Effects of confluence on phosphate transport capacity in cultured renal cell lines

The LLC-PK1 cell line transports phosphate (Pi), glucose, and amino acids using carriers similar to those in proximal tubular cells. Others have reported that when monolayers reach confluence, hexose transport increases and activity of the A-amino acid transporter falls. The present study evaluates Pi uptake by two continuous cell lines derived from renal proximal tubule, and demonstrates that phosphate uptake falls sharply upon reaching confluence in LLC-PK1 cells but not in cultured opossum kidney (OK) cells. The fall in Pi uptake in LLC-PK1 cells at confluence represents a halving in Vmax for Na-dependent phosphate uptake (2.33 vs. 5.00 nmol/mg protein/5 min) without a change in Km (82 vs. 94 microM). Suppression of phosphate transport in confluent monolayers of LLC-PK1 cells is completely reversed by bringing the cells into suspension. As has been shown for the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA), exposure of monolayers to serum stimulates phosphate uptake, but unlike phorbol ester, serum does so without stimulating alanine uptake. OK cells differ from LLC-PK1 in that no change occurs in Pi uptake at confluence, although they resemble LLC-PK1 cells in that sugar uptake rises and alanine uptake falls at confluence. The different temporal patterns for Pi uptake in the two cell lines indicates that developmental change in the uptake of Pi is not linked to that of glucose or alanine.     

Growth, enzyme activity, sugar transport, and hormone supplement responses in cells cloned from a pig kidney cell line LLC-PK1

Three clones of the pig kidney cell line LLC-PK1 were isolated and characterized with regard to morphology, growth, proximal tubule enzyme activity, sugar uptake capacity, and hormone and drug responsiveness in a defined medium. Clone N4 was similar in morphology to the wild type (WT), whereas clone F8 showed loose attachment to the substrate, formed large, sweeping domes, and had an elongated desmosome junction between cells. The third clone, F2, did not form domes and showed a marked reduction in growth rate. Cultures of WT, N4, and F8 had higher specific activities of the enzyme alkaline phosphatase and gamma-glutamyl transpeptidase at confluence relative to growing cells; however, there was no evidence of an increase in activity of either enzyme at confluence in F2. Phlorizin-sensitive alpha-methyl-D-glucoside uptake and cytochalasin B-sensitive 2-deoxy-D-glucose uptake were measured in confluent cultures grown on porous filter supports. None of the clones lacked either of the hexose transport systems, although quantitative differences were evident. N4 cells grown in a defined medium in 96-well culture plates were tested in situ for their enzyme responses to differentiation inducers, tumor promoters, and hormones. Alkaline phosphatase activity was significantly increased at confluence by serum, parathyroid hormone (PTH), and vasopressin (AVP), and was decreased by tetradecanoylphorbol acetate (TPA) and epinephrine (EPI). Glutamyl transpeptidase activity was decreased at confluence by serum, TPA, and EPI. Similar tests on alpha-methyl-D-glucoside uptake showed that serum, TPA, PTH, and AVP had no significant effect on phlorizin-sensitive uptake; however, calcitonin increased uptake by 84% (n = 18). It was concluded that LLC-PK1 clones maintained in a defined medium are useful models for studying renal cell function.     

Refolding of soluble leukemia inhibitory factor receptor fusion protein (gp 190 sol DAF) from urea

