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81.
A novel, genetically encoded, ratiometric pH probe (RaVC) was constructed to image and measure intracellular pH in living hyphae of Aspergillus niger. RaVC is a chimeric protein based on the pH-sensitive probe pHluorin, which was partially codon optimized for expression in Aspergillus. Intracellular pH imaging and measurement was performed by simultaneous, dual-excitation confocal ratio imaging. The mean cytoplasmic pH measured was 7.4 to 7.7 based on calibrating RaVC in situ within nigericin-treated hyphae. Pronounced, longitudinal cytoplasmic pH gradients were not observed in the apical 20 μm of actively growing hyphae at the periphery of 18-h-old colonies. The cytoplasmic pH remained unchanged after prolonged growth in buffered medium with pH values between 2.5 or 9.5. Sudden changes in external pH significantly changed cytoplasmic pH by <1.3 pH units, but it returned to its original value within 20 min following treatment. The weak acid and antifungal food preservative sorbic acid caused prolonged, concentration-dependent intracellular acidification. The inhibition of ATPases with N-ethylmaleimide, dicychlohexylcarbodimide, or sodium azide caused the cytoplasmic pH to decrease by <1 pH unit. Treatment with the protonophore carbonyl cyanide m-chlorophenylhydrazone or cyanide p-(trifluoromethoxy) phenylhydrazone reduced the cytoplasmic pH by <1 pH unit. In older hyphae from 32-h-old cultures, RaVC became sequestered within large vacuoles, which were shown to have pH values between 6.2 and 6.5. Overall, our study demonstrates that RaVC is an excellent probe for visualizing and quantifying intracellular pH in living fungal hyphae.Cytoplasmic pH is a physiological parameter that is tightly regulated by a complex interaction of H+ transport, H+-consuming and -producing reactions, and H+ buffering (10, 38). Maintaining pH within a physiological range is very important for protein stability, enzyme and ion channel activity, and many other processes that are required for cell growth, development, and survival (38). It has been proposed that intracellular pH serves as a mechanism by which cells coordinate the regulation of various processes that lack any other common regulating factors and may provide a link between the metabolic state and physiological responses (10).The most reliable measurements of cytoplasmic pH in filamentous fungi in single living hyphae have indicated a pH of ∼7.6. These measurements have been obtained using the ratiometric imaging of a dextran-conjugated, pH-sensitive dye injected into the cytoplasm to avoid sequestration into organelles (34). Changes in external pH were found to cause only small transient changes in the cytoplasmic pH, indicating that hyphae have a tightly regulated intracellular pH homeostatic mechanism. Rigorous quantitative analyses of cytoplasmic pH in growing hyphae and tip-growing plant cells have found no evidence for the existence of pronounced, tip-focused cytoplasmic pH gradients or for such gradients being required for the regulation of tip growth (4, 13, 34). These results contradicted previous reports of cytoplasmic pH gradients in hyphae (2, 25, 40, 41). Changes in cytoplasmic pH have been implicated in regulating protein synthesis, enzyme activities, and fermentation productivity in filamentous fungi (24) and cell cycle progression in fission yeast (26).The recent sequencing and analysis of the genome of the filamentous fungus Aspergillus niger has revealed a complex machinery for H+ transport that will play important roles in pH homeostasis and signaling (35). Key components of this machinery are five plasma membrane P-type H+-ATPases; one vacuolar V-type H+-ATPase; one mitochondrial membrane F0F1-ATP synthase; five K+, Na+/H+ antiporters; and six Ca+/H+ antiporters (5).Previous methods of measuring intracellular pH in filamentous fungi commonly have been fraught with problems. Loading hyphae with dextran-conjugated pH dyes or using pH-sensitive microelectrodes requires cells to be physically impaled with micropipettes or microelectrodes (42) and is technically demanding to perform without harming the cells under study (12, 33). Intracellular pH measurements with free pH-sensitive dyes often suffer from