Ion content and aperture in “isolated” guard cells ofCommelina communis L.

Summary Isolated guard cells ofCommelina communis L., in epidermal strips in which all cells other than guard cells have been killed by treatment at low pH, will open to a degree dependent on the K (Rb)/Cl(Br) concentration in the bathing medium. Estimates of the changes with aperture of the ion concentrations in the guard cells were made by measurement of⁸⁶Rb uptake from RbCl, of⁸²Br uptake from K⁸²Br, and of potassium activity with a potassium-sensitive microelectrode. The osmotic effects of such changes were compared with the previous estimates of the osmotic changes required to change the aperture. The results suggest that a substantial fraction of the osmotic pressure of isolated guard cells is contributed by solutes other than KCl (or other potassium salts), and that, even in stomata opened by incubation on KCl solutions, a substantial fraction of the increase in osmotic pressure associated with opening is contributed by solutes other than KCl.     

Chlorophyll “a” content in cells of Antarctic phytoplankton

Material was collected from the Weddell Sea and the Bransfield Strait in January/April 1989. Data on size-taxonomic composition and biomass of phytoplankton communities and Ch1 concentration were obtained to estimate the chlorophyll a (Ch1) cell content. Single cell fluorescence measured microscopically was used as a relative index of cellular Ch1 content of individual species. The relationship between the species composition of the algal communities and the ratio of phytoplankton carbonCh1 concentration (CCh1) was found. Due to changes in species composition the average CCh1 ratio in March/April (56) was half that in January/February (115). The CCh1 ratio ranged from 24 to 215 (mean=101) in the upper mixed layer and from 14 to 69 (mean=37) in the pycnocline region. The distribution of cellular Ch1 within individual species showed lower heterogeneity in the mixed layer in comparison with that in the pycnocline and below. Below the mixed layer, populations consisted partly of dead cells with very low pigment content, while other cells had greatly increased cellular Ch1. At several stations this cellular Ch1 increase led to the formation of a deep Ch1 maximum.     

“Calcium metabolism in intact isolated thymocytes”

Summary Isolated rat thymocytes incubated under proper metabolic conditions extrude Ca²⁴ previously taken up under metabolically unfavourable conditions.The extrusion can be supported by both respiratory and glycolytic energy but glycolysis seems to be more efficient for this purpose.La^3– (50–200 M) and the ionophore A 23187 inhibit cell Ca²⁺ extrusion.Ruthenium Red (1–100 M)) does not influence cell Ca²⁺ extrusion while it inhibits the in situ mitochondrial cation uptake.All the results are consistent with a cell regulation model of Ca ²⁺ content in which both plasma membrane and mitochondria co-operate, acting in opposite directions, in order to decrease cytosolic Ca ²⁺ concentration.The possibility of Na⁺-Ca²⁺ hetero-exchange participation to cell Ca²⁺ homeostasis regulation is also discussed.     

UV-induced mutations in epidermal cells of mice defective in DNA polymerase η and/or ι

Xeroderma pigmentosum variant (XP-V) is a human rare inherited recessive disease, predisposed to sunlight-induced skin cancer, which is caused by deficiency in DNA polymerase η (Polη). Polη catalyzes accurate translesion synthesis (TLS) past pyrimidine dimers, the most prominent UV-induced lesions. DNA polymerase ι (Polι) is a paralog of Polη that has been suggested to participate in TLS past UV-induced lesions, but its function in vivo remains uncertain. We have previously reported that Polη-deficient and Polη/Polι double-deficient mice showed increased susceptibility to UV-induced carcinogenesis. Here, we investigated UV-induced mutation frequencies and spectra in the epidermal cells of Polη- and/or Polι-deficient mice. While Polη-deficient mice showed significantly higher UV-induced mutation frequencies than wild-type mice, Polι deficiency did not influence the frequencies in the presence of Polη. Interestingly, the frequencies in Polη/Polι double-deficient mice were statistically lower than those in Polη-deficient mice, although they were still higher than those of wild-type mice. Sequence analysis revealed that most of the UV-induced mutations in Polη-deficient and Polη/Polι double-deficient mice were base substitutions at dipyrimidine sites. An increase in UV-induced mutations at both G:C and A:T pairs associated with Polη deficiency suggests that Polη contributes to accurate TLS past both thymine- and cytosine-containing dimers in vivo. A significant decrease in G:C to A:T transition in Polη/Polι double-deficient mice when compared with Polη-deficient mice suggests that Polι is involved in error-prone TLS past cytosine-containing dimers when Polη is inactivated.     