Uptake of L-[1-14C]ascorbic acid (Asc) of 12.5-200 µM for 1 h intobovine aortic endothelial BAE-2 cells grown to confluence was as low as43-64% (per cell) of uptake into the cells grown to nearly one-fourthconfluence. [14C]Asc undergoing transmembrane uptake was concentrated andaccumulated in the cell less efficiently ([Asc]in/ex = 8-13) at confluencethan at subconfluence ([Asc]in/ex = 15-24). The declined Asc uptake atconfluence is attributable to slowdown of the cell cycle, because a similardecrease in [Asc]in/ex was shown by subconfluent cells precultured inserum-insufficient medium, resulting in an increase in G1 phase andconcurrent decreases in S and G2 + M phase distributions as determined byflow cytometry. [1-14C]Dehydroascorbic acid (DehAsc) was taken up andaccumulated as Asc, after metabolic reduction, without detectable DehAsc.The [Asc]in/ex values for DehAsc at confluence were as low as 15-69%of those at subconfluence in contrast to the values as retentive as62-75% for Asc, suggesting the moderate control of Asc uptake againstslowdown of the cell cycle. At either confluence or subconfluence,dose-dependence for DehAsc uptake was more marked than for Asc uptake asshown by an uphill slope in a curve of doses versus [Asc]in/ex for DehAsc incontrast to a downhill slope for Asc, suggesting the moderate control forAsc uptake against fluctuation of the dose. Increasing of coexistent glucoseof 5 mM to 20-40 mM, plasma concentrations in diabetic patients, declinedDehAsc uptake to 46-48%, which was less moderately controlled thanAsc uptake retained to 59-73%. Asc uptake did not compete with DehAscuptake, suggesting different transporter proteins for Asc and DehAsc. Thus,Asc uptake into the aortic endothelial cells is more moderately controlledagainst slowdown of the cell cycle, decreasing of the extracellularconcentrations or increasing of coexistent glucose than DehAsc uptake,suggesting a homeostatic advantage of Asc over DehAsc in terms of retentionof intracellular Asc contents within a definite range.     

Control by cell interaction of phosphate uptake in 3T3 cells.

Phosphate uptake by monolayers of 3T3 cell decreases when the cultures enter the stationary phase, even when incubated in fresh medium containing 10% serum. However, SV 3T3 cultures retain a high rate of phosphate uptake when the cells reach saturation densities.We have observed that 3T3 cells grown to stationary phase in monolayers and then trypsinized and incubated in suspension, display an increase in phosphate uptake when the cell concentration is decreased from 10⁶ cells/ml to 10⁵ cells/ml. Where the cell concentration is further reduced from 10⁵ cells/ml to 2.5 × 10⁴ cells/ml there is no further increase in the rate of phosphate uptake. We observed, on the contrary, a small decrease.The “concentration effect” (the decrease of phosphate uptake when the cell concentration increases from 10⁵ to 10⁶ cells/ml) is larger when cells originate from a culture in stationary phase than when they originate from a culture in log phase.The “concentration effect” may be observed 10 min after cell incubation but is larger after a lag time of 40 min incubation.Differences in the “concentration effect” may be noted between 3T3 and SV 3T3 cells. In SV 3T3 cells no significant variations of phosphate uptake were observed when the cell concentration was changed. Thus, differences between phosphate uptake in 3T3 and SV 3T3 cells are large when cells are incubated at high concentrations or at high densities and small when they are incubated at low concentrations or at low densities.The “concentration effect” in 3T3 cells supports the assumption that interactions between cells cause the decrease of phosphate metabolism in dense culture. Diffusion of an inhibitor into the medium remains the more plausible explanation of the data.     

Transferrin uptake and release by reticulocytes treated with proteolytic enzymes and neuraminidase

The mechanism of transferrin uptake by reticulocytes was investigated using rabbit transferrin labelled with ¹²⁵I and ⁵⁹Fe and rabbit reticulocytes which had been treated with trypsin, Pronase or neuraminidase. Low concentrations of the proteolytic enzymes produced a small increase in transferrin and iron uptake by the cells. However, higher concentrations or incubation of the cells with the enzymes for longer periods caused a marked fall in transferrin and iron uptake. This fall was associated with a reduction in the proportion of cellular transferrin which was bound to a cell membrane component solubilized with the non-ionic detergent, Teric 12A9. The effect of trypsin and Pronase on transferrin release from the cells was investigated in the absence and in the presence of $\text{N-}\text{ethylmaleimide}$ which inhibits the normal process of transferrin release. It was found that only a small proportion of transferrin which had been taken up by reticulocytes at 37°C but nearly all that taken up 4°C was released when the cells were subsequently incubated with trypsin plus $\text{N-}\text{ethylmaleimide}$, despite the fact that about 80% of the ⁵⁹Fe in the cells was released in both instances. Neuraminidase produced no change in transferrin and iron uptake by the cells.These experiments provide evidence that transferrin uptake by reticulocytes requires interaction with a receptor which is protein in nature and that following uptake at 37°C, most of the transferrin is located at a site unavailable to the action of proteolytic enzymes. The results support the hypothesis that transferrin enters reticulocytes by endocytosis.     

