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3. Cadmium and wild boar: Environmental exposure and immunological impact on macrophages

Author

Giulia Franzoni, Valentina Ciccotelli, Lucia Masiello, Chiara Grazia De Ciucis, Antonio Giovanni Anfossi, Barbara Vivaldi, Mauro Ledda, Susanna Zinellu, Silvia Dei Giudici, Enrica Berio, Andreoli Tiziana, Monica Dellepiane, Simona Zoppi, Chiara Masotti, Maria Ines Crescio, Annalisa Oggiano, Carlo Ercolini, and Elisabetta Razzuoli

Subjects
Cadmium, Wild boars, Environmental contamination, Monocyte-derived macrophages, Cytokines, TLRs, Toxicology. Poisons, RA1190-1270
Abstract

Cadmium (Cd2+) is regarded as one of the most toxic heavy metals, which can enter the food chain through environmental contamination and be bioaccumulated. Its exposure in Ligurian wild boars was monitored between 2016–2020 and revealed high level of this heavy metal in different provinces. In one of these polluted area, 21 wild boars were additionally sampled and the relationship between hepatic and renal Cd2+ concentration suggested that majority of these animals presented chronic intoxication. Cd2+ exposure of wild boar might lead to an immunosuppression status, thus in vitro experiments on wild boar monocyte-derived macrophages (moMФ) were carried out. Effects of Cd2+ scalar doses were evaluated through viability and adsorption assays, ELISA, qPCR. Moderate doses of this environmental pollutant (20 μM) were absorbed by moMФ, with subsequent reduction of their viability. This heavy metal did not trigger release of either IFN- β, anti-inflammatory or pro-inflammatory cytokines by moMФ, instead 24 h treatment with 20 μM of Cd2+ resulted in down-regulated expression of TNF-α, IL-12p40, several TLRs, CD14, MD2, BD2, MyD88, p65, and NOS2. The results of our monitoring activity suggested that wild boar can be useful to monitor environmental exposure of this heavy metal and can help in understanding the type of contamination. In addition, in vitro experiments on wild boar moMФ revealed that Cd2+ exposure negatively affected the immune function of these cells, likely leading to increased susceptibility to infection.

Published
2022
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5. CO2-stimulated NaCl absorption in the mouse renal cortical thick ascending limb of Henle. Evidence for synchronous Na +/H+ and Cl-/HCO3- exchange in apical plasma membranes.

Author

Friedman, P A and Andreoli, T E

Abstract

These experiments evaluated salt transport processes in isolated cortical thick limbs of Henle (cTALH) obtained from mouse kidney. When the external solutions consisted of Krebs-Ringer bicarbonate (KRB), pH 7.4, and a 95% O2-5% CO2 gas phase, the spontaneous transepithelial voltage (Ve, mV, lumen-to-bath) was approximately mV; the net rate of Cl- absorption (JnetCl) was approximately 3,600 pmols s-1 cm-2; the net rate of osmotic solute absorption Jnetosm was twice JnetCl; and the net rate of total CO2 transport (JnetCO2) was indistinguishable from zero. Thus, net Cl- absorption was accompanied by the net absorption of a monovalent cation, presumably Na+, and net HCO3- absorption was negligible. This salt transport process was stimulated by (CO2 + HCO3-): omission of CO2 from the gas phase and HCO3- from external solutions reduced JnetCl, Jnetosm, and Ve by 50%. Furthermore, 10(-4) M luminal furosemide abolished JnetCl and Ve entirely. The lipophilic carbonic anhydrase inhibitor ethoxzolamide (10(-4) M, either luminal or peritubular) inhibited (CO2 + HCO3-)-stimulated JnetCl, Jnetosm, and Ve by approximately 50%; however, when the combination (CO2 + HCO3-) was absent, ethoxzolamide had no detectable effect on salt transport. Ve was reduced or abolished entirely by omission of either Na+ or Cl- from external solutions, by peritubular K+ removal, by 10(-3) M peritubular ouabain, and by 10(-4) M luminal SITS. However, Ve was unaffected by 10(-3) M peritubular SITS, or by the hydrophilic carbonic anhydrase inhibitor acetazolamide (2.2 x 10(-4) M, lumen plus bath). We interpret these data to indicate that (CO2 + HCO3-)-stimulated NaCl absorption in the cTALH involved two synchronous apical membrane antiport processes: one exchanging luminal Na+ for cellular H+; and the other exchanging luminal Cl- for cellular HCO3- or OH-, operating in parallel with a (CO2+ HCO3-)-independent apical membrane NaCl cotransport mechanism.

Published
1982
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6. Ionic conductance pathways in the mouse medullary thick ascending limb of Henle. The paracellular pathway and electrogenic Cl- absorption.

Author

Hebert, S C and Andreoli, T E

Abstract

Net Cl- absorption in the mouse medullary thick ascending limb of Henle (mTALH) involves a furosemide-sensitive Na+:K+:2 Cl- apical membrane symport mechanism for salt entry into cells, which occurs in parallel with a Ba++-sensitive apical K+ conductance. The present studies, using the in vitro microperfused mouse mTALH, assessed the concentration dependence of blockade of this apical membrane K+-conductive pathway by Ba++ to provide estimates of the magnitudes of the transcellular (Gc) and paracellular (Gs) electrical conductances (millisiemens per square centimeter). These studies also evaluated the effects of luminal hypertonicity produced by urea on the paracellular electrical conductance, the electrical Na+/Cl- permselectivity ratio, and the morphology of in vitro mTALH segments exposed to peritubular antidiuretic hormone (ADH). Increasing luminal Ba++ concentrations, in the absence of luminal K+, produced a progressive reduction in the transcellular conductance that was maximal at 20 mM Ba++. The Ba++-sensitive transcellular conductance in the presence of ADH was 61.8 +/- 1.7 mS/cm2, or approximately 65% of the total transepithelial conductance. In phenomenological terms, the luminal Ba++-dependent blockade of the transcellular conductance exhibited negative cooperativity. The transepithelial osmotic gradient produced by luminal urea produced blebs on apical surfaces, a striking increase in shunt conductance, and a decrease in the shunt Na+/Cl- permselectivity (PNa/PCl), which approached that of free solution. The transepithelial conductance obtained with luminal 800 mM urea, 20 mM Ba++, and 0 K+ was 950 +/- 150 mS/cm2 and provided an estimate of the maximal diffusion resistance of intercellular spaces, exclusive of junctional complexes. The calculated range for junctional dilution voltages owing to interspace salt accumulation during ADH-dependent net NaCl absorption was 0.7-1.1 mV. Since the Ve accompanying ADH-dependent net NaCl absorption is 10 mV, lumen positive, virtually all of the spontaneous transepithelial voltage in the mouse mTALH is due to transcellular transport processes. Finally, we developed a series of expressions in which the ratio of net Cl- absorption to paracellular Na+ absorption could be expressed in terms of a series of electrical variables. Specifically, an analysis of paired measurement of PNa/PCl and Gs was in agreement with an electroneutral Na+:K+:2 Cl- apical entry step. Thus, for net NaCl absorption, approximately 50% of Na+ was absorbed via a paracellular route.

Published
1986
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7. A component of fluid absorption linked to passive ion flows in the superficial pars recta.

