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1

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Evidence for a Na+/K+/Cl− cotransport system in basolateral membrane vesicles from the rabbit parotid (1986)

Turner, R. James ; George, Janet N. ; Baum, Bruce J.

Springer

The journal of membrane biology 94 (1986), S. 143-152

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ISSN: 1432-1424

Keywords: fluid secretion ; exocrine gland ; chloride transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Sodium (22Na) transport was studied in a basolateral membrane vesicle preparation from rabbit parotid. Sodium uptake was markedly dependent on the presence of both K+ and Cl− in the extravesicular medium, being reduced 5 times when K+ was replaced by a nonphysiologic cation and 10 times when Cl− was replaced by a nonphysiologic anion. Sodium uptake was stimulated by gradients of either K+ or Cl− (relative to nongradient conditions) and could be driven against a sodium concentration gradient by a KCl gradient. No effect of membrane potentials on KCl-dependent sodium flux could be detected, indicating that this is an electroneutral process. A KCl-dependent component of sodium flux could also be demonstrated under equuilibrium exchange conditions, indicating a direct effect of K+ and Cl− on the sodium transport pathway. KCl-dependent sodium uptake exhibited a hyperbolic dependence on sodium concentration consistent with the existence of a single-transport system withK m =3.2mm at 80mm KCl and 23°C. Furosemide inhibited this transporter withK 0.5=2×10−4 m (23°C). When sodium uptake was measured as a function of potassium and chloride concentrations a hyperbolic dependence on [K] (Hill coefficient =1.31±0.07) were observed, consistent with a Na/K/Cl stoichiometry of 1∶1∶2. Taken together these data provide strong evidence for the electroneutral coupling of sodium and KCl movements in this preparation and strongly support the hypothesis that a Na+/K+/Cl− cotransport system thought to be associated with transepithelial chloride and water movements in many exocrine glands is present in the parotid acinar basolateral membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871194

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2

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Backfilling canals to mitigate Wetland dredging in Louisiana coastal marshes (1987)

Neill, Christopher ; Turner, R. Eugene

Springer

Environmental management 11 (1987), S. 823-836

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ISSN: 1432-1009

Keywords: Backfilling ; Mitigation ; Wetlands ; Louisiana ; Dredging

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Returning canal spoil banks into canals, or backfilling, is used in Louisiana marshes to mitigate damage caused by dredging for oil and gas extraction. We evaluated 33 canals backfilled through July 1984 to assess the success of habitat restoration. We determined restoration success by examining canal depth, vegetation recolonization, and regraded spoil bank soils after backfilling. Restoration success depended on: marsh type, canal location, canal age, marsh soil characteristics, the presence or absence of a plug at the canal mouth, whether mitigation was on- or off-site, and dredge operator performance. Backfilling reduced median canal depth from 2.4 to 1.1 m, restored marsh vegetation on the backfilled spoil bank, but did not restore emergent marsh vegetation in the canal because of the lack of sufficient spoil material to fill the canal and time. Median percentage of cover of marsh vegetation on the canal spoil banks was 51.6%. Median percentage of cover in the canal was 0.7%. The organic matter and water content of spoil bank soils were restored to values intermediate between spoil bank levels and predredging marsh conditions. The average percentage of cover of marsh vegetation on backfilled spoil banks was highest in intermediate marshes (68.6%) and lowest in fresh (34.7%) and salt marshes (33.9%). Average canal depth was greatest in intermediate marshes (1.50 m) and least in fresh marshes (0.85 m). Canals backfilled in the Chenier Plain of western Louisiana were shallower (average depth = 0.61 m) than in the eastern Deltaic Plain (mean depth range = 1.08 to 1.30 m), probably because of differences in sediment type, lower subsidence rate, and lower tidal exchange in the Chenier Plain. Canals backfilled in marshes with more organic soils were deeper, probably as a result of greater loss of spoil volume caused by oxidation of soil organic matter. Canals ten or more years old at the time of backfilling had shallower depths after backfilling. Depths varied widely among canals backfilled within ten years of dredging. Canal size showed no relationship to canal depth or amount of vegetation reestablished. Plugged canals contained more marsh reestablished in the canal and much greater chance of colonization by submerged aquatic vegetation compared with unplugged canals. Dredge operator skill was important in leveling spoil banks to allow vegetation reestablishment. Wide variation in dredge performance led to differing success of vegetation restoration. Complete reestablishment of the vegetation was not a necessary condition for successful restoration. In addition to providing vegetation reestablishment, backfilling canals resulted in shallow water areas with higher habitat value for benthos, fish, and waterfowl than unfilled canals. Spoil bank removal also may help restore water flow patterns over the marsh surface. Increased backfilling for wetland mitigation and restoration is recommended.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01867248