The effect of a native collagen gel substratum on the synthesis of collagen by bovine brain capillary endothelial cells

Cultured capillary endothelial cells, derived from bovine brain, and maintained on a plastic substratum synthesized predominantly interstitial collagens of which approximately 75 per cent were secreted into the medium. When grown on a native hydrated collagen type I gel, although no marked alteration in the 'collagen synthetic pattern' was observed, the overall level of collagen synthesis was increased by approximately 100 per cent. More dramatic, however, was the alteration in the distribution of these molecules between medium and cell layer. Interstitial collagens produced by cells grown on collagen gels were almost exclusively associated with the cell layer or collagenous gel. These studies, thus, demonstrate that an extracellular matrix may exert a considerable influence on the cellular synthetic activities and possibly cellular polarity of capillary endothelial cells.     

The use of BeWo cells as an in vitro model for placental iron transport

BeWo cells are a placental cell line that has been widely used as an in vitro model for the placenta. The b30 subclone of these cells can be grown on permeable membranes in bicameral chambers to form confluent cell layers, enabling rates of both nutrient uptake into the cells from the apical surface and efflux from the basolateral membrane to be determined. The aim of this study was to evaluate structural and functional properties of confluent b30 BeWo cell layers grown in bicameral chambers, focusing on the potential application for studying receptor-mediated uptake and transport of transferrin (Tf)-bound iron (Fe-Tf). While it proved extremely difficult to establish and maintain an intact BeWo cell monolayer, it was possible to grow the cells to a confluent multilayer. Iron, applied as Fe-Tf, was rapidly transported across this cell layer; 9.3 +/- 0.5% of the total dose was transported after 8 h, equivalent to 38.8 +/- 2.1 pmol.cm(-2).h(-1). Transfer of Tf across the cell layer was much more limited; 2.4 +/- 0.2% of the total dose was transported after 8 h, equivalent to 5.0 +/- 0.4 pmol.cm(-2).h(-1). Compartmental modeling of these data suggested that iron was transported across the cell layer predominantly, if not exclusively, via a transcellular route, whereas Tf taken up into the cells was predominantly recycled back to the apical compartment. The results suggest that these cells are very efficient at transporting iron and, under carefully controlled conditions, can be a valuable tool for the study of iron transport in the placenta.     

Transferrin uptake and release by reticulocytes treated with proteolytic enzymes and neuraminidase.

The mechanism of transferrin uptake by reticulocytes was investigated using rabbit transferrin labelled with 125I and 59Fe and rabbit reticulocytes which had been treated with trypsin, Pronase or neuraminidase. Low concentrations of the proteolytic enzymes produced a small increase in transferrin and iron uptake by the cells. However, higher concentrations or incubation of the cells with the enzymes for longer periods caused a marked fall in transferrin and iron uptake. This fall was associated with a reduction in the proportion of cellular transferrin which was bound to a cell membrane component solubilized with the non-ionic detergent, Teric 12A9. The effect of trypsin and Pronase on transferrin release from the cells was investigated in the absence and in the presence of N-ethylmaleimide which inhibits the normal process of transferrin release. It was found that only a small proportion of transferrin which had been taken up by reticulocytes at 37 degrees C but nearly all that taken up 4 degrees C was released when the cells were subsequently incubated with trypsin plus N-ethylmaleimide, despite the fact that about 80% of the 59Fe in the cells was released in both instances. Neuraminidase produced no change in transferrin and iron uptake by the cells. These experiments provide evidence that transferrin uptake by reticulocytes requires interaction with a receptor which is protein in nature and that following uptake at 37 degrees C, most of the transferrin is located at a site unavailable to the action of proteolytic enzymes. The results support the hypothesis that transferrin enters reticulocytes by endocytosis.     