Author

Schafer, J A, Patlak, C S, and Andreoli, T E

Abstract

We studied salt and water absorption in isolated rabbit superficial proximal straight tubules perfused and bathed with solutions providing oppositely directed transepithelial anion gradients similar to those which might obtain in vivo. The perfusing solution contained 138.6 mM Cl- 3.8 mM HCO-3 (pH 6.6) while the bathing solution contained 113.6 mM Cl- and 25 mM HCO-3 (pH 7.4); the system was bubbled with 95% O2-5% CO2. At 37 degrees C, net volume absorption (Jv nl min-1 mm-1) was 0.32 +/- 0.03 (SEM); Ve, the transepithelial voltage (millivolts; lumen to bath), was +3.1 +/- 0.2. At 21 degrees C, Ve rose to +3.7 +/- 0.1 and Jv fell to 0.13 +/- 0.01 (significantly different from zero at P less than 0.001); in the presence of 10(-4)M ouabain at 37 degrees C, Ve rose to +3.8 +/- 0.1 and Jv fell to 0.16 +/- 0.01 (P less than 0.001 with respect to zero). In paired experiments, the ouabain- and temperature-insensitive moieties of Jv and Ve became zero when transepithelial anion concentration gradients were abolished. Titrametric determinations net chloride flux at 21 degrees C or at 37 degrees C with 10(-4) M ouabain showed that chloride was the sole anion in an isotonic absorbate. And, combined electrical and tracer flux data indicated that the tubular epithelium was approximately 18 times more permeable to Cl- than to HCO-3. We interpret these results to indicate that, in these tubules, NaCl absorption depends in part on transepithelial anion concentration gradients similar to those generated in vivo and in vitro by active Na+ absorption associated with absorption to anions other than chloride. A quantitative analysis of passive solute and solvent flows in lateral intercellular spaces indicated that fluid absorption occurred across junctional complexes when the osmolality of the lateral intercellular spaces was equal to or slightly less than that of the perfusing and bathing solutions; the driving force for volume flow under these conditions depended on the fact that sigmaHCO3 exceeded sigmaCl.

Published
1975
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11. Ethnobiology of snappers (Lutjanidae): target species and suggestions for management

Author

Clauzet Mariana, Andreoli Tainá B, Araujo Luciana G, Salivonchyk Svetlana V, Begossi Alpina, Martinelli Claudia M, Ferreira Allan GL, Oliveira Luiz EC, and Silvano Renato AM

Subjects
Other systems of medicine, RZ201-999, Botany, QK1-989
Abstract

Abstract In this study, we sought to investigate the biology (diet and reproduction) and ethnobiology (fishers knowledge and fishing spots used to catch snappers) of five species of snappers (Lutjanidae), including Lutjanus analis, Lutjanus synagris, Lutjanus vivanus, Ocyurus chrysurus, and Romboplites saliens at five sites along the northeast (Riacho Doce, Maceió in Alagoas State, and Porto do Sauípe, Entre Rios at Bahia State) and the southeast (SE) Brazilian coast (Paraty and Rio de Janeiro cities at Rio de Janeiro State, and Bertioga, at São Paulo State.). We collected 288 snappers and interviewed 86 fishermen. The stomach contents of each fish were examined and macroscopic gonad analysis was performed. Snappers are very important for the fisheries of NE Brazil, and our results indicated that some populations, such as mutton snapper (L. analis) and lane snapper (L. synagris), are being caught when they are too young, at early juvenile stages. Local knowledge has been shown to be a powerful tool for determining appropriate policies regarding management of target species, and artisanal fishermen can be included in management processes. Other suggestions for managing the fisheries are discussed, including proposals that could provide motivation for artisanal fishermen to participate in programs to conserve resources, such as co-management approaches that utilize local knowledge, the establishment of fishing seasons, and compensation of fishermen, through 'payment for environmental services'. These suggestions may enhance the participation of local artisanal fishermen in moving to a more realistic and less top-down management approach of the fish population.

Published
2011
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12. Prevalence and Antimicrobial Resistances of Salmonella spp. Isolated from Wild Boars in Liguria Region, Italy.

Author

Razzuoli E, Listorti V, Martini I, Migone L, Decastelli L, Mignone W, Berio E, Battistini R, Ercolini C, Serracca L, Andreoli T, Dellepiane M, Adriano D, Pitti M, Meloni D, and Modesto P

Abstract

Salmonella spp. is an important zoonotic agent. Wild boars might host this pathogen in the intestinal tract and might represent a risk for Salmonella spp. transmission to humans. Wild boars are widely spread in Liguria, due to the environmental characteristics of the region. The aim of the study was the isolation, typing, and investigation of antimicrobial susceptibility of the isolated strains of Salmonella spp. During the 2013-2017 hunting seasons, 4335 livers of wild boars were collected and analyzed for the presence of Salmonella spp. A total of 260 strains of Salmonella spp. were isolated and characterized, with a prevalence of 6%. The isolated strains belonged to all six Salmonella enterica subspecies. Most of them were identified as Salmonella enterica subs. enterica of which 31 different serotypes were identified. The dominating serotype identified was S. Enteritidis. The antimicrobial resistance profiles of the isolated strains were analyzed against sixteen molecules. Of the isolated strains, 94.6% were resistant to at least one of the tested antimicrobials. This study showed the circulation of resistant Salmonella spp. strains in the wild boar population living in this area of Italy, underling the potential risk for these animals to disseminate this pathogen and its antimicrobial resistances.

Published
2021
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13. Evidence of Antimicrobial Resistance and Presence of Pathogenicity Genes in Yersinia enterocolitica Isolate from Wild Boars.

Author

Modesto P, De Ciucis CG, Vencia W, Pugliano MC, Mignone W, Berio E, Masotti C, Ercolini C, Serracca L, Andreoli T, Dellepiane M, Adriano D, Zoppi S, Meloni D, and Razzuoli E

Abstract

Yersinia enterocolitica ( Ye ) is a very important zoonosis andwild boars play a pivotal role in its transmission. In the last decade, the wild boar population has undergone a strong increase that haspushed them towards urbanized areas, facilitating the human-wildlife interface and the spread of infectious diseases from wildlife to domestic animals and humans. Therefore, it is important to know the serotype, antimicrobial resistance and presence of pathogenicity genes of Yersinia enterocolitica ( Ye ) isolated in species. From 2013 to 2018, we analyzed the liver of 4890 wild boars hunted in Liguria region; we isolated and serotyped 126 Ye positive samples. A decisive role in the pathogenicity is given by the presence of virulence genes; in Ye isolated we found ystB (~70%), ymoA (45.2%), ail (43.6%) and ystA (~20%). Moreover, we evaluated the susceptibility at various antimicrobic agents (Ampicillin, Chloramphenicol, Enrofloxacin, Gentamicin, Kanamycin, Trimethoprim-Sulfamethoxazole, Sulfisoxazole, Ceftiofur and Tetracycline). The antibiotic resistance was analyzed, and we found a time-dependent increase. It is important to shed light on the role of the wild boars as a reserve of potentially dangerous diseases for humans, and also on the antibiotic resistance that represents a public health problem.

Published
2021
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14. Transforming growth factor beta contributes to progressive diabetic nephropathy.

Author

Reeves WB and Andreoli TE

Subjects
Biological Transport, Blood Glucose metabolism, Diabetic Nephropathies epidemiology, Humans, Hyperglycemia therapy, Immediate-Early Proteins, Protein Serine-Threonine Kinases metabolism, Sodium metabolism, Diabetic Nephropathies etiology, Nuclear Proteins, Renal Insufficiency etiology, Transforming Growth Factor beta metabolism
Published
2000
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15. Cl- channels in basolateral TAL membranes. XIV. Kinetic properties of a basolateral MTAL Cl- channel.

