ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Electronic Resource

Combustion tube soot from a diesel fuel/air mixture: issues in structure and reactivity (1988)

Ebert, Lawrence B. ; Scanlon, Joseph C. ; Clausen, Chris A.

s.l. : American Chemical Society

Energy & fuels 2 (1988), S. 438-445

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ISSN: 1520-5029

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology , Energy, Environment Protection, Nuclear Power Engineering , Process Engineering, Biotechnology, Nutrition Technology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ef00010a009

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2

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Proton transport and membrane shuttling in turtle bladder epithelium (1986)

Dixon, Troy E. ; Clausen, Chris ; Coachman, Denise ; [et al.]

Springer

The journal of membrane biology 94 (1986), S. 233-243

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ISSN: 1432-1424

Keywords: proton transport ; turtle bladder ; equivalent-circuit analysis ; impedance analysis ; acetazolamide ; endocytosis ; exocytosis ; pinocytosis ; membrane shuttling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Proton secretion in the urinary bladder of the freshwater turtle is mediated by proton pumps located in the apical membrane of carbonic-anhydrase (CA)-rich cells. It has been proposed that the rate of proton transport is regulated by endocytotic and exocytotic fusion processes which alter the apical membrane area, and hence number of exposed pumps. Three techniques were used to study this process. Analyses of transepithelial impedance provided estimates of transport-associated changes in net membrane area, as well as other electrical parameters. Electron microscopy allowed visualization of the endocytotic vesicles thought to be involved in the process. Finally, uptake of a florescent fluid-phase markerprovided measurements of the rates of endocytosis. We report the following: (i) endocytotic and exocytotic processes occur primarily in the CA-rich cells; (ii) inhibition of proton transport resulting from 0.5mm acetazolamide (AZ) results in a decrease in the apical membrane area of approximately 0.47 cm2/cm2 tissue; (iii) the apical membrane specific conductance of the CA-rich cells is approximately 220 μS/μF, and possibly represents a Cl− conductance that may function in counter-ion flow; (iv) the decline in transport following AZ is not directly proportional to the decline in apical membrane area, suggesting that changes in pump kinetics are also involved in the regulation of transport; (v) the CA-rich cells exhibit a high rate of constitutive pinocytosis, and hence membrane shuttling, which appears to be independent of the rate of transport; (vi) AZ induces a transient increase in the rates of endocytosis and shuttling; and (vii) the transport-associated changes in apical membrane area may reflect an effect of AZ on a regulated endocytotic pathway which is distinct from the pinocytotic process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869719

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3

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Changes in membrane conductances and areas associated with bicarbonate secretion in turtle bladder (1990)

Rich, Adam ; Dixon, Troy E. ; Clausen, Chris

Springer

The journal of membrane biology 113 (1990), S. 211-219

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ISSN: 1432-1424

Keywords: bicarbonate transport ; proton transport ; turtle bladder ; equivalent-circuit analysis ; impedance analysis ; endocytosis ; exocytosis ; carbonic anhydrase

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Transepithelial impedance-analysis studies were performed in turtle bladder epithelium in order to measure changes in the different epithelial membranes resulting from stimulation of electrogenic bicarbonate secretion. Changes in membrane conductance relate to changes in ionic permeability, whereas changes in membrane capacitance relate to changes in membrane area, since most biological membranes exhibit a specific capacitance of ∼1 μF/cm2. The results of this investigation are summarized as follows: (i) cAMP and carbachol, agents which have been shown previously to stimulate electrogenic bicarbonate secretion, result in increases in apical-membrane conductance and capacitance; (ii) these changes occur concomitantly with the observed change in transport (measured using the short-circuit-current technique), thereby suggesting that bicarbonate secretion may be regulated in part by changes in the chloride conductance of the apical membrane; (iii) the increase in conductance does not reflect an increase in the membrane's specific conductance, thereby indicating that it results from the addition of membrane possessing similar ionic permeability as the existing apical membrane; (iv) the magnitude of the changes in capacitance indicate that a minor cell population (β-type carbonic-anhydrase-rich cells) increase their apical-membrane area by several-fold; (v) a lack of transport-associated changes in the basolateral-membrane parameters suggest that transport is not regulated by alterations in basolateral-membrane ionic conductance or area; (vi) a lack of colchicine sensitivity, coupled with the magnitude of the changes in apical-membrane capacitance, indicate that the membrane remodeling processes are different from those involved in the regulation of proton secretion in a different cell population (α-type carbonic-anhydrase-rich cells).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870073