Factors Influencing the Differentiation of Dopaminergic Traits in Transplanted Neural Stem Cells

1. Our previous studies demonstrated that when neural stem cells (NSCs) of the C17.2 clonal line are transplanted into the intact or 6-hydroxydopamine (6-OHDA) lesioned rat striatum, in most, but not all grafts, cells spontaneously express the dopamine (DA) biosynthetic enzymes, tyrosine hydroxylase (TH), and aromatic L-amino acid decarboxylase (Yang, M., Stull, N. D., Snyder, E. Y., Berk, M. A., and Iacovitti, L. (2002). Exp. Neurol.).2. These results suggested that there were certain conditions which were more conducive to the development of DA traits in NSCs and possibly other neurotransmitter phenotypes.3. In the present study, we modified a number of variables in vitro (i.e. passage number, confluence) and/or in vivo (degree, type, and site of injury) before assessing the survival, migration, and differentiation of engrafted NSCs.4. We found that low confluence cultures were comprised exclusively of flattened polygonal cells, which when transplanted, migrated widely in the brain but did not express TH.5. In contrast, high confluence cultures contained both polygonal cells and an overlying bed of fusiform cells.6. When these NSCs were maintained for 12–20 passages and then transplanted, virtually all engrafted cells in 65% of the grafts expressed TH but not markers of other neurotransmitter systems.7. Importantly, all TH⁺ grafts were accompanied by significant physical damage to the brain while TH^– grafts were not, suggesting that local injury-related factors were also important.8. Of no apparent influence on TH expression, regardless of how cells were grown prior to implantation, was the site of transplantation (cortex or striatum) or the degree of chemical lesion (intact, partial or full).9. We conclude that transplanted NSCs can express traits specifically associated with DA neurons but only when cells are grown under certain conditions in vitro and then transplanted in proximity to injury-induced factors present in vivo.     

Carbohydrate metabolism of hepatocytes from starved Japanese quail

Hepatocytes were isolated from livers of mature male and female starved Japanese quail (Coturnix coturnix japonica). The hepatocytes take up lactate and dihydroxyacetone extensively, and have a very high rate of glucose synthesis from these substrates. Fructose uptake and incorporation into glucose is much less. Pyruvate and alanine are taken up extensively, but form little glucose. There is negligible lipogenesis in cells of starved quail. Alanine increases up to 10-fold incorporation of ³HOH and ¹⁴C from several substrates into fatty acids, but it remains insignificant as compared to lipogenesis by cells of fed quail. There is little utilization of glucose, even in the presence of alanine, in marked contrast to hepatocytes from fed quail. However, glucose is phosphorylated at high rates, but most of the glucose 6-phosphate is recycled to glucose. There is a marked difference in the metabolism of polyols between the sexes. Glycerol, xylitol, and sorbitol are converted nearly quantitatively into glucose by hepatocytes of starved female quail. In cells of starved males, the uptake of polyols is higher, but conversion to glucose less efficient. In cells of starved male quail, alanine markedly stimulates the uptake of glycerol and xylitol and their conversion to glucose, but has no effect on sorbitol metabolism. In cells of female quail, alanine is without a significant effect on polyol metabolism.     