Author

Winters CJ, Reeves WB, and Andreoli TE

Subjects
Animals, Cell Membrane chemistry, Chloride Channels chemistry, In Vitro Techniques, Kidney Medulla chemistry, Kinetics, Linear Models, Lipid Bilayers chemistry, Patch-Clamp Techniques, Rabbits, Chloride Channels metabolism, Chlorides metabolism
Abstract

Background: This article reports studies on the kinetics of chloride (Cl-) conductance in Cl- channels fused into bilayers from basolaterally enriched vesicles from rabbit outer medulla. A considerable body of evidence indicates that these channels represent rbClC-Ka, a 77 kDa kidney-specific protein of the ClC family of Cl- channels. rbClC-Ka, a candidate channel for mediating net Cl- absorption in the medullary thick ascending limb (MTAL), has been cloned from rabbit outer medulla and localized by immunofluorescence to basolateral membranes of the MTAL. Thus, this is the first account, to our knowledge, of the kinetics of ion permeation through a renal Cl- channel mediating net basolateral Cl- absorption in the thick ascending limb of Henle (TALH), and this channel may represent rbClC-Ka., Methods: The electrophysiological properties of these channels were studied by fusing basolaterally enriched MTAL vesicles into planar bilayer membranes., Results: Cl- conductance through these channels was concentration dependent and saturable. The relationship between gCl (pS) and symmetrical aqueous Cl- concentrations could be expressed in terms of the Michaelis equation with a limiting conductance (GClmax, pS) of 114 pS at infinitely high aqueous Cl- concentrations and a K1/2 of 163 mM Cl-. A log-log plot of the conductance-Cl- concentration relations, in the nonsaturating Cl- concentration range, had a slope of 0.91, that is, virtually unity. The relatively impermeant anion I- produced a voltage-dependent conductance blockade that could be overcome at high electric field strengths., Conclusions: The experimental data described earlier here fulfill the traditional criteria for a first-order process with a single Cl- ion occupying these channels at a given time. Although the channels may contain multiple ion binding sites, the latter function, in integral kinetic terms, as a single rate-limiting locus.

Published
1999
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16. Cl- channels in basolateral TAL membranes: XIII. Heterogeneity between basolateral MTAL and CTAL Cl- channels.

Author

Winters CJ, Reeves WB, and Andreoli TE

Subjects
Adenosine Triphosphate metabolism, Animals, Antibodies immunology, Blotting, Western, Cells, Cultured, Chloride Channels immunology, Chloride Channels physiology, Chlorides metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Cytosol metabolism, Electrophysiology, Kidney Cortex, Kidney Medulla, Loop of Henle cytology, Mice, Osmolar Concentration, Patch-Clamp Techniques, Chloride Channels metabolism, Intracellular Membranes metabolism, Loop of Henle metabolism
Abstract

Background: Antidiuretic hormone (ADH) or adenosine 3', 5'-cyclic phosphate (cAMP) analogues augment net NaCl absorption in microperfused mouse medullary thick ascending limb (MTAL) segments but not in cortical thick ascending limb (CTAL) segments. This ADH-dependent MTAL effect is due to increased apical Na+/K+/2Cl- admittance and apical K+ recycling accompanied by a rise in calculated intracellular Cl- concentrations and by a threefold rise in basolateral Cl- conductance. rbClC-Ka, a 75.2 member of the ClC family of Cl- channels, mediates net Cl- absorption in the MTAL. The gating characteristics of rbClC-Ka channels from their intracellular surfaces are, to our knowledge, unique among Cl- channels. The channels are activated by small increases in intracellular Cl- (K1/2 = 10 mM Cl-). Adenosine triphosphate plus the catalytic subunit of protein kinase A (ATP + PKA) gate rbClC-Ka when cytosolic Cl- concentrations are 25 mM. Thus, in mouse MTAL segments, ADH-dependent rises in cytosolic Cl- are primarily responsible for basolateral Cl- conductance increases., Methods: These experiments compared the properties of Cl- channels fused into bilayers from basolaterally enriched vesicles from cultured mouse CTAL cells with rbClC-Ka channels., Results: The key findings were that anti-rbClC-Ka, antibody that recognizes and blocks rbClC-Ka, recognized and blocked basolateral Cl- channels in CTAL cells, that the extracellular faces of the CTAL channels were, like rbClC-Ka, substrate gated with a K1/2 of approximately 170 mM Cl-, and that, unlike rbClC-Ka channels, cytosolic faces of basolateral CTAL Cl- channels were not gated by either increasing cytosolic Cl- concentrations or cytosolic (ATP + PKA). This failure of activation of basolateral CTAL Cl- channels was confirmed using excised patch clamp studies. Finally, on Western blots, anti-rbClC-Ka recognized a 74 kDa band on basolateral CTAL vesicles., Conclusions: Basolateral CTAL Cl- channels probably share a high degree of structural homology and possibly molecular mass with rbClC-Ka channels. However, significant differences between rbClC-Ka channels and CTAL Cl- channels account for the inability of increasing either cytosolic Cl- or (PKA + ATP) to raise Po in CTAL basolateral Cl- channels.

Published
1999
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18. Cl- channels in basolateral renal medullary vesicles. X. Cloning of a Cl- channel from rabbit outer medulla.

Author

Zimniak L, Winters CJ, Reeves WB, and Andreoli TE

Subjects
Amino Acid Sequence, Animals, Base Sequence, Blotting, Northern, Cells, Cultured, Chloride Channels genetics, Cloning, Molecular, Mice, Molecular Sequence Data, Polymerase Chain Reaction, RNA analysis, Rabbits, Xenopus laevis, Chloride Channels metabolism, Kidney Medulla metabolism
Abstract

These experiments were intended to identify candidate cDNAs which might encode basolateral membrane Cl- channels of the mTAL using a homology-based cloning strategy. We prepared a cDNA library using a 1.8 to 3.2 kb mRNA fraction from rabbit outer medulla that induces a Cl- conductance in cellular membranes of Xenopus laevis oocytes. The cDNA library was screened with two 32P-oligonucleotide probes corresponding to highly conserved sequences in other Cl- channels. We isolated two cDNAs: rbClC-Ka and rbClC-Kb. The protein sequences deduced from these two cDNAs had 99% homology. Using RT-PCR technology, cultured mouse mTAL cells were found to contain mRNA corresponding to those two cDNAs. Expression of the mRNAs corresponding to these two cDNAs was kidney-specific and was greater in rabbit renal medulla than rabbit renal cortex. Finally, by using RT-PCR technology in combination with microdissected glomeruli or tubule segments, we found mRNA for rbClC-Ka in glomeruli, proximal convoluted tubules, mTAL and cortical collecting tubules.

Published
1995
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19. Cl- channels in basolateral renal medullary vesicles. VIII. Partial purification and functional reconstitution of basolateral mTAL Cl- channels.

Author

Winters CJ, Reeves WB, and Andreoli TE

Subjects
Animals, Chloride Channels chemistry, Chloride Channels physiology, Chlorides metabolism, Chromatography, Ion Exchange, Electrophoresis, Polyacrylamide Gel, Lipid Bilayers, Membrane Potentials, Proteolipids metabolism, Rabbits, Basement Membrane chemistry, Chloride Channels isolation & purification, Kidney Medulla chemistry
Abstract

Cl- channels fused from basolateral mTAL membranes into planar bilayers have distinctive functional characteristics which, when taken together, are unique among Cl- channels. The properties of these 50 to 60 pS channels can account for the characteristics of basolateral Cl- conductances in microperfused mTAL segments and thus may mediate net basolateral Cl- absorption in the intact mTAL. In the present studies, we solubilized basolateral membranes from rabbit mTAL. Since basolateral mTAL Cl- channels contain arginine- and lysine-rich domains, we exposed these solubilized membranes to sequential cation- and anion-exchange chromatography. The bound and unbound eluates from cation- and anion-exchange chromatography were reconstituted into proteoliposomes which, when fused into bilayers, yielded Cl- channels whose properties were virtually identical to those described above for native basolateral mTAL channels fused into bilayers. As judged by valinomycin-sensitive conductive 36Cl- uptake, proteoliposomes reconstituted from the unbound eluates after anion-exchange chromatography were enriched at least 30-fold in Cl- channel activity and had about 30% of the total Cl- channel activity solubilized in native vesicles.

