application

Models to depict the tapering of a tree bole abound in the literature of forest science, and such models are widely used in forestry practice. One important use is the integration of a taper equation to predict the volume of the tree bole. The statistical properties of volume prediction from an integrated taper equation have been obscure. Based on the statistical characteristics of a taper model for the bole's cross-sectional area, we derive the first two moments of the volume predictor and the prediction error. Bias from the integration is nil. The importance of a reasonable model of the error structure is demonstrated.     

Host selection behaviour of deathwatch beetle, Xestobium rufovillosum: Oviposition preference choice assays testing old vs new oak timber, Quercus sp.

In a choice bio-assay adult female deathwatch beetles were offered two dendrochronologically dated wood blocks from oak timber to study oviposition preference behaviour. There was a clear preference for ovipositing on old wood dating from the 13th to 19th centuries rather than new wood from the 20th century. Control, same-century choice, experiments showed that beetles will oviposit on young wood and that the age of the wood does not alter the overall oviposition potential. Oviposition frequency varied with insect age. Fecundity of insects collected from an infested building was similar to that of insects maintained in culture.     

Pattern and Performance of Understory Bamboos (Chusquea spp.) under Different Canopy Closures in Old-Growth Oak Forests in Costa Rica1

The effect of canopy closure on spatial and morphological patterns of three understory Chusquea species was studied in pristine upper montane oak forests. Plots with either Chusquea talamancenis Widmer & L.G. Clark or C. tomentosa Widmer & L.G. Clark were set out in gaps, under intermediate tree canopy and under closed canopy. The third species Chusquea foliosa L.G. Clark was only found in gap and intermediate canopy sites in the study area. Clumps of all bamboo species tend to be few and large under open conditions and numerous and small under more shady conditions. The larger size of clumps in gaps is reflected in the number of culms per clump, the diameter of the culms and, as a consequence, clump basal area, clump crown area, and biomass (index of plant volume) compared to intermediate and closed canopy. The smaller clump density in gaps compared to closed canopy implies that there is more intraspecific competition and density dependent mortality (self-thinning effect) when a bamboo species is dominant under favourable light conditions. Parameters of performance like culm length, number of nodes per culm, number and length of primary branches, and number of branch nodes seem not to be affected by the light regime, unlike total number of branches, total branch length, and the branching pattern. Species differ in their response to the light environment: C. tomentosa and C. foliosa have a higher degree of morphological plasticity than C. talamancensis, which in turn, appears to be more shade tolerant. No difference between species has been found regarding their contribution to vegetation, parameters reflecting abundance per unit area (site clump area, site crown area and site index of clump volume) were similar for all three species.     

Regulatory Volume Decrease and Intracellular Ca2+ in Murine Neuroblastoma Cells Studied with Fluorescent Probes

The possible role of Ca²⁺ as a second messenger mediating regulatory volume decrease (RVD) in osmotically swollen cells was investigated in murine neural cell lines (N1E-115 and NG108-15) by means of novel microspectrofluorimetric techniques that allow simultaneous measurement of changes in cell water volume and [Ca²⁺]_i in single cells loaded with fura-2. [Ca²⁺]_i was measured ratiometrically, whereas the volume change was determined at the intracellular isosbestic wavelength (358 nm). Independent volume measurements were done using calcein, a fluorescent probe insensitive to intracellular ions. When challenged with ∼40% hyposmotic solutions, the cells expanded osmometrically and then underwent RVD. Concomitant with the volume response, there was a transient increase in [Ca²⁺]_i, whose onset preceded RVD. For hyposmotic solutions (up to ∼−40%), [Ca²⁺]_i increased steeply with the reciprocal of the external osmotic pressure and with the cell volume. Chelation of external and internal Ca²⁺, with EGTA and 1,2-bis-(o -aminophenoxy) ethane-N,N,N ′,N ′-tetraacetic acid (BAPTA), respectively, attenuated but did not prevent RVD. This Ca²⁺-independent RVD proceeded even when there was a concomitant decrease in [Ca²⁺]_i below resting levels. Similar results were obtained in cells loaded with calcein. For cells not treated with BAPTA, restoration of external Ca²⁺ during the relaxation of RVD elicited by Ca²⁺-free hyposmotic solutions produced an increase in [Ca²⁺]_i without affecting the rate or extent of the responses. RVD and the increase in [Ca²⁺]_i were blocked or attenuated upon the second of two ∼40% hyposmotic challenges applied at an interval of 30–60 min. The inactivation persisted in Ca²⁺-free solutions. Hence, our simultaneous measurements of intracellular Ca²⁺ and volume in single neuroblastoma cells directly demonstrate that an increase in intracellular Ca²⁺ is not necessary for triggering RVD or its inactivation. The attenuation of RVD after Ca²⁺ chelation could occur through secondary effects or could indicate that Ca²⁺ is required for optimal RVD responses.     

