Unstirred Water Layers and the Kinetics of Organic Cation Transport.

Purpose: Unstirred water layers (UWLs) present an unavoidable complication to the measurement of transport kinetics in cultured cells, and the high rates of transport achieved by overexpressing heterologous transporters exacerbate the UWL effect. This study examined the correlation between measured Jmax and Kt values and the effect of manipulating UWL thickness or transport Jmax on the accuracy of experimentally determined kinetics of the multidrug transporters, OCT2 and MATE1.

Methods: Transport of TEA and MPP was measured in CHO cells that stably expressed human OCT2 or MATE1.

Anti-JCV antibody prevalence in a French cohort of MS patients under natalizumab therapy.

To measure the prevalence of JCV-specific antibodies in a French cohort of MS patients treated with natalizumab and to identify risk factor(s) of JCV seropositivity. Progressive multifocal leukoencephalopathy (PML) risk may be stratified by anti-JCV antibody status, duration of natalizumab therapy (≥24 months) and prior exposure to immunosuppressive (IS) drugs. No data are available in France on the prevalence of anti-JCV antibodies and distribution of PML risk factors in patients treated with natalizumab.

Effect of natalizumab on clinical and radiological disease activity in a French cohort of patients with relapsing-remitting multiple sclerosis.

"Disease activity free" in relapsing-remitting multiple sclerosis (RRMS) is a new concept introduced by the results of the AFFIRM study. Our objective was to analyze the clinical and radiological efficacy of natalizumab treatment in actual clinical practice and compare it with the post hoc analysis of the AFFIRM study. All patients with RRMS who began treatment with natalizumab at our two French MS centres between April 2007 and May 2008 were included and followed-up for at least 2 years.

[Primitive leptomeningeal malignant melanoma: a rare etiology of pachymeningitis and leptomeningitis].

Introduction: Leptomeningitis and pachymeningitis are known to occur consecutive to many causes.

Observation: We report the case of a 24-year-old woman with symptoms of raised intracranial pressure and repeated switching transient hemiparesis. The magnetic resonance imaging (MRI) showed a pachyleptomeningitis.

A mechanical force contributes to the "osmotic swelling" of brush-border membrane vesicles.

Brush-border membrane vesicles and an osmotic swelling assay have been used extensively to monitor the pore-forming activity of Bacillus thuringiensis toxins. After a hypertonic shock, Manduca sexta midgut brush-border membrane vesicles shrink rapidly and reswell partially to a volume that depends on membrane permeability and toxin concentration rather than regaining their original volume as expected from theoretical models. Because efflux of buffer from the vesicles, as they shrink, could contribute to this phenomenon, vesicles were mixed with a hypertonic solution of the buffer with which they were loaded.

Kinetic mechanism of Na+ -glucose cotransport through the rabbit intestinal SGLT1 protein.

No consensus has yet been reached regarding the order of substrate addition to the high-affinity Na+ -D-glucose cotransporter (SGLT1). This problem was addressed by computer-assisted derivation of the steady-state velocity equations characterizing the eight-state Na+:Na+:substrate (NNS) and Na+:substrate:Na+ (NSN) mechanisms of cotransport. A notable difference was found in their denominator expressions and used to device a new strategy aimed at model discrimination in which the initial rate data are recorded at fixed S and analyzed relative to the N dependence of transport using a Hill equation.

Probing into the function of the gene product responsible for glycogen storage disease type Ib.

This study aimed at directly assessing glucose 6-phosphate (G6P) transport by intact rat liver microsomes. Tracer uptake from labeled G6P occurred with T(1/2) values that proved insensitive to unlabeled G6P or 100 microM vanadate, and could not be activated over background levels by intravesicular phosphate in the complete absence of G6P hydrolysis. [(32)P]Phosphate efflux was similarly unaffected by G6P or phosphate in the incubation medium.

Two-step mechanism of phlorizin binding to the SGLT1 protein in the kidney.

The relationships between phlorizin binding and Na+-glucose cotransport were addressed in rabbit renal brush-border membrane vesicles. At pH 6.0 and 8.

An integrated view of the kinetics of glucose and phosphate transport, and of glucose 6-phosphate transport and hydrolysis in intact rat liver microsomes.

The dynamics of the glucose 6-phosphatase system were investigated in intact rat liver microsomes using a fast-sampling, rapid-filtration apparatus. Glucose and phosphate transport followed single exponential kinetics, appeared to be homogeneous, was unaffected by unlabeled substrate concentrations up to 100 mM, proved insensitive to various potential inhibitors, and demonstrated similarly low energies of activation. The extent of tracer accumulation from glucose 6-phosphate depended on which of the glucose or phosphate moieties was the labeled species in the parent molecule.