Published
1994
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21. Ischemic heart disease in patients with uremia undergoing maintenance hemodialysis.

Author

Rostand SG, Gretes JC, Kirk KA, Rutsky EA, and Andreoli TE

Subjects
Adult, Age Factors, Coronary Disease epidemiology, Female, Humans, Male, Middle Aged, Racial Groups, Sex Factors, Uremia therapy, Coronary Disease etiology, Renal Dialysis adverse effects, Uremia complications
Abstract

The 6-year cumulative incidence of ischemic heart disease (IHD) in 382 dialysis patients (mean age [SEM], 43 +/- 0.7 years) was studied. Of 101 patients with IHD, only 39 developed symptoms following dialysis (cumulative incidence, 20.8%). This group was older than those with IHD, and in 55%, IHD occurred in the first year of dialysis. Analysis by sex and race showed the rate of IHD in men and women to be similar, but the rate in whites was twice that in blacks. In men, the rate was not different from nondialysis men with similar coronary risk factors, whereas in dialysis women, the rate was twice that of nondialysis cohort. The development of IHD did not adversely affect long-term survival in patients without prior evidence of IHD. Death from myocardial infarction occurred in 3 of 320 patients ar risk. Atuopsy data in 33 patients revealed 70% stenosis of coronary arteries in 7, 4 of whom had antecedent disease. Our major conclusions are (a) the incidence of IHD during dialysis was not different from similarly matched nondialysis subjects; (b) the rate of IHD in dialysis women was greater than it was in nondialysis subjects; (c) coronary artery disease only affected long-term survival of patients with preexisting disease; (d) autopsy data did not suggest accelerated atherosclerosis.

Published
1979
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22. Na+:K+:2Cl- cotransport and the thick ascending limb.

Author

Molony DA, Reeves WB, and Andreoli TE

Subjects
Absorption, Animals, Biological Transport, Active drug effects, Carrier Proteins metabolism, Chlorides metabolism, Loop of Henle drug effects, Models, Biological, Potassium metabolism, Sodium metabolism, Sodium-Potassium-Chloride Symporters, Vasopressins pharmacology, Kidney Tubules metabolism, Loop of Henle metabolism
Published
1989
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23. Volume reabsorption, transepithelial potential differences, and ionic permeability properties in mammalian superficial proximal straight tubules.

Author

Schafer JA, Troutman SL, and Andreoli TE

Subjects
Animals, Bicarbonates pharmacology, Biological Transport, Active, In Vitro Techniques, Ouabain pharmacology, Rabbits, Radioisotopes, Sodium Isotopes, Temperature, Cell Membrane Permeability, Chlorides metabolism, Electrophysiology, Kidney Tubules, Proximal metabolism, Sodium metabolism
Abstract

This paper describes experiments designed to evaluate Na(+) and Cl(-) transport in isolated proximal straight tubules from rabbit kidneys. When the perfusing solution was Krebs-Ringer buffer with 25 mM HCO(3) (-) (KRB) and the bath contained KRB plus 6% albumin, net volume reabsorption (J(v), nl min(-1) mm(-1) was -0.46 +/- 0.03 (SEM); V(e), the spontaneous transepithelial potential difference, was -1.13 +/- 0.05 mV, lumen negative. Both J(v), and V(e), were reduced to zero at 21 degrees C or with 10(-4) M ouabain, but J(v), was not HCO(3) (-) dependent. Net Na(+) reabsorption, measured as the difference between (22)Na(+) fluxes, lumen to bath and bath to lumen, accounted quantitatively for volume reabsorption, assuming the latter to be an isotonic process, and was in agreement with the difference between lumen to bath (22)Na(+) fluxes during volume reabsorption and at zero volume flow. The observed flux ratio for Na(+) was 1.46, and that predicted for a passive process was 0.99; thus, Na(+) reabsorption was rationalized in terms of an active transport process. The Cl(-) concentration of tubular fluid rose from 113.6 to 132.3 mM during volume reabsorption. Since V(e), rose to +0.82 mV when tubules were perfused with 138.6 mM Cl(-) solutions, V(e) may become positive when tubular fluid Cl(-) concentrations rise during volume reabsorption. The permeability coefficients P(Na) and P(Cl) computed from tracer fluxes were, respectively, 0.23 x 10(-4) and 0.73 x 10(-4) cm s(-1). A P(Na)/P(Cl) ratio of 0.3 described NaCl dilution potentials at zero volume flow. The magnitudes of the potentials were the same for a given NaCl gradient in either direction and P(Na)/P(Cl) was constant in the range 32-139 mM NaCl. We infer that the route of passive ion permeation was through symmetrical extracellular interfaces, presumably tight junctions, characterized by neutral polar sites in which electroneutrality is maintained by mobile counterions.

Published
1974
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25. Effects of (CO2 + HCO3-) on electrical conductance in cortical thick ascending limbs.

Author

Friedman PA and Andreoli TE

Subjects
Absorption, Animals, Barium pharmacology, Chlorine metabolism, Electric Conductivity, Epithelium drug effects, Epithelium physiology, In Vitro Techniques, Ion Channels drug effects, Ion Channels metabolism, Loop of Henle physiology, Mice, Potassium metabolism, Bicarbonates pharmacology, Carbon Dioxide pharmacology, Kidney Tubules drug effects, Loop of Henle drug effects
Abstract

These experiments in isolated mouse cortical thick ascending limbs (cTALH) provide information about: the relative contributions of cellular and paracellular pathways to the transepithelial electrical conductance Ge (mS cm-2); the effects of (CO2 + HCO3-) on Ge; the ratio of net K+ secretion (JKnet) to net Cl- absorption (JClnet); and the K+ requirement for apical membrane furosemide-sensitive NaCl entry. The combination of luminal Ba++, zero K+ reduced Ge; at 5 mM luminal Ba++, the residual conductance was about 75% of the control Ge. The Ba++-insensitive Ge of 73.1 +/- 6.4 mS cm-2 was only slightly greater than the shunt conductance of 57 mS cm-2 computed from the sum of the dissipative bath to lumen fluxes of 22Na+ and 36Cl-. Moreover, luminal 5 mM Ba++, zero K+ had no effect on the Na+/Cl- permselectivity ratio of the paracellular pathway. Thus, Ba++ blockaded transcellular conductance by blocking apical membrane K+ channels. The combination of (CO2 + HCO3-) in external solutions increased Ge solely by augmenting the Ba++-sensitive, that is, transcellular, component of Ge. Finally, in paired experiments, the ratio JKnet/JClnet was 0.27 +/- 0.05; and both Ve, the spontaneous transepithelial voltage (mV), and the equivalent short circuit current Je (pEq sec-1 cm-2) were reduced dramatically by luminal K+ omission. Thus, apical membranes of the cTALH appear to contain a pathway for net K+ secretion, and apical membrane NaCl entry may involve co-transport with K+. Transcellular conductance contributes at least 25% to the total Ge, and the combination (CO2 + HCO3-) augments transcellular conductance.

Published
1986
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26. Osmosis in cortical collecting tubules. ADH-independent osmotic flow rectification.