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4

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Constitutive and transport-related endocytotic pathways in turtle bladder epithelium (1988)

Dixon, Troy E. ; Clausen, Chris ; Coachman, Denise

Springer

The journal of membrane biology 102 (1988), S. 49-58

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ISSN: 1432-1424

Keywords: acetazolamide ; azide ; carbonic anhydrase ; endocytosis ; exocytosis ; FITC-dextran ; impedance analysis ; pinocytosis ; proton transport ; turtle bladder

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Proton secretion in the urinary bladder of the fresh-water turtle is mediated by a proton pump located in the apical membrane of a population of cells characteristically rich in carbonic anhydrase. Earlier studies have demonstrated that these cells exhibit apical-membrane endocytotic and exocytotic processes which are thought to be involved in the regulation of the rate of proton transport via alterations in the number of pumps within the apical membrane. In this study, we sought to characterize these processes using two different methods. Analysis of transepithelial impedance yielded estimates of membrane capacitance which could be related to membrane area, thereby allowing one to monitor net changes in apical-membrane area resulting from changes in the net rates of endo-and exocytosis. Uptake of the fluid-phase marker FITC-dextran provided a measure of net extracellular volume uptake which was related to net rates of endocytosis. Our major conclusions are summarized as follows. The bladder cells exhibit a high baseline rate of endocytosis which appears to be a constitutive process similar to pinocytosis. This process is completely inhibited when ambient temperature is reduced to 15°C. In addition, serosal application of 0.5mm acetazolamide causes a transient increase in the rate of endocytosis, concomitant with a decrease in the rate of transport. Reduction of ambient temperature to 15°C reduces the rate of acetazolamide-induced endocytosis, but does not abolish it. Addition of 1mm serosal azide not only prevents the acetazolamide-induced increase in endocytosis, but also prevents the decrease in transport caused by acetazolamide. Azide has no effect on the baseline rate of endocytosis, nor does it prevent inhibition of carbonic anhydrase by acetazolamide. The specificity of azide, coupled with the different temperature sensitivities, demonstrate that the constitutive and transport-dependent endocytotic pathways are distinct processes. The observation that azide prevents both the acetazolamide-induced increase in endocytosis and the decrease in transport strongly supports the notion that endocytosis of proton-pump-containing membrane is requisite for the inhibition of transport by acetazolamide. Finally, the results also demonstrate that acetazolamide does not inhibit proton secretion simply by inhibiting carbonic anhydrase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01875352

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5

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Membrane transport parameters in frog corneal epithelium measured using impedance analysis techniques (1986)

Clausen, Chris ; Reinach, Peter S. ; Marcus, Daniel C.

Springer

The journal of membrane biology 91 (1986), S. 213-225

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ISSN: 1432-1424

Keywords: corneal epithelium ; corneal endothelium ; Cl− transport ; impedance analysis ; equivalent circuit analysis ; cell coupling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Active Cl− transport in bullfrog corneal epithelium was studied using transepithelial impendance analysis methods, and direct-current (DC) measurements of membrane voltages and resistance ratios. The technique allows the estimation of the apical and basolateral membrane conductances, and the paracellular conductance, and does not rely on the use of membrane conductance-altering agents to obtain these measurements as was requisite in earlier DC equivalent-circuit analysis studies. In addition, the analysis results in estimates of the apical and basolateral membrane capacitances, and allows resolution of the paracellular conductance into properties of the tight junctions and lateral spaces. Membrane capacitances (proportional to areas) were used to estimate the specific conductances of the apical and basolateral membranes, as well as to evaluate coupling between the cell layers. We confirm results obtained from earlier studies: (1) apical membrane conductance is proportional to the rate of active Cl− transport and is, highly Cl− selective; (2) intracellular Cl− activity is above electrochemical equilibrium, thereby providing a net driving force for apical membrane Cl− exit; (3) the paracellular conductance is comparable to the transcellular conductance. We also found that: (1) the paracellular conductance is composed of the series combination of the junctional conductance and a nonnegligible lateral space resistance; (2) a small K+ conductance reported in the apical membrane may result from Cl− channels possessing a finite permeability to K+; (3) the basolateral membrane areas is 36 times greater than the apical membrane area which is consistent with the notion of electrical coupling between the five to six cell layers of the epithelium; (4) the specific conductance of the basolateral membrane is many times lower than that of the apical membrane; (5) the net transport of Cl− is modulated primarily by changes in the conductance of the apical membrane and not by changes in the net electrochemical gradient resulting from opposite changes in the electrical and chemical gradients; (6) the conductance of the basolateral membrane does not change with transport which implies that the net driving force for K+ exit increases with transport, possibly due to an increase in the intracellular K+ activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868815

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6

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General method for the derivation and numerical solution of epithelial transport models (1984)

Latta, Richard ; Clausen, Chris ; Moore, Leon C.