Flavonoid content and antioxidant activity of Artemisia vulgaris L. “hairy” roots

We investigated the effect of Agrobacterium rhizogenes-mediated transformation on antioxidant activity of Artemisia vulgaris “hairy” roots. It appeared that transformation may increase flavonoid content as well as DPPH-scavenging activity and ability to reduce Fe³⁺ as compared to the non-transformed plants. Some “hairy” roots accumulated flavonoids up to 73.1?±?10.6?mg RE/g DW (while the amount of flavonoids in the leaves of non-transformed plants was up to 49.4?±?5.0?mg RE/g DW). DPPH-scavenging activity of some “hairy” root lines was 3–3.8 times higher than such one of the roots of the control plants. The Fe³⁺-reducing power of most transgenic root extracts exceeded such power of the extracts of the roots of the control plants. The decrease in SOD activity was found in the most “hairy” root lines compared to the control roots. The increase of flavonoid content correlated with the increase of ability of extracts to scavenge DPPH*- radical and Fe³⁺ - reducing power. No correlation between SOD activity of extracts and concentration of flavonoids was found (p?≥?0.2).Thus, transformation has led to the alteration in flavonoid accumulation and antioxidant activity in A. vulgaris “hairy” roots. Transgenic roots with high-antioxidant properties can be selected after A. rhizogenes-mediated transformation.     

Wnt/β-catenin signaling is critical for dedifferentiation of aged epidermal cells in vivo and in vitro

Aged epidermal cells have the capacity to dedifferentiate into stem cell-like cells. However, the signals that regulate the dedifferentiation of aged epidermal cells remain unclear. Here, we provide evidence that Wnt/β-catenin is critical for aged epidermal cell dedifferentiation in vivo and in vitro. Some aged epidermal cells in human ultrathin epidermal sheets lacking basal stem cells transplanted onto wounds dedifferentiated into stem cell-like cells that were positive for CK19 and β1 integrin but negative for CK10. In addition, Wnt/β-catenin pathway was activated during this process. There was increased expression of Wnt-1, Wnt-4, Wnt-7a, β-catenin, cyclin D1, and c-myc. Secreted frizzled-related protein 1, a Wnt/β-catenin pathway inhibitor, blocked dedifferentiation in vivo. Then, the activator, a highly specific glycogen synthase kinase (GSK)-3β inhibitor, of Wnt/β-catenin pathway was added to the culture medium of aged epidermal cells. Surprisingly, we found that the activator induced higher expression of CK19, β1 integrin, Oct4, and Nanog proteins. The induced aged epidermal cells exhibited high colony-forming efficiency, long-term proliferative potential and could regenerate a skin equivalent (as do epidermal stem cells). These results suggested that activation of Wnt/β-catenin pathway induced the dedifferentiation of aged epidermal cells, which suggest a new approach to generate epidermal stem cell-like cells.     

Hydrogen peroxide－induced changes in intracellular pH of guard cells precede stomatal closure

INTRODUCTIONEven under optimal conditions, many metabolicprocesses, including chloroplastic, mitochondrial,and plasma membrane-linked electron transportsystems, produce reactive oxygen species (ROS)such as the superoxide radical (OZ--), hydrogenperoxide (HZOZ), and the hydroxyl free radical(OH--)[1, 2]. Furthermore, the imposition of bioticand abiotic stress conditions can give rise to ex-cess concentrations of ROS, resulting in oxidativedamage at the cellular level. Interestingly, R…     

On the 48÷80-induced secretion of tissue mast cells and its mitogenic effect on nearby cells in the intact rat

Histamine release from tissue-bound mast cells and cell proliferation in the proper mesentery in the intact rat was quantitated following in intraperitoneal injection of graded doses of compound 48/80. The dose-response curves were sigmoid-like in linear-log plots. ED50 for histamine release was 0.035-0.040 and for increased cell proliferation 0.040-0.048 microgram per g BW. The proliferative response following mast-cell secretion ceased after a period of between 48-72 h, irrespective of whether a high or a low dose of 48/80 was used. Basal on the net rate of histamine synthesis (ca. 0.45 microgram/g mesentery wet weight/h) after an initial injection of 48/80, on the extent of histamine release and the proliferative response after a repeated injection of 48/80, it is concluded that there is a lag period of at least 3 days before proliferation can be re-stimulated by renewed 48/80-induced mast-cell secretion.     