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Marsh management plans in practice: Do they work in coastal Louisiana, USA? (1988)

Cowan, James H. ; Turner, R. Eugene ; Cahoon, Donald R.

Springer

Environmental management 12 (1988), S. 37-53

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ISSN: 1432-1009

Keywords: Wetlands ; Marsh management ; Louisiana ; Impoundment ; Water control structures

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Louisiana's coastal wetlands represent about 41% of the nation's total and are extensively managed for fish, fur, and waterfowl. Marsh management plans (MMPs) are currently used to avoid potential user conflicts and are believed to be a best management practice for specific management goals. In this article, we define MMPs and examine their variety, history, impacts, and future. A MMP is an organized written plan submitted to state and federal permitting agencies for approval and whose purpose is to regulate wetland habitat quantity and quality (control land loss and enhance productivity). MMPs are usually implemented by making structural modifications in the marsh, primarily by using a variety of water control structures in levees to impound or semi-impound managed areas. It appears that MMPs using impoundments are only marginally successful in achieving and often contradict management goals. Although 20% of coastal Louisiana may be in MMPs by the year 2000, conflict resolution of public and private goals is compromised by a surfeit of opinion and dearth of data and experience. Based on interpretation of these results, we believe the next phase of management should include scientific studies of actual impacts, utilization of post-construction monitoring data, inventory of existing MMPs, development of new techniques, and determination of cumulative impacts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01867376

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Modeling wetland loss in coastal Louisiana: Geology, geography, and human modifications (1988)

Cowan, James H. ; Turner, R. Eugene

Springer

Environmental management 12 (1988), S. 827-838

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ISSN: 1432-1009

Keywords: Wetland loss ; Geology ; Coast ; Models ; Louisiana

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Habitat change in coastal Louisiana from 1955/6 to 1978 was analyzed to determine the influence of geological and man-made changes on landscape patterns within 7.5 min quadrangle maps. Three quantitative analyses were used: principal components anlaysis, multiple regression analysis, and cluster analysis. Regional differences in land loss rates reflect variations in geology and the deltaic growth/decay cycles, man-induced chages in hydrology (principally canal dredging and spoil banking), and land-use changes (principally urbanization and agricultural expansion). The coastal zone is not homogeneous with respect to these variables and the interaction between causal factors leading to wetland loss is therefore locally variable and complex. The relationship between wetland loss, hydrologic changes, and geology can be described with statistically meaningful results, even though these data are insufficient to precisely quantify the relationship. However, these data support the hypothesis that the indirect impacts of man-induced changes (hydrologic and land use) may be as influential as the direct impacts resulting in converting wetlands to open water (canals) or modified (impounded) habitat. Three regions within the Louisiana coastal zone can be defined, based on the potential causal factors used in the analyses. The moderate (mean = 22%) wetland loss rates in region 1 are a result of relatively high canal density and developed area in marshes which overlie sediments of moderate age and depth; local geology acts, in this case, to lessen indirect impacts. On the other hand, wetland loss rates in region 2 are high (mean = 36%), despite fewer man-induced impacts; the potential for increased wetland loss due to both direct and indirect effects of man's activity in these areas is high. Conversely, wetland loss (mean = 20%) in region 3 is apparently least influenced by man's activity in the coastal zone because of sedimentary geology (old, thin sediments), even though these areas have already experienced significant direct habitat alteration and wetland loss.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01867610

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5

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Agonist-induced activation of Na+/H+ exchange in rat parotid acinar cells (1989)

Manganel, Michel ; Turner, R. James

Springer

The journal of membrane biology 111 (1989), S. 191-198

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ISSN: 1432-1424

Keywords: exocrine gland ; pH regulation ; Na+/H+ exchange ; fluid secretion ; muscarinic agonist