Carbon and nutrient dynamics in relation to growth rhythm in the giant bamboo Phyllostachys pubescens

The carbon and nutrient dynamics in relation to growth rhythm in the giant bamboo Phyllostachys pubescens on Mount Jinyun, Chongqing, China, was studied during 1993–1996. Concentrations of TNC (total non-structural carbohydrates), N, P, and K all showed the same distribution pattern among organs: leaves > branches rhizomes stems roots. The rapid spring growth of new shoots noticeably reduced the concentration of TNC in the rhizomes, in which a large amount of carbohydrates was stored. The N concentration of the rhizomes did not decrease, however. Nutrient concentration of new (1st-year) leaves was significantly higher than that of old (2nd-year) leaves. Although the density of adult shoots was almost the same during 1994–1996, the low ratio of the number of adult shoots with new to that with old leaves from June 1994 to April 1995 resulted in a low TNC concentration in the rhizomes in early spring (April) 1995. This led to a low production of new shoots in the spring of 1995, their number being only ca. 10% of that in 1994 and 1996. Before old leaves were shed, a large amount of nutrients was remobilized and translocated to other plant parts to support further growth. Fertilization with NPK significantly increased the concentrations of N and P in leaves and subsequently increased the number of emerging new shoots.     

Neuronal Plasma Membrane Dynamics Evoked by Osmomechanical Perturbations

When neurons swell and shrink they extensively reorganize their plasma membrane. A striking aspect of these membrane dynamics is the transient appearance of vacuole-like dilations (VLDs) which, counterintuitively, expand as the neurons shrink. Here, confocal microscopy of cultured molluscan (Lymnaea) neurons was used in conjunction with aqueous phase and membrane dyes to examine changing VLD membrane topology as VLDs form, reverse or recover. We show that VLDs start as discrete invaginations at the adherent surface, so VLD and plasma membranes are initially contiguous. Over the next few minutes VLDs expand and penetrate the cytoplasm. At the substratum, the mouths of VLDs develop into irregular annuli of motile adherent processes whereas deeper in the cytoplasm, VLD membrane profiles are smooth. Subsequently VLDs spontaneously shrink; as this recovery proceeds, constriction of the motile VLD mouth leads to the internalization of plasma membrane. Washout experiments with aqueous phase dyes demonstrated that VLD constriction yields bona fide vacuoles, i.e., membrane-bound compartments isolated from the external medium. VLDs can also be experimentally eliminated by returning cells to swelling conditions; this reversal process drives membrane back to the surface. VLD formation and reinternalization of VLD membrane can be seen as aspects of plasma membrane surface area regulation. We postulate that area adjustments, driven by regional membrane tension differences, become noticeable when excessive perturbations overload normal membrane reprocessing steps. Both the changes in VLD membrane topology, and previously established capacitance changes accompanying cell shrinking and swelling, argue that osmomechanically perturbed neurons regulate their surface area as their volume changes. Received: 13 May 1998/Revised: 18 September 1998     

Osmotic Swelling-Induced Changes in Cytosolic Calcium Do Not Affect Regulatory Volume Decrease in Rat Cultured Suspended Cerebellar Astrocytes

Abstract: Hyposmotic swelling-induced changes in intracellular Ca²⁺ concentration ([Ca²⁺]_i) and their influence on regulatory volume decrease (RVD) were examined in rat cultured suspended cerebellar astrocytes. Hyposmotic media (50 or 30%) evoked an immediate rise in [Ca²⁺]_i from 117 nM to a mean peak increase of 386 (50%) and 220 nM (30%), followed by a maintained plateau phase. Ca²⁺ influx through the plasmalemma as well as release from internal stores contributed to this osmosensitive [Ca²⁺]_i elevation. Omission of external Ca²⁺ or addition of Cd²⁺, Mn²⁺, or Gd³⁺ did not reduce RVD, although it was decreased by La³⁺ (0.1–1 mM). Verapamil did not affect either the swelling-evoked [Ca²⁺]_i or RVD. Maneuvers that deplete endoplasmic reticulum (ER) Ca²⁺ stores, such as treatment (in Ca²⁺-free medium) with 0.2 µM thapsigargin (Tg), 10 µM 2,5-di-tert-butylhydroquinone, 1 µM ionomycin, or 100 µM ATP abolished the increase in [Ca²⁺]_i but did not affect RVD. However, prolonged exposure to 1 µM Tg blocked RVD regardless of ER Ca²⁺ content or cytosolic Ca²⁺ levels. Ryanodine (up to 100 µM) and caffeine (10 mM) did not modify [Ca²⁺]_i or RVD. BAPTA-acetoxymethyl ester (20 µM) abolished [Ca²⁺]_i elevation without affecting RVD, but at higher concentrations BAPTA prevented cell swelling and blocked RVD. We conclude that the osmosensitive [Ca²⁺]_i rise occurs as a consequence of increased Ca²⁺ permeability of plasma and organelle membranes, but it appears not relevant as a transduction signal for RVD in rat cultured cerebellar astrocytes.     