The alanine ester content and magnesium binding capacity of walls of Staphylococcus aureus H grown at different pH values

Recent studies have shown that teichoic acids are functionally involved in the uptake of Mg²⁺ and that their ability to bind Mg is reduced by the presence of alanine ester substituents. Walls of Staphylococcus aureaus H grown at pH 5 contain more ester alanine and bind less magnesium than do walls of S. aureaus grown under similar conditions at pH 6 and 7. The differences in alanine content are largely due to its removal by base catalysed hydrolysis of the labile ester linkages during growth in media of pH 6 and 7 and the incorporation of alanine esters into the walls does not appear to be influenced by the pH of the medium in which the bacteria are grown under the conditions described. The decreased magnesium binding capacity of walls of S. aureus grown at pH 5 correlates with their increased alanine ester content but there is no proportional relationship between these two quantities.     

Polarity of transport of 2-deoxy-D-glucose and D-glucose by cultured renal epithelia (LLC-PK1).

At least two types of glucose transporter exist in cultured renal epithelial cells, a Na(+)-glucose cotransporter (SGLT), capable of interacting with D-glucose but not 2-deoxy-D-glucose (2dglc) and a facilitated transporter (GLUT) capable of interacting with both D-glucose and 2dglc. In order to examine the polarity of transport in cultured renal epithelia, 2dglc and D-glucose uptakes were measured in confluent cultures of LLC-PK1 cells grown on collagen-coated filters that permitted access of medium to both sides of the monolayer. The rates of basolateral uptake of both 1 mM glucose (Km 3.6 mM) and 1 mM 2dglc (Km 1.5 mM) were greater than apical uptake rates and the (apical-to-basolateral)/(basolateral-to-apical) flux ratio was high for glucose (9.4) and low for 2dglc (0.8), thus, confirming the lack of interaction of 2dglc with the apical SGLT. Specific glucose transport inhibitor studies using phlorizin, phloretin and cytochalasin B confirmed the polarised distribution of SGLT and GLUT in LLC-PK1 cells. Basolateral sugar uptake could be altered by addition of insulin (1 mU/ml) which increased 2dglc uptake by 72% and glucose uptake by 50% and by addition of 20 mM glucose to the medium during cell culture which decreased 2dglc uptake capacity at confluence by 30%. During growth to confluence, 2dglc uptake increased to a maximum, then decreased at the time of confluence, coincident with a rise in uptake capacity for alpha-methyl-D-glucoside, a hexose that interacts only with the apical SGLT. It was concluded that the non-metabolisable sugar 2dglc was a useful, specific probe for GLUT in LLC-PK1 cells and that GLUT was localised at the basolateral membrane after confluence.     

Interleukin-8 as an autocrine growth factor for human colon carcinoma cells in vitro

Cell lines derived from human colon carcinomas secrete interleukin 8 (IL-8) in vitro and this chemokine has also been detected immunohistochemically in human colon carcinoma specimens, in which it is tumour cell associated. In these experiments, IL-8 was shown to comprise an important component of the angiogenic activity of colon carcinoma cell line supernatants. The effect of modulating IL-8 activity upon the growth of the colon carcinoma cell lines HCT116A, HT29 and CaCo2 was investigated. Supplementing endogenously produced IL-8 by recombinant chemokine led to stimulation of cell growth. Neutralization of the effect of endogenously produced IL-8, either with the specific antagonist peptide AcRRWWCR or with blocking anti-IL-8 antibody, resulted in around 50% inhibition of cell growth (P<0.05). All of the colon carcinoma cell lines tested expressed mRNA for both IL-8RA and RB when grown at confluence. At the protein level, all cell lines expressed IL-8RA. Expression of IL-8RB was weak, although increased expression was seen in HCT116A cells as they approached confluence. Antibodies to IL-8RA and RB did not affect proliferation at low cell density but were strongly inhibitory when cells were cultured at a higher density. These data suggest that IL-8 acts as an autocrine growth factor for colon carcinoma cell lines and would support the concept that a similar autocrine loop operates in vivo.     