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The present studies were designed to test our previous suggestion that Na+/H+ exchange was activated by muscarinic stimulation of rat parotid acinar cells. Consistent with this hypothesis, we demonstrate here that intact rat parotid acini stimulated with the muscarinic agonist carbachol in HCO 3 − -free medium show an enhanced recovery from an acute acid load as compared to similarly challenged untreated preparations. Amiloride-sensitive22Na uptake, due to Na+/H+ exchange, was also studied in plasma membrane vesicles prepared from rat parotid acini pretreated with carbachol. This uptake was stimulated twofold relative to that observed in vesicles from control (untreated) acini. This stimulation was time dependent, requiring ∼15 min of acinar incubation with carbachol to reach completion, and ws blocked by the presence of the muscarinic antagonist atropine (2×10−5 m) in the pretreatment medium. The effect of carbachol was dose dependent withK 0.5∼3×10−6 m. Stimulation of the exchanger was also seen in vesicles prepared from acini pretreated with the α-adrenergic agonist epinephrine, but not with the β-adrenergic agonist isoproterenol, or with substance P. Kinetic analysis indicated that the stimulation induced by carbachol was due to an alkaline shift in the pH responsiveness of the exchanger in addition to an increasedapparent transport capacity. Taken together with previous results from this and other laboratories, these results strongly suggest that the Na+/H+ exchanger and its regulation are intimately involved in the fluidsecretory response of the rat parotid.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871782

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6

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Inactivation of the rabbit parotid Na/K/Cl cotransporter by N-ethylmaleimide (1989)

George, Janet N. ; Turner, R. James

Springer

The journal of membrane biology 112 (1989), S. 51-58

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ISSN: 1432-1424

Keywords: loop diuretics ; exocrine gland ; fluid secretion ; parotid ; acinar cell ; ion transport ; chloride secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The inactivation of the rabbit parotid Na/K/Cl cotransporter by the irreversible sulfhydryl reagent N-ethylmaleimide (NEM) is studied by monitoring its effect on high affinity bumetanide binding to the carrier. NEM reduces the number of bumetanide binding sites with no significant change in the affinity of those remaining. NEM also reduces KCl-dependent22Na flux via the cotransporter by the same factor as the reduction in bumetanide binding sites. Both bumetanide and its analogue furosemide can protect against the effect of NEM. The concentration range over which this protection occurs is in good agreement with affinities of these two compounds for the high affinity bumetanide binding site (2.6 and 85 μm, respectively), indicating an association of this site with the site of action of NEM. Also consistent with this hypothesis are the observations that (i) sodium and potassium, both of which are required for high affinity bumetanide binding, increase the rate of inactivation of binding by NEM and (ii) chloride, at concentrations previously shown to competitively inhibit bumetanide binding, protects the cotransporter against NEM. The effects of NEM on bumetanide binding are mimicked by another highly specific sulfhydryl reagent, methyl methanethiolsulfonate. The apparent rate constant for inactivation of high affinity bumetanide binding by NEM is a hyperbolic function of NEM concentration consistent with a model in which the inactivation reaction is first order in [NEM] and proceeds through an intermediate adsorptive complex. The data indicate that the presence of a reduced sulfhydryl group at or closely related to the bumetanide binding site is essential for the operation of the parotid Na/K/Cl cotransporter.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871163

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7

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Solution of carrier-type transport models: General solution for an arbitrarily complex rapid equilibrium model (1985)

Turner, R. James

Springer

The journal of membrane biology 88 (1985), S. 77-83

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ISSN: 1432-1424

Keywords: transport kinetics ; carrier model ; transport theory ; coupled transport ; active transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary A general framework for solving and analyzing rapid equilibrium carrier models is given. The basis of this work is the demonstration that the solution of an arbitrarily complex model of this type can be written in the form $$J_S^{1 \to 2} = \frac{{C_o A_{12} F_{21} }}{{\alpha _1 F_{21} + \alpha _2 F_{12} }}$$ whereJ s 1→2 is the unidirectional flux of the substrateS from side 1 to side 2 of the membrane,C 0 is the total number of carriers andA 12,F 12,F 21, α1 and α2 are sums of terms which can be written down simply and directly from knowledge of the basic properties of the model. The above relation not only leads to a simple and convenient method for solving transport models of this type, but also provides a powerful algebraic tool for analyzing the properties of individual models or groups of models. In this regard several examples of the potential utility of this formalism are given. The effects of “dead-end” inhibitors on rapid equilibrium carrier models are analyzed. Also the properties of carriers with one substrate binding site are studied in some detail. A parameterization ofJ s 1→2 entirely in terms of experimentally measurable kinetic parameters as well as a set of generalized rejection criteria are derived for these models. Since the existence of a single substrate binding site is the only assumption made in these latter derivations, the results obtained necessarily apply to all rapid equilibrium models of this type, irrespective of complexity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871215