problems associated with dye loading and dye sequestration within organelles (21, 33). There are also reports on the use of radiolabeled membrane-permeable acids (3) and 31P nuclear magnetic resonance (NMR) for intracellular pH measurement (18, 19, 20) in fungi. However, both of these methods require extensive sample manipulation and do not allow the imaging of intracellular pH in single living cells. Ideal probes for imaging and measuring intracellular pH in single living cells should possess several key properties. These include having a high selectivity for H+ over other ions present; allowing the accurate quantification of intracellular pH; providing high temporal and spatial resolution; not interfering with normal physiological activities or cellular responses; exhibiting low cell toxicity; having a high signal-to-noise ratio; and having the possibility of being targeted to specific organelles.A novel approach for noninvasive intracellular pH measurements has been the development of a recombinant pH-sensitive probe based on mutated green fluorescent protein (GFP) (6, 17, 29, 43). Miesenbock et al. (29) introduced a ratiometric pH probe of this type, which they named pHluorin. Problems normally encountered with single-wavelength dyes are reduced by using ratiometric probes. These problems include distinguishing between differences in intracellular pH and variations in dye brightness due to a variable intracellular dye concentration, dye photobleaching, or dye leakage from cells (33). Thus, pHluorin is very suitable as a noninvasive probe in living cells for imaging and measuring intracellular pH (26, 29, 43), but its use with filamentous fungi has not been reported previously.The aims of this study were to (i) develop an improved version of the pHluorin probe (which we call RaVC) for intracellular pH imaging in filamentous fungi; (ii) obtain measurements of cytoplasmic pH in hyphae of A. niger expressing RaVC by using confocal ratio imaging; (iii) confirm or disprove that a pronounced, tip-focused, cytoplasmic pH gradient is absent in growing hyphae of A. niger; and (iv) assess the effects of changing the external pH, and of treating hyphae with known pH modulators, on intracellular pH homeostasis in A. niger. 相似文献
82.
Šárka Perutková Veronika Kralj-Iglič Mojca Frank Aleš Iglič 《Journal of biomechanics》2010,43(8):1612-1617
It is indicated that nonhomogeneous lateral distribution of membrane attached and flexible rod-like proteins (MRPs) may stabilize nanotubular membrane protrusions. We have shown that curvature induced accumulation of MRPs in the nanotubular membrane protrusion and the corresponding reduction of the membrane free energy are possible if the decrease of the deviatoric free energy of MRPs in the nanotubular protrusions is large enough to overcome the increase of the free energy due to decrease of configurational entropy in the process of lateral sorting of MRPs. The decrease of isotropic curvature energy of MRPs in the region of membrane protrusion is usually not sufficient for substantial MRPs sorting and consequent stabilization of the nanotubular membrane protrusions. 相似文献
83.
Petrovic U Sribar J Paris A Rupnik M Krzan M Vardjan N Gubensek F Zorec R Krizaj I 《Biochemical and biophysical research communications》2004,324(3):981-985
Recent identification of intracellular proteins that bind ammodytoxin (calmodulin, 14-3-3 proteins, and R25) suggests that this snake venom presynaptically active phospholipase A(2) acts intracellularly. As these ammodytoxin acceptors are cytosolic and mitochondrial proteins, the toxin should be able to enter the cytosol of a target cell and remain stable there to interact with them. Using laser scanning confocal microscopy we show here that Alexa-labelled ammodytoxin entered the cytoplasm of the rat hippocampal neuron and subsequently also its nucleus. The transport of proteins into the nucleus proceeds via the cytosol of a cell, therefore, ammodytoxin passed the cytosol of the neuron on its way to the nucleus. Although it is not yet clear how ammodytoxin is translocated into the cytosol of the neuron, our results demonstrate that its stability in the cytosol is not in question, providing the evidence that the toxin can act in this cellular compartment. 相似文献
84.