“Tissue” transglutaminase is specifically expressed in neonatal rat liver cells undergoing apoptosis upon epidermal growth factor-stimulation

Summary We recently reported that activation of tissue transglutaminase (EC 2.3.2.13; tTG) in liver cells undergoing apoptosis determines extensive cross-linking of cellular proteins resulting in the formation of SDS-insoluble shells in the so-called apoptotic bodies. In attempt to obtain further insight into the role played by tTG in apoptosis of liver cells, we investigated its expression in primary cultures of neonatal rat liver cells stimulated with epidermal growth factor (EGF). EGF-treatment of neonatal rat liver cells induces first hyperplasia of hepatocytes, followed by involution characterized by a high incidence of apoptosis. The proliferative phase of hepatocytes is paralleled by a 10-fold increase in tTG mRNA level, which is followed, during the phase of involution, by sequential increases in enzyme activity and levels of SDS-insoluble apoptotic bodies. tTG immunostaining at both the light- and electron-microscopic levels shows that the most intensive reaction is present in globular structures showing the typical morphological appearance of mature apoptotic bodies. In early apoptotic stages, tTG protein is localized in the perinuclear region of the cell. Intense immunostaining is also found in the apoptotic bodies present inside phagosomes within the cytoplasm of neighboring cells. This evidence confirms and extends our previous findings, indicating that tTG induction and activation specifically takes place in cells undergoing apoptosis, suggesting a key role for the enzyme in the apoptotic program.     

Localization of 3′, 5′-cyclic nucleotide phosphodiesterase activity in isolated thyroid cells and intact thyroid tissue

Summary Cytochemical localization of 3,5-cyclic nucleotide phosphodiesterase (cPDEase) has been investigated by light and electron microscopy in dissociated bovine thyroid cells and in intact bovine thyroid tissue. By light microscopy in isolated thyroid cells reaction product deposition associated with cPDEase activity was localized at the level of the plasma membrane. In intact cryostat cut thyroid tissue, the activity was primarily observed in the cytoplasm and to a lesser extent at the level of the plasma membrane. By electron microscopy, cPDEase activity in isolated cells was found on the plasma membrane and was also encountered on the inner surface of membrane bound vacuoles, presumably pinocytic in origin. In intact tissue, cPDEase activity appeared mostly localized on the apical and lateral plasma membranes and was also present on the outer surface of the endoplasmic reticulum (ER).Even though cPDEase and 5-AMPase did share the same plasma membrane localization, the inhibitory response to theophylline and stimulation with Imidazole permitted the dissociation of their respective activities. 5-AMPase failed to respond to either theophylline or Imidazole suggesting absence of cross reactivity between 5-AMP and cyclic AMP. Thyrotropin (TSH) had no effect on cPDEase activity.We conclude that: (1) regardless of the nature of the material used, the cytomembranes of thyroid cells possess cPDEase activity; and that (2) the variability in distribution as well as in staining intensity recorded by light and electron microscopy between isolated thyroid cells and cryostat cut thyroid tissue is probably inherent to the methodology used.This paper was presented, in part, at the 60th Annual Meeting of the International Academy of Pathology, Montreal, Canada, March 1971 and was initiated in the Department of Pathology, Rhode Island Hospital, Providence, R.I., supported from a Grant-in-Aid of the American Cancer Society, Rhode Island Division, Inc. and the Brown-Hazen Fund.     

Effects of tumor necrosis factor and interferon-β on proliferation and epidermal growth factor binding in young and senescent WI-38 cells

Summary Tumor necrosis factor-α (TNF) and various interferons (IFN) have potent cytostatic or cytotoxic effects on a variety of human tumor-derived cell lines. Their effects on normal cells are more controversial. We have examined the effects of TNF and IFN-β on the proliferation of WI-38 cells in a serum-free, growth factor-supplemented medium and in serum-containing medium. These cells respond to the combination of epidermal growth factor (EGF), insulin-like growth factor-I (IGF-I), and dexamethasone by DNA synthesis at a rate and extent equivalent to serum-stimulated cells. TNF has no effect on this growth factor-stimulated proliferation. However, it is stimulatory in serum-containing medium. IFN-β inhibits DNA synthesis 60 to 70% in both young and senescent cells. TNF and IFN-β together have a synergistic effect and completely inhibit growth factor-stimulated DNA synthesis in young cells. No synergism was observed with senescent cells. TNF stimulated an increase in the number of EGF specific binding sites two- to threefold in 24 h in both young and senescent cells. This seems to result from a proportional increase in a very high affinity binding site. IFN-β has little or no effect on EGF binding either alone or in combination with TNF.     