Springer

The journal of membrane biology 82 (1984), S. 67-82

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ISSN: 1432-1424

Keywords: Epithelial transport ; mathematical models ; cell volume ; intracellular composition ; sodium transport ; Ussing model ; tight epithelia ; mammalian urinary bladder

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary A general method is presented for the formulation and numerical evaluation of mathematical models describing epithelial transport. The method is based on the principles of conservation of mass, and maintenance of electroneutrality within the cells and bathing solutions. It is therefore independent of the specific membrane transport mechanisms, and can be used to evaluate different models describing arbitrary transport processes (including passive, active and cotransport processes). Detailed numerical methods are presented that allow computation of steady-state and transient responses under open-circuit, current-clamp and voltage-clamp conditions, using a general-purpose laboratory minicomputer. To evaluate the utility of this approach, a specific model is presented that is consistent with the Koefoed-Johnson and Ussing hypothesis of sodium transport in tight epithelia (Acta Physiol. Scand. 42:298–308, 1958). This model considers passive transport of an arbitrary number of permeant solutes, active transport of sodium and potassium, and osmotically induced water transport across the apical and basolateral membranes. Results of the model are compared to published experimental measurements in rabbit urinary bladder epithelium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870733

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7

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Membrane electrical parameters in turtle bladder measured using impedance-analysis techniques (1986)

Clausen, Chris ; Dixon, Troy E.

Springer

The journal of membrane biology 92 (1986), S. 9-19

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ISSN: 1432-1424

Keywords: proton transport ; turtle bladder ; equivalent-circuit analysis ; impedance analysis ; cell volume regulation ; endocytosis ; exocytosis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Equivalent-circuit impedance analysis experiments were performed on the urinary bladders of freshwater turtles in order to quantify membrane ionic conductances and areas, and to investigate how changes in these parameters are associated with changes in the rate of proton secretion in this tissue. In all experiments, sodium reabsorption was inhibited thereby unmasking the electrogenic proton secretion process. We report the following: (1) transepithelial impedance is represented exceptionally well by a simple equivalent-circuit model, which results in estimates of the apical and basolateral membrane ionic conductances and capacitances; (2) when sodium transport is inhibited with mucosal amiloride and serosal ouabain, the apical and basolateral membrane conductances and capacitances exhibit a continual decline with time; (3) this decline in the membrane parameters is most likely caused by subtle time-dependent changes in cell volume, resulting in changes in the areas of the apical and basolateral membranes; (4) stable membrane parameters are obtained if the tissue is not treated with ouabain, and if the oncotic pressure of the serosal solution is increased by the addition of 2% albumin; (5) inhibition of proton secretion using acetazolamide in CO2 and HCO 3 − -free bathing solutions results in a decrease in the area of the apical membrane, with no significant change in its specific conductance; (6) stimulation of proton transport with CO2 and HCO 3 − -containing serosal solution results in an increase in the apical membrane area and specific conductance. These results show that our methods can be used to measure changes in the membrane electrophysiological parameters that are related to changes in the rate of proton transport. Notably, they can be used to quantify in the live tissue, changes in membrane area resulting from changes in the net rates of endocytosis and exocytosis which are postulated to be intimately involved in the regulation of proton transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869011

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8

Electronic Resource

Lithium pharmacokinetics: Single-dose experiments and analysis using a physiological model (1980)

Ehrlich, Barbara E. ; Clausen, Chris ; Diamond, Jared M.