New lessons in the regulation of glucose metabolism taught by the glucose 6-phosphatase system.

The operation of glucose 6-phosphatase (EC 3.1.3.

Kinetic mechanisms of inhibitor binding: relevance to the fast-acting slow-binding paradigm.

Although phlorizin inhibition of Na+-glucose cotransport occurs within a few seconds, 3H-phlorizin binding to the sodium-coupled glucose transport protein(s) requires several minutes to reach equilibrium (the fast-acting slow-binding paradigm). Using kinetic models of arbitrary dimension that can be reduced to a two-state diagram according to Cha's formalism, we show that three basic mechanisms of inhibitor binding can be identified whereby the inhibitor binding step either (A) represents, (B) precedes, or (C) follows the rate-limiting step in a binding reaction. We demonstrate that each of mechanisms A-C is associated with a set of unique kinetic properties, and that the time scale over which one may expect to observe mechanism C is conditioned by the turnover number of the catalytic cycle.

Reduction of an eight-state mechanism of cotransport to a six-state model using a new computer program.

A computer program was developed to allow easy derivation of steady-state velocity and binding equations for multireactant mechanisms including or without rapid equilibrium segments. Its usefulness is illustrated by deriving the rate equation of the most general sequential iso ordered ter ter mechanism of cotransport in which two Na+ ions bind first to the carrier and mirror symmetry is assumed. It is demonstrated that this mechanism cannot be easily reduced to a previously proposed six-state model of Na+-D-glucose cotransport, which also includes a number of implicit assumptions.

Caco-2 cell line used as an in vitro model to study cadmium accumulation in intestinal epithelial cells.

109Cd uptake was studied using the highly differentiated TC7 clone of Caco-2 cells as a model of human enterocyte function. Intracellular accumulation of 0.3 microM 109Cd involved a rapid and a slow uptake phase, which resulted in complete equilibration (t(1/2) = 17.

Sugar transport heterogeneity in the kidney: two independent transporters or different transport modes through an oligomeric Protein? 1. Glucose transport studies.

The kinetics of Na+/d-glucose cotransport (SGLT) were reevaluated in rabbit renal brush border membrane vesicles isolated from the whole kidney cortex using a fast-sampling, rapid-filtration apparatus (FSRFA, US patent #5,330,717) for uptake measurements. Our results confirm SGLT heterogeneity in this preparation, and both high (HAG) and low (LAG) affinity glucose transport pathways can be separated over the 15-30 degrees C range of temperatures. It is further shown that: (i) Na+ is an essential activator of both HAG and LAG; (ii) similar energies of activation can be estimated from the linear Arrhenius plots constructed from the Vmax data of HAG and LAG, thus suggesting that the lipid composition and/or the physical state of the membrane do not affect much the functioning of SGLT; (iii) similar Vmax values are observed for glucose and galactose transport through HAG and LAG, thus demonstrating that the two substrates share the same carrier agencies; and (iv) phlorizin inhibits both HAG and LAG competitively and with equal potency (Ki = 15 microM).

Kinetic separation and characterization of three sugar transport modes in Caco-2 cells.

The question of sugar transport heterogeneity in the human intestinal Caco-2 cell line was addressed using alpha-methyl-D-glucose (AMG) and 2-deoxy-D-glucose (DG) as substrate analogues for D-glucose, the transport inhibitors phlorizin (PZ) and phloretin (PT), and NaCl or choline chloride uptake media. The data are compatible with the existence of three distinct pathways that can be isolated kinetically according to specific characteristics: 1) an "AMG-strict" system, strictly Na+ dependent and specific for AMG [Michaelis-Menten constant value (K(m)) = 2.0 +/- 0.

2-Deoxyglucose transport and metabolism in Caco-2 cells.

We investigated the kinetics of 2-deoxy-D-glucose (DG) uptake and metabolism in Caco-2 cells, because this human cell line may represent a valid enterocyte model to assess the dynamics between sugar transport and metabolism and hence to obtain insights into the factors involved during the intracellular phase of glucose absorption. When studied in 14-day-old monolayers, DG uptake is characterized by a lag phase with a time course matching the decrease in intracellular glucose concentrations, and no intracellular glucose 6-phosphate (G-6-P) can be detected at any time during incubation. After 1 h of preincubation of Caco-2 cells in substrate-free transport medium, however, steady-state DG uptake matches 2-deoxy-D-glucose 6-phosphate (DG-6-P) accumulation with undetectable levels of free DG.

Thermodynamic determination of the Na+: glucose coupling ratio for the human SGLT1 cotransporter.