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8

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Coupled Na+/H+ exchange in rat parotid basolateral membrane vesicles (1988)

Manganel, Michel ; Turner, R. James

Springer

The journal of membrane biology 102 (1988), S. 247-254

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ISSN: 1432-1424

Keywords: exocrine gland ; parotid ; acinar cell ; ion transport ; fluid secretion ; pH regulation ; antiport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary pH gradient-dependent sodium transport in highly purified rat parotid basolateral membrane vesicles was studied under voltage-clamped conditions. In the presence of an outwardly directed H+ gradient (pHin=6.0, pHout=8.0)22Na uptake was approximately ten times greater than uptake measured at pH equilibrium (pHin=pHout=6.0). More than 90% of this sodium flux was inhibited by the potassium-sparing diuretic drug amiloride (K 1 =1.6 μm) while the transport inhibitors furosemide (1mm), bumetanide (1mm) SITS (0.5mm) and DIDS (0.1mm) were without effect. This transport activity copurified with the basolateral membrane marker K+-stimulatedp-nitrophenyl phosphatase. In addition22Na uptake into the vesicles could be driven against a concentration gradient by an outwardly directed H+ gradient. pH gradient-dependent sodium flux exhibited a simple Michaelis-Menten-type dependence on sodium concentration cosistent with the existence of a single transport system withK M =8.0mm at 23°C. A component of pH gradient-dependent, amiloride-sensitive sodium flux was also observed in rabbit parotid basolateral membrane vesicles. These results provide strong evidence for the existence of a Na+/H+ antiport in rat and rabbit parotid acinar basolateral membranes and extend earlier less direct studies which suggested that such a transporter was present in salivary acinar cells and might play a significant role in salivary fluid secretion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01925718

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Ionic dependence of bumetanide binding to the rabbit parotid Na/K/Cl cotransporter (1988)

Turner, R. James ; George, Janet N.

Springer

The journal of membrane biology 102 (1988), S. 71-77

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ISSN: 1432-1424

Keywords: loop diuretics ; exocrine gland ; fluid secretion ; parotid ; acinar cell ; ion transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The Na/K/Cl-dependent component of the binding of the loop diuretic bumetanide to basolateral membrane vesicles from the rabbit parotid is studied. A Scatchard analysis indicates that this binding is due to a single high-affinity site withK D =3.2±0.3 μm (n=9) at 100mm sodium, 100mm potassium and 5mm chloride. When KCl-dependent22Na transport and tracer [3H]-bumetanide binding are monitored simultaneously as a function of (unlabeled) bumetanide concentration it is found that theK 0.5 for bumetanide inhibition of both processes are identical indicating that the high-affinity bumetanide binding site studied here is identical with a bumetanide-inhibitory site on the Na/K/Cl cotransport system previously identified in this preparation (R.J. Turner, J.N. George and B.J. Baum,J. Membrane Biol. 94:143–152, 1986). High-affinity bumetanide binding exhibits a hyperbolic dependence on both [Na] and [K] consistent with Na/bumetanide and K/bumetanide binding stoichiometries of 1∶1 andK 0.5 values of approximately 33mm for sodium and 23mm for potassium. In contrast, the dependence on [Cl] is biphasic, with bumetanide binding increasing from 0 to 5mm chloride and decreasing toward baseline levels thereafter. Scatchard analysis of this latter inhibitory effect of chloride indicates a competitive interaction with bumetanide in agreement with earlier indications that bumetanide inhibits Na/K/Cl cotransport at a chloride site. However, studies of the effects of various anions on bumetanide binding and22Na transport show a poor correlation between the specificities of these two processes, suggesting that the inhibitory chloride site is not a chloride transport site.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01875354

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