Springer

Journal of pharmacokinetics and pharmacodynamics 8 (1980), S. 439-461

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ISSN: 1573-8744

Keywords: lithium ; pharmacokinetics ; physiological parameters ; cellular transport ; three-compartment model ; circadian rhythm

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The kinetics of lithium (Li +) distribution after a single dose was studied in healthy human subjects. Experiments were performed by simultaneously following changes of Li+ concentration in plasma, erythrocytes (RBC), and urine. The data were fitted by a simple but physiologically realistic model, so that extracted rate constants could be assigned to real body compartments and compared with independent measurements of cellular transport characteristics. The extracted rate constants were used to calculate steady-state cell-to-plasma Li+ ratios for RBC and for inaccessible cells (mainly muscle). In both cell types, the intracellular Li+ concentration is far below electrochemical equilibrium. This finding suggests that the Li+ countertransport efflux mechanism of RBC may be shared with muscle. We also present evidence for a circadian rhythm in Li+ excretion that parallels the daily cycle of Na+ and K+ excretion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01059545

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9

Electronic Resource

Electrogenic bicarbonate secretion in the turtle bladder: Apical membrane conductance characteristics (1991)

Rich, Adam ; Dixon, Troy E. ; Clausen, Chris

Springer

The journal of membrane biology 119 (1991), S. 241-252

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ISSN: 1432-1424

Keywords: bicarbonate transport ; turtle bladder ; equivalentcircuit analysis ; impedance analysis ; membrane conductance ; anion transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We have recently shown that stimulation of electrogenic HCO 3 − secretion is accompanied by a simultaneous increase in short-circuit current (I sc, equivalent to HCO 3 − secretion rate under these conditions), apical membrane capacitance (C a , proportional to membrane area), and apical membrane conductance (G a , proportional to membrane ionic permeability). The current experiments were undertaken to explore the ionic basis for the increase inG a and the possibility that the rate of electrogenic HCO 3 − secretion is regulated by changes inG a . Membrane electrical parameters were measured using impedance-analysis techniques before and after stimulation of electrogenic HCO 3 − secretion with cAMP in three solutions which contained different chloride concentrations. In another series of experiments, the effects of an anion channel blocker, anthracene-9-carboxylic acid (9-AA), were measured after stimulation of electrogenic HCO 3 − secretion with cAMP. The major conclusions are: (i) a measurable apical Cl− conductance exists in control hemibladders; (ii) the transport-associated increase inG a includes a Cl−-conductive component; (iii)G a also appears to reflect a HCO 3 − conductance; (iv) the relative magnitudes of the apical membrane conductances to Cl− and HCO 3 − are similar; (v) 9-AA reducesG a andI sc appear cAMP-stimulated hemibladders; and (vi) alterations inI sc appear to be mediated by changes inG a .

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868729

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10

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Urinary proteases degrade epithelial sodium channels (1991)

Lewis, Simon A. ; Clausen, Chris

Springer

The journal of membrane biology 122 (1991), S. 77-88

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ISSN: 1432-1424

Keywords: epithelial transport ; sodium channels ; proteases ; channel hydrolysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The mammalian urinary bladder epithelium accommodates volume changes by the insertion and withdrawal of cytoplasmic vesicles. Both apical membrane (which is entirely composed of fused vesicles) and the cytoplasmic vesicles contain three types of ionic conductances, one amiloride sensitive, an-other a cation-selective conductance and the third a cation conductance which seems to partition between the apical membrane and the mucosal solution. The transport properties of the apical membrane (which has been exposed to urine in vivo) differ from the cytoplasmic vesicles by possessing a lower density of amiloride-sensitive channels and a variable level of leak conductance. It was previously shown that glandular kallikrein was able to hydrolyze epithelial sodium channels into the leak conductance and that this leak conductance was further degraded into a channel which partitioned between the apical membrane and the mucosal solution. This report investigates whether kallikrein is the only urinary constituent capable of altering the apical membrane ionic permeability or whether other proteases or ionic conditions also irreversible modify apical membrane permeability. Alterations of mucosal pH, urea concentrations, calcium concentrations or osmolarity did not irreversible affect the apical membrane ionic conductances. However, urokinase and plasmin (both serine proteases found in mammalian urine) were found to cause an irreversible loss of amiloride-sensitive current, a variable change in the leak current as well as the appearance of a third conductance which was unstable in the apical membrane and appears to partition between the apical membrane and the mucosal solution. Amiloride protects the amiloride-sensitive conductance from hydrolysis but does not protect the leak pathway. Neither channel is protected by sodium. Fluctuation analysis demonstrated that the loss of amiloride-sensitive current was due to a decrease in the sodium-channel density and not a change in the single-channel current. Assuming a simple model of sequential degradation, estimates of single-channel currents and conductances for both the leak channel and unstable leak channel are determined.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01872741

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