Author

Schafer JA, Troutman SL, and Andreoli TE

Subjects
Animals, Carbon Radioisotopes, Cell Membrane Permeability, Hypertonic Solutions, Osmolar Concentration, Permeability, Rabbits, Sucrose pharmacology, Urea metabolism, Water metabolism, Kidney Cortex metabolism, Kidney Tubules metabolism, Osmosis, Vasopressins pharmacology
Abstract

The present experiments were designed to evaluate the effects of varying the osmolality of luminal solutions on the antidiuretic hormone (ADH)-independent water and solute permeability properties of isolated rabbit cortical collecting tubules. In the absence of ADH, the osmotic water permeability coefficient (cm s(-1)) P(f) (l-->b), computed from volume flows from hypotonic lumen to isotonic bath, was 20 +/- 4 x 10(-4) (SEM); the value of P(f) (b-->l) in the absence of ADH, computed from volume flows from isotonic bath to hypertonic lumen, was 88 +/- 15 x 10(-4) cm s(-1). We also measured apparent urea permeability coefficients (cm s(-1)) from (14)C-urea fluxes from lumen to bath (P(DDurea) (l-->b)) and from bath to lumen (P(DDurea) (b-->l)). For hypotonic luminal solutions and isotonic bathing solutions, P(DDurea) (l-->b) was 0.045 +/- 0.004 x 10(-4) and was unaffected by ADH. The ADH-independent values of P(DDurea) (l-->b) and P(urea) (b-->l) were, respectively, 0.216 +/- 0.022 x 10(-4) cm s(-1) and 0.033 +/- 0.002 x 10(-4) cm s(-1) for isotonic bathing solutions and luminal solutions made hypertonic with urea, i.e., there was an absolute increase in urea permeability and asymmetry of urea fluxes. Significantly, P(DDurea) (l-->b) did not rise when luminal hypertonicity was produced by sucrose; and, bathing fluid hypertonicity did not alter tubular permeability to water or to urea. We interpret these data to indicate that luminal hypertonicity increased the leakiness of tight junctions to water and urea but not sucrose. Since the value of P(f) (b-->l) in the absence of ADH, when tight junctions were open to urea, was approximately half of the value of P(f) (l-->b) in the presence of ADH, when tight junctions were closed to urea, we conclude that tight junctions are negligible paracellular shunts for lumen to bath osmosis with ADH. These findings, together with those in the preceding paper, are discussed in terms of a solubility-diffusion model for water permeation in which ADH increases water solubility in luminal plasma membranes.

Published
1974

27. Water movement across the mammalian cortical collecting duct.

Author

Hebert SC and Andreoli TE

Subjects
Animals, Biological Transport, Cell Membrane drug effects, Cell Membrane Permeability, Diffusion, Kidney Tubules, Collecting drug effects, Membrane Fluidity, Rabbits, Urea metabolism, Vasopressins pharmacology, Body Water metabolism, Kidney Cortex metabolism, Kidney Tubules metabolism, Kidney Tubules, Collecting metabolism
Published
1982
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28. Osmosis in cortical collecting tubules. A theoretical and experimental analysis of the osmotic transient phenomenon.

Author

Schafer JA, Patlak CS, and Andreoli TE

Subjects
Animals, Female, In Vitro Techniques, Mathematics, Permeability, Rabbits, Vasopressins pharmacology, Water metabolism, Kidney Cortex metabolism, Kidney Tubules metabolism, Models, Biological, Osmosis
Abstract

This paper reports a theoretical analysis of osmotic transients and an experimental evaluation both of rapid time resolution of lumen to bath osmosis and of bidirectional steady-state osmosis in isolated rabbit cortical collecting tubules exposed to antidiuretic hormone (ADH). For the case of a membrane in series with unstirred layers, there may be considerable differences between initial and steady-state osmotic flows (i.e., the osmotic transient phenomenon), because the solute concentrations at the interfaces between membrane and unstirred layers may vary with time. A numerical solution of the equation of continuity provided a means for computing these time-dependent values, and, accordingly, the variation of osmotic flow with time for a given set of parameters including: P(f) (cm s(-1)), the osmotic water permeability coefficient, the bulk phase solute concentrations, the unstirred layer thickness on either side of the membrane, and the fractional areas available for volume flow in the unstirred layers. The analyses provide a quantitative frame of reference for evaluating osmotic transients observed in epithelia in series with asymmetrical unstirred layers and indicate that, for such epithelia, P(f) determinations from steady-state osmotic flows may result in gross underestimates of osmotic water permeability. In earlier studies, we suggested that the discrepancy between the ADH-dependent values of P(f) and P(DDw) (cm s(-1), diffusional water permeability coefficient) was the consequence of cellular constraints to diffusion. In the present experiments, no transients were detectable 20-30 s after initiating ADH-dependent lumen to bath osmosis; and steady-state ADH-dependent osmotic flows from bath to lumen and lumen to bath were linear and symmetrical. An evaluation of these data in terms of the analytical model indicates: First, cellular constraints to diffusion in cortical collecting tubules could be rationalized in terms of a 25-fold reduction in the area of the cell layer available for water transport, possibly due in part to transcellular shunting of osmotic flow; and second, such cellular constraints resulted in relatively small, approximately 15%, underestimates of P(f).

Published
1974

29. Flow dependence of fluid transport in the isolated superficial pars recta: evidence that osmotic disequilibrium between external solutions drives isotonic fluid absorption.

Author

Schafer JA, Troutman SL, Watkins ML, and Andreoli TE

Subjects
Absorption, Animals, Bicarbonates metabolism, Chlorides metabolism, Female, In Vitro Techniques, Isotonic Solutions, Kidney Tubules, Proximal anatomy & histology, Kidney Tubules, Proximal blood supply, Kinetics, Models, Biological, Osmotic Pressure, Ouabain pharmacology, Perfusion, Rabbits, Urine, Kidney Cortex physiology, Kidney Tubules, Proximal physiology, Urodynamics
Abstract

The present studies tested the hypothesis that osmotic disequilibrium between luminal and peritubular fluids is the driving force for net volume absorption in the isolated proximal straight tubule. Isolated tubule segments from superficial rabbit renal cortex were perfused at varying rates with a high chloride and bicarbonate-free solution as they were bathed with a normal bicarbonate-Krebs-Ringer buffer solution at 38 degrees C. Increasing the perfusion rate from congruent to 4 to congruent to 30 nl/min produced a monotonic increase in net volume absorption (Jv) from 0.18 +/- (sem) 0.03 to 0.62 +/- 0.08 nl . min-1. The chloride concentration in collected fluid samples rose from congruent to 137 to congruent to 147 mEq/liter over the same perfusion rate range. Ouabain (10(-4) m) added to the bathing solution inhibited Jv by a rate which varied from 0.20 to 0.28 nl . min-1 . min-1, depending on the perfusion rate. A mathematical model of the axial flows and transepithelial transport processes was developed. This model, and the experimental data, is consistent with the view that the driving force for isotonic fluid absorption in these tubules depends on the axial maintenance of osmotic disequilibrium between the perfusate and the bathing solution. Increasing the perfusion rate opposes osmotic equilibration by minimizing the extent to which dissipative fluxes of chloride and bicarbonate ions change the transepithelial chloride and bicarbonate concentration gradients, and by minimizing the tendency of the luminal cryoscopic osmolality to increase as volume absorption occurs.

Published
1981
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30. The medullary thick limb: function and modulation of the single-effect multiplier.

Author

Hebert SC, Reeves WB, Molony DA, and Andreoli TE

Subjects
Absorption, Animals, Biological Transport, Body Water metabolism, Calcium pharmacology, Dinoprostone, Humans, Osmolar Concentration, Potassium analysis, Prostaglandins E pharmacology, Sodium Chloride metabolism, Sympathomimetics pharmacology, Vasopressins pharmacology, Kidney Medulla physiology, Kidney Tubules physiology, Loop of Henle physiology
Published
1987
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33. An analysis of unstirred layers in series with "tight" and "porous" lipid bilayer membranes.