Does the high nucleic acid content of individual bacterial cells allow us to discriminate between active cells and inactive cells in aquatic systems?

The nucleic acid contents of individual bacterial cells as determined with three different nucleic acid-specific fluorescent dyes (SYBR I, SYBR II, and SYTO 13) and flow cytometry were compared for different seawater samples. Similar fluorescence patterns were observed, and bacteria with high apparent nucleic acid contents (HNA) could be discriminated from bacteria with low nucleic acid contents (LNA). The best discrimination between HNA and LNA cells was found when cells were stained with SYBR II. Bacteria in different water samples collected from seven freshwater, brackish water, and seawater ecosystems were prelabeled with tritiated leucine and then stained with SYBR II. After labeling and staining, HNA, LNA, and total cells were sorted by flow cytometry, and the specific activity of each cellular category was determined from leucine incorporation rates. The HNA cells were responsible for most of the total bacterial production, and the specific activities of cells in the HNA population varied between samples by a factor of seven. We suggest that nucleic acid content alone can be a better indicator of the fraction of growing cells than total counts and that this approach should be combined with other fluorescent physiological probes to improve detection of the most active cells in aquatic systems.     

δ13C and stomatal number variability in the Cretaceous conifer Frenelopsis

The ¹³C/¹²C ratios of leaves of the conifer morphotype Frenelopsis were measured to decipher the influences of water and salt stress on stomatal density (SD), epidermal cell density (ECD) and stomatal index (SI). Three morphospecies were analyzed: F. ugnaensis from freshwater fluvio-lacustrine deposits (Upper Barremian), F. turolensis and alata from coastal deposits (Lower-Middle Albian and Upper Albian respectively). The cuticle δ¹³C values show a large variation from ? 28‰ to ? 21‰. Comparison with previously published marine carbonate δ¹³C records indicate that the difference in cuticle δ¹³C between the different deposits are mainly due to difference in CO₂-plant isotope fractionation rather than to change in isotopic composition of inorganic carbon in the atmosphere and ocean. The less negative δ¹³C and wide range in δ¹³C of F. turolensis and alata (? 27.5 to ? 21‰), compared to F. ugnaensis, (? 28 to ? 25‰) are interpreted as a result of salt and/or water stress. The data as a whole yield a good relationship between the ¹³C/¹²C ratio and SD (r = 0.67, n = 42, p < 0.001), SI (r = 0.53, n = 41, p < 0.001), hence suggesting that the differences in SD and SI between the three morphospecies are related to freshwater/saline environment. Looking at single morphospecies, the SD of F. ugnaensis decreases with increasing δ¹³C value (r = ? 0.57, n = 15, p = 0.026) as well as a decrease of SI (r = ? 0.62, n = 15, p = 0.013), possibly reflecting warmer and drier conditions. Average SI of F. alata does not significantly change with δ¹³C and inferred soil salinity in contrast to SD (p < 0.01).     

Silver ions disrupt K⁺ homeostasis and cellular integrity in intact barley (Hordeum vulgare L.) roots

The heavy metals silver, gold, and mercury can strongly inhibit aquaporin-mediated water flow across plant cell membranes, but critical examinations of their side effects are rare. Here, the short-lived radiotracer (42)K is used to demonstrate that these metals, especially silver, profoundly change potassium homeostasis in roots of intact barley (Hordeum vulgare L.) plants, by altering unidirectional K(+) fluxes. Doses as low as 5 μM AgNO(3) rapidly reduced K(+) influx to 5% that of controls, and brought about pronounced and immediate increases in K(+) efflux, while higher doses of Au(3+) and Hg(2+) were required to produce similar responses. Reduced influx and enhanced efflux of K(+) resulted in a net loss of >40% of root tissue K(+) during a 15 min application of 500 μM AgNO(3), comprising the entire cytosolic potassium pool and about a third of the vacuolar pool. Silver also brought about major losses of UV-absorbing compounds, total electrolytes, and NH(4)(+). Co-application, with silver, of the channel blockers Cs(+), TEA(+), or Ca(2+), did not affect the enhanced efflux, ruling out the involvement of outwardly rectifying ion channels. Taken together with an examination of propidium iodide staining under confocal microscopy, the results indicate that silver ions affect K(+) homeostasis by directly inhibiting K(+) influx at lower concentrations, and indirectly inhibiting K(+) influx and enhancing K(+) efflux, via membrane destruction, at higher concentrations. Ni(2+), Cd(2+), and Pb(2+), three heavy metals not generally known to affect aquaporins, did not enhance K(+) efflux or cause propidium iodide incorporation. The study reveals strong and previously unknown effects of major aquaporin inhibitors and recommends caution in their application.     