Katja Perdan-Pirkmajer Sergej Pirkmajer Andreja Raztresen Mojca Krzan 《Neurochemical research》2013,38(7):1348-1359
Histaminergic signalling constitutes an attractive target for treatment of neuropsychiatric disorders. One obstacle to developing new pharmacological options has been failure to identify putative specific histamine transporter responsible for histamine clearance. Although high-affinity histamine uptake was detected in neonatal cortical astrocytes, its existence in other brain regions remains largely unexplored. We investigated whether cerebellar and striatal astrocytes participate in histamine clearance and evaluated the role of organic cation transporters (OCT) in astroglial histamine transport. Kinetic and pharmacological characteristics of histamine transport were determined in cultured astrocytes derived from neonatal rat cerebellum, striatum and cerebral cortex. As well as astrocytes of cortical origin, cultured striatal and cerebellar astrocytes displayed temperature-sensitive, high-affinity histamine uptake. Exposure to ouabain or Na+-free medium, supplemented with choline chloride markedly depressed histamine transport in cortical astrocytes. Conversely, histamine uptake in striatal and cortical astrocytes was ouabain-resistant and was only partially diminished during incubation in the absence of Na+. Also, histamine uptake remained unaltered upon exposure to OCT inhibitor corticosterone, although OCTs were expressed in cultured astrocytes. Finally, histamine transport in cerebellar and striatal astrocytes was not sensitive to antidepressants. Despite common characteristics, cerebellar astrocytes had lower affinity, but markedly higher transport capacity for histamine compared to striatal astrocytes. Collectively, we provide evidence to suggest that cerebellar, striatal as well as cortical astrocytes possess saturable histamine uptake systems, which are not operated by OCTs. In addition, our data indicate that Na+-independent histamine carrier predominates in cerebellar and striatal astrocytes, whereas Na+-dependent transporter underlies histamine uptake in cortical astrocytes. Our findings implicate a role for histamine transporters in regulation of extracellular histamine concentration in cerebellum and striatum. Inhibition of histamine uptake might represent a viable option to modulate histaminergic neurotransmission. 相似文献
85.
Lorbar M Chung ES Nabi A Skalova K Fenton RA Dobson JG Meyer TE 《Canadian journal of physiology and pharmacology》2004,82(11):1026-1031
The objective of this study was to determine which adenosine receptor subtypes were involved in the modulation of norepinephrine release from cardiac nerve terminals. In addition, the persistence of adenosine-mediated effects was evaluated. Rat hearts attached to the stellate ganglion were isolated and perfused. The ganglion was electrically stimulated twice (S1 and S2), allowing 10 min between the stimulations. To determine adenosine receptor subtypes, selective and nonselective adenosine agonists and antagonists were infused following S1 and until the end of S2. To evaluate the persistence of adenosine-mediated effect on norepinephrine release, the stellate ganglion was stimulated a third (S3) and fourth (S4) time. Coronary effluents were collected to determine norepinephrine content. Adenosine and a selective A1 receptor agonist, CCPA, inhibited norepinephrine release by 49% and 54%, respectively. This effect was reversed by simultaneous infusion of nonspecific (8-SPT) and specific (DPCPX) A1 receptor antagonists. Selective A2A (CGS 21680) and A3 (AB-MECA) receptor agonists had no discernible effect on norepinephrine release. Similarly, adenosine A2A receptor antagonists CSC and DMPX did not alter the dose-response relation between norepinephrine release and adenosine. Finally, the inhibitory effects of adenosine on norepinephrine release did not persist 10 min subsequent to the removal of adenosine. Adenosine inhibited norepinephrine release primarily via the adenosine A1 receptor. This effect of adenosine was of short duration. Adenosine A2A and A3 receptors were either absent or functionally insignificant in the regulation of norepinephrine release in the rat heart. 相似文献
86.
Kranjc A Peterlin-Masic L Ilas J Prezelj A Stegnar M Kikelj D 《Bioorganic & medicinal chemistry letters》2004,14(12):3251-3256
Optimization of lead compounds 1 and 2 resulted in novel, selective, and potent thrombin inhibitors incorporating weakly basic heterobicyclic P(1)-arginine mimetics. The design, synthesis, and biological activity of racemic thrombin inhibitors 17-29 and enantiomerically pure thrombin inhibitors 30-33 are described. The arginine side-chain mimetics used in this study are 4,5,6,7-tetrahydro-1,3-benzothiazol-2-amine, 4,5,6,7-tetrahydro-2H-indazole, and 2-imino-4,5,6,7-tetrahydro-1,3-benzothiazol-3(2H)-ylamine. 相似文献
87.