Author

Andreoli TE and Troutman SL

Subjects
Amphotericin B pharmacology, Dextrans pharmacology, Diffusion, Electric Conductivity, Electrophysiology, Erythritol, Glycerol, Models, Biological, Osmosis drug effects, Phospholipids, Sodium Chloride, Sucrose pharmacology, Urea, Viscosity, Water, Cell Membrane Permeability, Lipids, Membranes, Artificial
Abstract

The present experiments were designed to evaluate the effective thickness of the unstirred layers in series with native and porous (i.e., in the presence of amphotericin B) lipid bilayer membranes and, concomitantly, the respective contributions of membranes and unstirred layers to the observed resistances to the diffusion of water and nonelectrolytes between aqueous phases. The method depended on measuring the tracer permeability coefficients for the diffusion of water and nonelectrolytes (P(DDi), cm sec(-1)) when the aqueous phase viscosity (eta) was increased with solutes having a unity reflection coefficient, such as sucrose or dextran. The effective thickness of the unstirred layers (alpha(t), cm) and the true, or membrane, permeability coefficients for diffusion of water and nonelectrolytes (P(mmi), cm sec(-1)) were computed from, respectively, the slope and intercept of the linear regression of 1/P(DDi) on eta. In both the native and porous membranes, alpha(t) was approximately 110 x 10(-4) cm. The ratio of P(f), the osmotic water permeability coefficient (cm sec(-1)) to P(mmH2O) was 1.22 in the native membranes and 3.75 in the porous membranes. For the latter, the effective pore radius, computed from Poiseuille's law, was approximately 5.6 A. A comparison of P(mmi) and P(DDi), indicated that the porous membranes accounted for 16, 25, and 66% of the total resistance to the diffusion of, respectively, H(2)O, urea, and glycerol, while the remainder was referable to the unstirred layers.

Published
1971
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34. Coupling of solute and solvent flows in porous lipid bilayer membranes.

Author

Andreoli TE, Schafer JA, and Troutman SL

Subjects
Amphotericin B pharmacology, Diffusion, Erythritol, Glycerol, Models, Biological, Osmosis drug effects, Urea, Water, Cell Membrane Permeability, Lipids, Membranes, Artificial, Solvents
Abstract

The present experiments were designed to evaluate coupling of water and nonelectrolyte flows in porous lipid bilayer membranes (i.e., in the presence of amphotericin B) in series with unstirred layers. Alterations in solute flux during osmosis, with respect to the flux in the absence of net water flow, could be related to two factors: first, changes in the diffusional component of solute flux referable to variations in solute concentrations at the membrane interfaces produced by osmotic flow through the unstirred layers; and second, coupling of solute and solvent flows within the membrane phase. Osmotic water flow in the same direction as solute flow increased substantially the net fluxes of glycerol and erythritol through the membranes, while osmotic flow in the opposite direction to glycerol flow reduced the net flux of that solute. The observed effects of osmotic water flow on the fluxes of these solutes were in reasonable agreement with predictions based on a model for coupling of solute and solvent flows within the membrane phase, and considerably in excess of the prediction for a diffusion process alone.

Published
1971
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35. The effect of antidiuretic hormone on solute flows in mammalian collecting tubules.

Author

Schafer JA and Andreoli TE

Subjects
Animals, Cell Membrane Permeability drug effects, Diffusion, Kidney Tubules metabolism, Osmolar Concentration, Osmotic Pressure, Rabbits, Sodium Chloride metabolism, Sucrose metabolism, Thiourea metabolism, Urea metabolism, Kidney Tubules drug effects, Vasopressins pharmacology
Abstract

These experiments were intended to evaluate the antidiuretic hormone (ADH)-dependent reflection coefficients of urea, sucrose, and NaCl in cortical and outer medullary collecting tubules isolated from mammalian kidney. In one group of experiments, the ADH-dependent osmotic water flows, when the perfusing solutions contained hypotonic NaCl solutions, were indistinguishable from control observations when either urea or sucrose replaced, in part, NaCl in isotonic bathing solutions (cortical collecting tubules). Similarly, both in cortical and outer medullary collecting tubules exposed to ADH, there was zero net osmotic volume flow when a portion of the NaCl in the bathing and/or perfusing solutions was replaced by either sucrose or urea, so long as the perfusing and bathing solutions were isosmolal. Taken together, these observations suggest that the ADH-dependent reflection coefficients of NaCl, urea, and sucrose, in these tubules, were identical. Since the effective hydrodynamic radii of urea and sucrose are, respectively, 1.8 and 5.2 A, it is likely that sigma(i), for urea, sucrose, and NaCl, was unity. In support of this, the diffusion permeability coefficient (P(Di) cm sec(-1)) of urea was indistinguishable from zero. Since the limiting sites for urea penetration were the luminal interfaces of the tubules, these data are consistent with the view that ADH increases diffusional water flow across such interfaces.

Published
1972
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36. The interaction of polyene antibiotics with thin lipid membranes.

Author

Andreoli TE and Monahan M

Subjects
Animals, Cholesterol analysis, Electric Conductivity, In Vitro Techniques, Permeability, Phospholipids analysis, Sheep, Amphotericin B pharmacology, Antifungal Agents pharmacology, Lipids blood, Membranes drug effects, Nystatin pharmacology
Abstract

Optically black, thin lipid membranes prepared from sheep erythrocyte lipids have a high dc resistance (R(m) congruent with 10(8) ohm-cm(2)) when the bathing solutions contain NaCl or KCl. The ionic transference numbers (T(i)) indicate that these membranes are cation-selective (T(Na) congruent with 0.85; T(Cl) congruent with 0.15). These electrical properties are independent of the cholesterol content of the lipid solutions from which the membranes are formed. Nystatin, and probably amphotericin B, are cyclic polyene antibiotics containing approximately 36 ring atoms and a free amino and carboxyl group. When the lipid solutions used to form membranes contained equimolar amounts of cholesterol and phospholipid, these antibiotics reduced R(m) to approximately 10(2) ohm-cm(2); concomitantly, T(Cl) became congruent with0.92. The slope of the line relating log R(m) and log antibiotic concentration was congruent with4.5. Neither nystatin (2 x 10(-5)M) nor amphotericin B (2 x 10(-7)M) had any effect on membrane stability. The antibiotics had no effect on R(m) or membrane permselectivity when the lipids used to form membranes were cholesterol-depleted. Filipin (10(-5)M), an uncharged polyene with 28 ring atoms, produced striking membrane instability, but did not affect R(m) or membrane ionic selectivity. These data suggest that amphotericin B or nystatin may interact with membrane-bound sterols to produce multimolecular complexes which greatly enhance the permeability of such membranes for anions (Cl(-), acetate), and, to a lesser degree, cations (Na(+), K(+), Li(+)).

Published
1968
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37. Cellular constraints to diffusion. The effect of antidiuretic hormone on water flows in isolated mammalian collecting tubules.