Fibrous carrot root responses to irrigation and compaction of sandy and organic soils

Field experiments were performed in Southern Finland on fine sand and organic soil in 1990 and 1991 to study carrot roots. Fall ploughed land was loosened by rotary harrowing to a depth of 20 cm or compacted under moist conditions to a depth of 25–30 cm by three passes of adjacent wheel tracks with a tractor weighing 3 Mg, in April were contiguously applied across the plot before seed bed preparation. Sprinkler irrigation (30 mm) was applied to fine sand when moisture in the 0–15 cm range of soil depth was 50% of plant-available water capacity. For root sampling, polyvinyl chloride (PVC) cylinders (30 × 60 cm) were installed in the rows of experimental plots after sowing, and removed at harvest. Six carrot plants were grown in each of in these soil colums in situ in the field.Fine root length and width were quantified by image analysis. Root length density (RLD) per plant was 0.2–1.0 cm cm^-3 in the 0–30 cm range. The fibrous root system of one carrot had total root lengths of 130–150 m in loose fine sand and 180–200 m in compacted fine sand. More roots were observed in irrigated than non-irrigated soils. In the 0–50 cm range of organic soil, 230–250 m of root length were removed from loosened organic soils and 240–300 m from compacted soils. Specific root surface area (surface area divided by dry root weight) of a carrot fibrous root system averaged 1500–2000 cm² g^-1. Root length to weight ratios of 250–350 m g^-1 effectively compare with the ratios of other species.Fibrous root growth was stimulated by soil compaction or irrigation to a depth of 30 cm, in both the fine sand and organic soils, suggesting better soil water supply in compacted than in loosened soils. Soil compaction increased root diameters more in fine sand than it did in organic soil. Most of the root length in loosened soils (fine sand 90%, organic soil 80%) and compacted soils (fine sand 80%, organic soil 75%) was composed of roots with diameters of approximately 0.15 mm. With respect to dry weight, length, surface area and volume of the fibrous root system, all the measurements gave significant resposes to irrigation and soil compaction. Total root volumes in the 0–50 cm of soil were 4.3 cm³ and 9.8 cm³ in loosened fine sand and organic soils, respectively, and 6.7 cm³ and 13.4 cm³ in compacted sand and organic soils, respectively. In fine sand, irrigation increased the volume from 4.8 to 6.3 cm³.     

Calmodulin is uniformly distributed during cell division in living stamen hair cells ofTradescantia virginiana

Summary Because the activity of calmodulin (CaM) may be dependent upon its structural distribution, we have examined its spatial localization in living cells. We have focused on cell division and cell plate formation, where conventional immunofluorescence studies report that CaM is specifically associated with microtubules (MTs) of the spindle and the phragmoplast. In dividing stamen hair cells ofTradescantia virginiana that were injected with fluorescently labeled CaM and examined by confocal laser scanning microscopy (CLSM), we found that the labeled protein is uniformly distributed throughout the cell and is not localized with the phragmoplast MTs or any other obvious structure. To explore why these images from live cells differ from those prepared by immunolabeling, we investigated the fate of CaM during fixation and compared it with the localization of fixable dextran and tubulin. The results show that fixation causes severe changes in cell morphology and in the distribution of CaM and dextran in three quarters of the cells. Conversely, injected rhodamine-tubulin did not show redistribution after fixation. We conclude that in the live cell, CaM is largely uniformly distributed throughout the cytoplasm, and secondly that conventional chemical fixation does not preserve CaM, and probably many other soluble proteins, in its in vivo distribution. The role postulated for CaM in mitosis, solely based on indirect immunofluorescence microscopy, has to be re-evaluated.Abbreviations BSA bovine serum albumin - CaM calmodulin - CLSM confocal laser scanning microscopy - Cy3 indocarbocyanine - EDTA ethylenediamine-tetraacetic acid - EGTA ethylene glycol bis (-aminoethyl ether)-N,N,NN-tetraacetic acid - FITC fluoresceinisothiocyanate - IAF 5-iodoacetamido-fluorescein - MT microtubule - PBS phosphate-buffered saline - TBS Tris-buffered saline