Characterization of quercetin binding site on DNA gyrase 总被引:1,自引:0,他引:1
Plaper A Golob M Hafner I Oblak M Solmajer T Jerala R 《Biochemical and biophysical research communications》2003,306(2):530-536
Gyrases are DNA topology modifying enzymes present only in prokaryotes which makes them an attractive target for antibacterial drugs. Quercetin, one of the most abundant natural flavonoids, inhibits supercoiling activity of bacterial gyrase and induces DNA cleavage. It has been generally assumed that the mechanism of flavonoid inhibition is based on interaction with DNA. We show that quercetin binds to the 24 kDa fragment of gyrase B of Escherichia coli with a K(D) value of 15 microM and inhibits ATPase activity of gyrase B. Its binding site overlaps with ATP binding pocket and could be competitively replaced by either ATP or novobiocin. The structural model of quercetin-gyrase complex was prepared, based on the close similarity with ATP and quercetin binding sites of the src family tyrosine kinase Hck. We propose that quercetin inhibits gyrases through two different mechanisms based either on interaction with DNA or with ATP binding site of gyrase. 相似文献
88.
During the electroporation cell membrane undergoes structural changes, which increase the membrane conductivity and consequently lead to a change in effective conductivity of a cell suspension. To correlate microscopic membrane changes to macroscopic changes in conductivity of a suspension, we analyzed the effective conductivity theoretically, using two different approaches: numerically, using the finite elements method; and analytically, by using the equivalence principle. We derived the equation, which connects membrane conductivity with effective conductivity of the cell suspension. The changes in effective conductivity were analyzed for different parameters: cell volume fraction, membrane and medium conductivity, critical transmembrane potential, and cell orientation. In our analysis we used a tensor form of the effective conductivity, thus taking into account the anisotropic nature of the cell electropermeabilization and rotation of the cells. To determine the effect of cell rotation, as questioned by some authors, the difference between conductivity of a cell suspension with normally distributed orientations and parallel orientation was also calculated, and determined to be <10%. The presented theory provides a theoretical basis for the analysis of measurements of the effective conductivity during electroporation. 相似文献
89.
Very little is known about cross-talk between cAMP and calcium signalling in filamentous fungi. The aim of this study was to analyse the influence of cAMP and protein kinase A (PKA)-dependent phosphorylation on calcium signalling in Aspergillus niger. For this purpose, cytosolic free calcium ([Ca2+]c) was measured in living hyphae expressing codon-optimized aequorin. The calcium signature following mechanical perturbation was analysed after applying dibutryl-cAMP or IBMX which increased intracellular cAMP, or H7 which inhibited phosphorylation by PKA. Calcium signatures were also measured in mutant strains in which phosphorylation by PKA was increased or lacking. The results indicated that calcium channels were activated by cAMP-mediated, PKA-dependent phosphorylation. Further evidence for cross-talk between cAMP and calcium signalling came from the analysis of a mutant in which the catalytic subunit of PKA was under the control of an inducible promoter. The consequence of PKA induction was a transient increase in [Ca2+]c which correlated with a polar-apolar transition in hyphal morphology. A transient increase in [Ca2+]c was not observed in this mutant when the morphological shift was in the opposite direction. The [Ca2+]c signatures in response to mechanical perturbation by polarized and unpolarized cells were markedly different indicating that these two cell types possessed different calcium signalling capabilities. These results were consistent with PKA-dependent phosphorylation increasing [Ca2+]c to induce a polar to apolar shift in hyphal morphology. 相似文献
90.
Millington M Grindlay GJ Altenbach K Neely RK Kolch W Bencina M Read ND Jones AC Dryden DT Magennis SW 《Biophysical chemistry》2007,127(3):155-164
We have used widefield photon-counting FLIM to study FRET in fixed and living cells using control FRET pairs. We have studied fixed mammalian cells expressing either cyan fluorescent protein (CFP) or a fusion of CFP and yellow fluorescent protein (YFP), and living fungal cells expressing either Cerulean or a Cerulean-Venus fusion protein. We have found the fluorescence behaviour to be essentially identical in the mammalian and fungal cells. Importantly, the high-precision FLIM data is able to reproducibly resolve multiple fluorescence decays, thereby revealing new information about the fraction of the protein population that undergoes FRET and reducing error in the measurement of donor-acceptor distances. Our results for this simple control system indicate that the in vivo FLIM-FRET studies of more complex protein-protein interactions would benefit greatly from such quantitative measurements. 相似文献