Author

Schafer JA and Andreoli TE

Subjects
Alcohols metabolism, Animals, Biological Transport drug effects, Carbon Isotopes, Cell Membrane Permeability, Diffusion, Epithelial Cells, Epithelium drug effects, Female, Indoles metabolism, Lipid Metabolism, Osmolar Concentration, Osmotic Pressure, Perfusion, Pyridines metabolism, Rabbits, Rats, Tritium, Viscosity, Water-Electrolyte Balance, Kidney Tubules physiology, Vasopressins pharmacology, Water metabolism
Abstract

These experiments were intended to evaluate the effects of antidiuretic hormone (ADH) on dissipative water transport in cortical collecting tubules isolated from rabbit kidney. In the absence of ADH, the osmotic (P(f), cm sec(-1)) and diffusional (P(DW) cm sec(-1)) water permeability coefficients were, respectively, 6+/-6 and 4.7+/-1.3 (SD). When ADH was added to the bathing solutions, P(f) and P(DW) rose to, respectively, 186+/-38 and 14.2+/-1.6 (SD). In the absence of ADH, the tubular cells were flat and the lateral intercellular spaces were closed when the perfusing and bathing solutions were, respectively, hypotonic and isotonic; in the presence of ADH, the cells swelled and the intercellular spaces dilated. These data suggest that ADH increased the water permeability of the luminal membranes of the tubules. It was possible that the ADH-dependent P(f)/P(DW) ratio was referable to the resistance of the epithelial cell layer (exclusive of luminal membranes) to water diffusion (R(DW), sec cm(-1)). Such a possibility required that R(DW) be approximately 650, i.e., approximately 25-fold greater than in an equivalent thickness of water. To test this view, it was assumed that R(Di) values for lipophilic solutes in lipid bilayer membranes and in luminal membranes were comparable. In lipid bilayer membranes, R(Di) was substantially less than 90 sec cm(-1) for pyridine, n-butanol, and 5-hydroxyindole. In renal tubules, R(Di) for these solutes ranged from 795 to 2480 with and without ADH. It was assumed that, in the tubules, R(Di) was referable to cellular constraints to diffusion; for these solutes, the latter were 12-25 times greater than in water. Accordingly, it is possible that the ADH-dependent P(f)/P(DW) ratio was also due to cellular constraints to diffusion.

Published
1972
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38. On the anatomy of amphotericin B-cholesterol pores in lipid bilayer membranes.

Author

Andreoli TE

Subjects
Biological Transport, Active drug effects, Cell Membrane drug effects, Cell Membrane Permeability drug effects, Chemical Phenomena, Chemistry, Cholesterol pharmacology, Lipids, Membranes, Artificial, Models, Chemical, Models, Structural, Molecular Conformation, Phospholipids, Structure-Activity Relationship, Amphotericin B pharmacology, Cholesterol physiology, Membranes drug effects
Published
1973
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39. The effect of valinomycin on the ionic permeability of thin lipid membranes.

Author

Andreoli TE, Tieffenberg M, and Tosteson DC

Subjects
Animals, Cesium metabolism, Chlorides metabolism, Electrophysiology, Erythrocytes drug effects, Hydrogen metabolism, Hydrogen-Ion Concentration, Membrane Potentials, Potassium metabolism, Rubidium metabolism, Sheep, Sodium metabolism, Sodium Chloride pharmacology, Anti-Bacterial Agents pharmacology, Cell Membrane Permeability drug effects, Lipid Metabolism
Abstract

Optically black membranes prepared from sheep red cell lipids have a high electrical resistance (1-3 x 10(8) ohm-cm(2)). The ionic transference numbers (T(i)) for cations (Na(+) or K(+)) are equal to each other but at least four to five times greater than for Cl(-). The cyclic depsipeptide valinomycin produces a striking decrease in the membrane resistance when K(+), but not when Na(+) is in the solutions bathing the membrane. The ratio T(Na)/T(K), estimated from membrane voltages in the presence of ionic concentration gradients, approaches zero. The order of membrane monovalent cation selectivity, in the presence of valinomycin, is H(+) > Rb(+) > K(+) > Cs(+) > Na(+). Addition of the antibiotic to one side of a membrane which separates identical solutions of NaCl produces a substantial (up to 80 mV) membrane voltage (side opposite valinomycin negative). These data are consistent with the hypothesis that valinomycin can interact with appropriately sized cations (hydrated diameter ??? 6 A) to increase their membrane permeability, perhaps by forming hydrogen bonds between the solvation shell of the cations and carbonyl oxygens in the valinomycin molecule which are directed toward the aperture of the ring.

Published
1967
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40. Molecular aspects of polyene- and sterol-dependent pore formation in thin lipid membranes.

Author

Dennis VW, Stead NW, and Andreoli TE

Subjects
Alkenes pharmacology, Amines pharmacology, Amphotericin B pharmacology, Animals, Antifungal Agents pharmacology, Chlorides, Cholestanol, Cholesterol blood, Electrophysiology, Erythrocytes, Fatty Acids pharmacology, Hydrogen-Ion Concentration, Ions metabolism, Lactones pharmacology, Lipids, Osmosis drug effects, Phospholipids, Sheep, Sodium metabolism, Sterols pharmacology, Water metabolism, Cell Membrane Permeability drug effects, Membranes, Artificial
Abstract

Amphotericin B modifies the permeability properties of thin lipid membranes formed from solutions containing sheep red cell phospholipids and cholesterol. At 10(-6)M amphotericin B, the DC membrane resistance fell from approximately 10(8) to approximately 10(2) ohm-cm(2), and the membranes became Cl(-)-, rather than Na(+)-selective; the permeability coefficients for hydrophilic nonelectrolytes increased in inverse relationship to solute size, and the rate of water flow during osmosis increased 30-fold. These changes may be rationalized by assuming that the interaction of amphotericin B with membrane-bound sterol resulted in the formation of aqueous pores. N-acetylamphotericin B and the methyl ester of N-acetylamphotericin B, but not the smaller ring compounds, filipin, rimocidin, and PA-166, produced comparable permeability changes in identical membranes, and amphotericin B and its derivatives produced similar changes in the properties of membranes formed from phospholipid-free sterol solutions. However, amphotericin B did not affect ionic selectivity or water and nonelectrolyte permeability in membranes formed from solutions containing phospholipids and no added cholesterol, or when cholesterol was replaced by either cholesterol palmitate, dihydrotachysterol, epicholesterol, or Delta5-cholesten-3-one. Phospholipid-free sterol membranes exposed to amphotericin B or its derivatives were anion-selective, but the degree of Cl(-) selectivity varied among the compounds, and with the aqueous pH. The data are discussed with regard to, first, the nature of the polyene-sterol interactions which result in pore formation, and second, the functional groups on amphotericin B responsible for membrane anion selectivity.

Published
1970
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41. The effect of amphotericin B on the water and nonelectrolyte permeability of thin lipid membranes.

Author

Andreoli TE, Dennis VW, and Weigl AM

Subjects
Amides, Arabinose, Biological Transport, Active, Chemical Phenomena, Chemistry, Cholesterol, Diffusion, Glucose, Glycerol, Methods, Models, Biological, Osmosis, Permeability, Phospholipids, Ribose, Sucrose, Urea, Amphotericin B, Biological Transport, Lipids, Membranes
Abstract

This paper reports the effects of amphotericin B, a polyene antibiotic, on the water and nonelectrolyte permeability of optically black, thin lipid membranes formed from sheep red blood cell lipids dissolved in decane. The permeability coefficients for the diffusion of water and nonelectrolytes (P(DDi)) were estimated from unidirectional tracer fluxes when net water flow (J(w)) was zero. Alternatively, an osmotic water permeability coefficient (P(f)) was computed from J(w) when the two aqueous phases contained unequal solute concentrations. In the absence of amphotericin B, when the membrane solutions contained equimolar amounts of cholesterol and phospholipid, P(f) was 22.9 +/- 4.6 microsec(-1) and P(DDHDH2O) was 10.8 +/- 2.4 microsec(-1). Furthermore, P(DDi) was < 0.05 microsec(-1) for urea, glycerol, ribose, arabinose, glucose, and sucrose, and sigma(i), the reflection coefficient of each of these solutes was one. When amphotericin B (10(-6)M) was present in the aqueous phases and the membrane solutions contained equimolar amounts of cholesterol and phospholipid, P(DDHDH2O) was 18.1 +/- 2.4 microsec(-1); P(f) was 549 +/- 143 microsec(-1) when glucose, sucrose, and raffinose were the aqueous solutes. Concomitantly, P(DDi) varied inversely, and sigma(i) directly, with the effective hydrodynamic radii of the solutes tested. These polyene-dependent phenomena required the presence of cholesterol in the membrane solutions. These data were analyzed in terms of restricted diffusion and filtration through uniform right circular cylinders, and were compatible with the hypothesis that the interactions of amphotericin B with membrane-bound cholesterol result in the formation of pores whose equivalent radii are in the range 7 to 10.5 A.