Phlorizin-sensitive currents mediated by a Na-glucose cotransporter were measured using intact or internally perfused Xenopus laevis oocytes expressing human SGLT1 cDNA. Using a two-microelectrode voltage clamp technique, measured reversal potentials (Vr) at high external alpha-methylglucose (alpha MG) concentrations were linearly related to In[alpha MG]o, and the observed slope of 26.1 +/- 0.

Evidence for a membrane exchangeable glucose pool in the functioning of rat liver glucose-6-phosphatase.

We have investigated the kinetics of tracer uptake into rat liver microsomes in relation to [14C]glucose 6-phosphate (Glu-6-P) hydrolysis by glucose 6-phosphatase (Glu-6-Pase). 1) The steady-state levels of intravesicular tracer accumulated during the rapid (AMP1) and slow (AMP2) phases of uptake both demonstrate Michaelis-Menten kinetics relative to outside Glu-6-P concentrations with Km values similar to those observed for the initial burst (Vi) and steady-state (VSS) rates of Glu-6-P hydrolysis. 2) The AMP1/AMP2 ratio is constant (mean value = 0.

Glucose transport and glucose 6-phosphate hydrolysis in intact rat liver microsomes.

Glucose transport was investigated in rat liver microsomes in relation to glucose 6-phosphatase (Glu-6-Pase) activity using a fast sampling, rapid filtration apparatus. 1) The rapid phase in tracer uptake and the burst phase in glucose 6-phosphate (Glu-6-P) hydrolysis appear synchronous, while the slow phase of glucose accumulation occurs during the steady-state phase of glucose production. 2) [14C]Glucose efflux from preloaded microsomes can be observed upon addition of either cold Glu-6-P or Glu-6-Pase inhibitors, but not cold glucose.

Electrogenic amino acid exchange via the rBAT transporter.

A cDNA clone was isolated from rabbit renal cortex using DNA-mediated expression cloning, which caused alanine-dependent outward currents when expressed in Xenopus oocytes. The cDNA encodes rBAT, a Na-independent amino acid transporter previously cloned elsewhere. Exposure of cDNA-injected oocytes to neutral amino acids led to voltage-dependent outward currents, but inward currents were seen upon exposure to basic amino acids.

Biosynthesis and polarized distribution of neutral endopeptidase in primary cultures of kidney proximal tubule cells.

When cultured in defined medium, kidney proximal convoluted tubule (PCT) cells form a homogeneous population and retain a number of differentiated functions. To characterize this cell system further as a functional model of epithelial polarity, we investigated the biogenic pathway of neutral endopeptidase (NEP), one of the most abundant microvillar membrane proteins in intestinal and kidney cells. We showed that, in contrast with some tumoral cell lines, RNA extracted from PCT cells shows the presence of a single mRNA species encoding NEP.

Heterotropic effects of dipolar amino acids on the activity of the anionic amino acid transport system X-AG in rabbit jejunal brush-border membrane vesicles.

D-Aspartic acid was used as a specific substrate to evaluate the effects of dipolar amino acids on the high affinity anionic amino acid transport system X-AG in rabbit jejunal brush-border membrane vesicles. At pH 6, increasing L-phenylalanine concentrations caused a saturable activation of 0.05 mM D-aspartic acid uptake (Ka = 2.

Allosterism and Na(+)-D-glucose cotransport kinetics in rabbit jejunal vesicles: compatibility with mixed positive and negative cooperativities in a homo- dimeric or tetrameric structure and experimental evidence for only one transport protein involved.

We first present two simple dimeric models of cotransport that may account for all of the kinetics of Na(+)-D-glucose cotransport published so far in the small intestine. Both the sigmoidicity in the Na+ activation of transport (positive cooperativity) and the upward deviations from linearity in the Eadie-Hofstee plots relative to glucose concentrations (negative cooperativity) can be rationalized within the concept of allosteric kinetic mechanisms corresponding to either of two models involving sequential or mixed concerted and sequential conformational changes. Such models also allow for 2 Na+: 1 S and 1 Na+: 1 S stoichiometries of cotransport at low and high substrate concentrations, respectively, and for partial inhibition by inhibitors or substrate analogues.

Polarized distribution of neutral endopeptidase 24.11 at the cell surface of cultured human intestinal epithelial Caco-2 cells.

The human colon cancer cell line Caco-2 undergoes spontaneous enterocytic differentiation during growth, and expresses a number of brush-border-membrane-associated hydrolases typical of a differentiated phenotype. Among these are alkaline phosphatase, dipeptidyl peptidase IV and sucrase-isomaltase (sucrase, EC 3.2.