Electrical characteristics of stomatal guard cells: The contribution of ATP-dependent, “Electrogenic” transport revealed by current-voltage and difference-current-voltage analysis

Summary The steady-state, current-voltage (I–V) characteristics of stomatal guard cells fromVicia faba L. were explored by voltage clamp using conventional electrophysiological techniques, but with double-barrelled microelectrodes containing 50mm K⁺-acetate. Attention was focused, primarily, on guard cell response to metabolic blockade. Exposures to 0.3–1.0mm NaCN and 0.4mm salicylhydroxamic acid (SHAM) lead consistently to depolarizing (positive-going) shifts in guard cell potentials (V _m ), as large as +103 mV, which were generally complete within 60–90 sec (mean response half-time, 10.3±1.7 sec); values forV _m in NaCN plus SHAM were close or positive to –100 mV and well removed from the K⁺ equilibrium potential. Guard cell ATP content, which was followed in parallel experiments, showed a mean half-time for decay of 10.8±1.9 ([ATP] _t=0, 1.32±0.28mm; [ATP] _{t=60–180sec}, 0.29±0.40mm). In respiring cells, theI–V relations were commonly sigmoid aboutV _m or gently concave to the voltage axis positive toV _m . Inward- and outward-rectifying currents were also observed, especially near the voltage extremes (nominally –350 and +50 mV). Short-circuit currents (atV=0 mV) were typically about 200–500 mA m^–2. The principal effect of cyanide early on was to linearize theI–V characteristic while shifting it to the right along the voltage axis, to decrease the membrane conductance, and to reduce the short-circuit current by approx. 50–75%. The resulting difference-current-voltage (dI–V) curves (±cyanide) showed a marked sensitivity to voltages negative from –100 mV and, when clamp scans had been extended sufficiently, they revealed a distinct minimum near –300 mV before rising at still more negative potentials. The difference currents, along with changes in guard cell potential, conductance and ATP content are interpreted in context of a primary, ATP-consuming ion pump. FittingdI–V curves to reaction kinetic model for the pump [Hansen, U.-P., et al. (1981)J. Membrane Biol. 63:165; Blatt, M.R. (1986)J. Membrane Biol. 92:91] implicates a stoichiometry of one (+) charge transported outward for each ATP hydrolyzed, with pump currents as high as 200 mA m^–2 at the free-running potential. The analysis indicates that the pump can comprise more than half of the total membrane conductance and argues against modulations of pump activity alone, as an effective means to controlling K⁺ transport for stomatal movements.     

Thermal response in murine L929 cells lacking αB-crystallin expression and αB-crystallin expressing L929 transfectants

We investigated the role of B-crystallin expression in the development of thermotolerance in murine L929 cells. An initial heat-shock of 10 min at 45°C induced thermotolerance in these cells to a heat challenge at 45°C administered 24 h later. The thermotolerance ratio at 10^–1 isosurvival was 1.7. Expression of B-crystallin gene was not detected during the 24 h incubation at 37°C following heat shock by either northern or western blots. In contrast, inducible HSP70 synthesis was observed during this time period. Thus, this cell line provided an unique system in which to examine the effects of transfected B-crystallin on thermoresistance and thermotolerance. Cells stably transfected with B-crystallin under the control of an inducible promoter did not show a significant increase in the ability to develop thermotolerance. However, a stably transfected L929 clone expressing high levels of constitutive B-crystallin exhibited an approximately 50% increase in thermal resistance over parental and control cells. Though expression of B-crystallin is not requisite for the development of thermotolerance in L929 cells, overexpression of transfected B-crystallin can contribute to increased thermoresistance.