Published
1969
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42. The effect of valinomycin on potassium and sodium permeability of HK and LK sheep red cells.

Author

Tosteson DC, Cook P, Andreoli T, and Tieffenberg M

Subjects
Adenosine Triphosphatases metabolism, Animals, Biological Transport, Active drug effects, Erythrocytes drug effects, Erythrocytes metabolism, Membrane Potentials, Models, Structural, Ouabain pharmacology, Sheep, Sodium Isotopes, Anti-Bacterial Agents pharmacology, Cell Membrane Permeability drug effects, Potassium metabolism, Sodium metabolism
Abstract

A cyclic depsipeptide antibiotic, valinomycin, was found to produce increased selective permeability of the plasma membranes of HK and LK sheep red blood cells to potassium but not to sodium ions. The compound had relatively little effect on the active extrusion of sodium from HK sheep red blood cells or on the Na + K-stimulated ATPase activity of membranes derived from these cells. It is proposed that the selective cation permeability produced by this compound depends primarily on steric factors, particularly the relationship between the diameter of the ring and the effective diameter of the ion. The significance of these results for the problem of the mechanism of ionic selectivity in natural membranes is discussed.

Published
1967
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43. Chloride transport in porous lipid bilayer membranes.

Author

Andreoli TE and Watkins ML

Subjects
Amphotericin B pharmacology, Biological Transport, Cholesterol, Diffusion, Electric Conductivity, Membrane Potentials, Permeability, Radioisotopes, Sodium Chloride, Chlorides metabolism, Membranes, Artificial
Abstract

This paper describes dissipative Cl(-) transport in "porous" lipid bilayer membranes, i.e., cholesterol-containing membranes exposed to 1-3 x 10(-7) M amphotericin B. P(DCl) (cm.s(-1)), the diffusional permeability coefficient for Cl(-), estimated from unidirectional (36)Cl(-) fluxes at zero volume flow, varied linearly with the membrane conductance (Gm, ohm(-1).cm(-2)) when the contributions of unstirred layers to the resistance to tracer diffusion were relatively small with respect to the membranes; in 0.05 M NaCl, P(DCl) was 1.36 x 10(-4) cm.s(-1) when Gm was 0.02 ohm(-1).cm(-2). Net chloride fluxes were measured either in the presence of imposed concentration gradients or electrical potential differences. Under both sets of conditions: the values of P(DCl) computed from zero volume flow experiments described net chloride fluxes; the net chloride fluxes accounted for approximately 90-95% of the membrane current density; and, the chloride flux ratio conformed to the Ussing independence relationship. Thus, it is likely that Cl(-) traversed aqueous pores in these anion-permselective membranes via a simple diffusion process. The zero current membrane potentials measured when the aqueous phases contained asymmetrical NaCl solutions could be expressed in terms of the Goldman-Hodgkin-Katz constant field equation, assuming that the P(DNa)/P(DCl) ratio was 0.05. In symmetrical salt solutions, the current-voltage properties of these membranes were linear; in asymmetrical NaCl solutions, the membranes exhibited electrical rectification consistent with constant-field theory. It seems likely that the space charge density in these porous membranes is sufficiently low that the potential gradient within the membranes is approximately linear; and, that the pores are not electrically neutral, presumably because the Debye length within the membrane phase approximates the membrane thickness.

Published
1973
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44. The effect of valinomycin on the electrical properties of solutions of red cell lipids in n-decane.

Author

Andreoli TE and Tosteson DC

Subjects
Animals, Sheep, Solutions, Valinomycin pharmacology, Anti-Bacterial Agents pharmacology, Electricity, Erythrocytes, Ethers, Lipids, Membranes, Artificial
Abstract

This paper reports the electrical properties of thick lipid membranes in the absence and presence of valinomycin. The thick lipid membranes were formed by placing a solution of sheep red cell lipids in decane between two cellophane partitions which formed the interfaces between the membrane and the two aqueous bathing solutions. The DC electrical resistance of these structures was found to be directly proportional to the reciprocal of the concentration of lipids in the decane (C(L)). The limiting resistance, as (C(L) (-1)) approached zero, was 3 x 10(8) ohm-cm(2). Resistance was also found to be linearly related to membrane thickness. The limiting resistance at zero thickness was again 1-3 x 10(8) ohm-cm(2). These data are interpreted to indicate that the DC resistance of thick lipid membranes comprises two surface resistances (R(S)) at each interface with the aqueous bathing solutions, and a bulk resistance (R(B)) of the lipid-decane solution, arranged in series. Measurements of the effect of variations of area on resistance were consistent with this interpretation. Valinomycin reduced R(S) but had no effect on R(B). Under certain conditions, thick lipid membranes containing valinomycin behaved like highly selective K(+) electrodes.

Published
1971
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45. The formation and properties of thin lipid membranes from HK and LK sheep red cell lipids.

Author

Andreoli TE, Bangham JA, and Tosteson DC

Subjects
Animals, Chlorides metabolism, Erythrocytes metabolism, Membrane Potentials physiology, Membranes, Artificial, Phosphatidylethanolamines metabolism, Sheep, Sodium metabolism, Temperature, Biological Transport, Cholesterol metabolism, Phospholipids metabolism, Potassium metabolism
Abstract

Lipids were obtained from high potassium (HK) and low potassium (LK) sheep red cells by sequential extraction of the erythrocytes with isopropanol-chloroform, chloroform-methanol-0.1 M KCl, and chloroform. The extract contained cholesterol and phospholipid in a molar ratio of 0.8:1.0, and less than 1% protein contaminant. Stable thin lipid membranes separating two aqueous compartments were formed from an erythrocyte lipid-hydrocarbon solution, and had an electrical resistance of approximately 10(8) ohm-cm(2) and a capacitance of 0.38-0.4 microf/cm(2). From the capacitance values, membrane thickness was estimated to be 46-132 A, depending on the assumed value for the dielectric constant (2.0-4.5). Membrane voltage was recorded in the presence of ionic (NaCl and/or KCl) concentration gradients in the solutions bathing the membrane. The permeability of the membrane to Na(+), K(+), and Cl(-) (expressed as the transference number, T(ion)) was computed from the steady-state membrane voltage and the activity ratio of the ions in the compartments bathing the membrane. T(Na) and T(K) were approximately equal ( approximately 0.8) and considerably greater than T(Cl) ( approximately 0.2). The ionic transference numbers were independent of temperature, the hydrocarbon solvent, the osmolarity of the solutions bathing the membranes, and the cholesterol content of the membranes, over the range 21-38 degrees C. The high degree of membrane cation selectivity was tentatively attributed to the negatively charged phospholipids (phosphatidylethanolamine and phosphatidylserine) present in the lipid extract.

Published
1967
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