Cation Transport in Dog Red Cells

Studies have been made on the cation transport system of the dog red cell, a system of particular interest because it has been shown that there is a marked dependence of cation fluxes on the cell volume. We have found that a 10% decrease in cell volume causes a large increase in 1 hr uptake of ²⁴Na as well as a considerable inhibition of ⁴²K uptake. This effect cannot be produced by a difference in medium osmolality but rather requires the cell volume to change. Dog red cell uptake of ²⁴Na is not inhibited by iodoacetate. Phloretin inhibits ²⁴Na uptake and lactate production, and virtually abolishes the volume effect on Na uptake. These several observations may be accounted for in terms of a working hypothesis which presupposes a cation carrier complex which pumps K into and Na out of cells of normal volume. When the cells are shrunken the carrier specificity shifts to an external Na-specific mode and there is a large increase in ²⁴Na uptake, driven by the inwardly directed Na electrochemical potential gradient.     

Growth,sugar accumulation,and dark respiration of suspension cell cultures derived from contrasting alfalfa cultivars

Fall dormancy results in decumbent, slow shoot growth of alfalfa (Medicago sativa L.) in autumn and reduced shoot regrowth rates after herbage removal in summer. Although fall dormancy is used to predict alfalfa adaptation, we possess a poor understanding of the biological mechanisms underlying fall dormancy. Our objective was to examine growth and carbohydrate metabolism of suspension cell cultures derived from contrasting alfalfa cultivars that genetically differed in fall dormancy. Suspension cells were grown in B5h media containing 2% sucrose. Cells derived from fall non-dormant plants accumulated sugars more rapidly after transfer to fresh media and to higher concentrations than did cells derived from fall dormant alfalfa cultivars. Dark respiration rates of cells derived from non-dormant plants were similar to those derived from fall dormant plants when growth was limited at low cell sugar concentrations. However, both cell growth and dark respiration rates increased in cells derived from non-dormant cultivars in response to greater cell sugar concentrations. High growth rates of cells derived from rapid growing, fall non-dormant alfalfa cultivars were associated with rapid sugar uptake and higher cell respiration rates when compared to cells derived from dormant alfalfa cultivars.     

Uptake properties of lamivudine (3TC) by a continuous renal epithelial cell line

The purpose of this study was to characterize the renal uptake properties of the cytidine analog and antiretroviral agent 3TC. The uptake of radiolabelled 3TC was measured at 37 degrees C in a continuous porcine renal epithelial cell line (i.e., LLC-PK1 cells) grown as a monolayer on an impermeable support. 3TC (5 microM) uptake (37 degrees C) by the monolayer cells was saturable (Km = 1.2 +/- 0.2 mM) but not significantly altered by various dideoxynucleoside analog drugs, nucleosides, and nucleoside transport inhibitors, suggesting that a nucleoside transporter is not involved in 3TC uptake. A number of endogenous organic cation probes and inhibitors significantly reduced 3TC uptake by the monolayer cells. Quinine, trimethoprim (TMP), and tetraethylammonium (TEA) inhibited 3TC uptake in a dose dependent manner with IC50 values of 0.6 mM, 0.63 mM, and 1.9 mM, respectively. In turn, the uptake of the typical organic cation substrate TEA was inhibited by high concentrations of 3TC. An outwardly directed proton gradient significantly increased the uptake of 3TC by the monolayer cells, suggesting the involvement of a proton exchange process. Conversely, in the presence of monensin, a Na+/H+ ionophore, the uptake of 3TC was significantly reduced. These results suggest that the uptake of 3TC by a cultured renal epithelium may be mediated by an organic cation-proton exchanger. The observed clinical interaction between 3TC and trimethoprim may be explained by competition for a common renal organic cation tubular transporter.     

Glutamate Uptake and Metabolism in C-6 Glioma Cells: Alterations by Potassium Ion and Dibutyryl cAMP

Abstract: Uptake and metabolism of glutamate was studied in the C-6 glioma cell line grown in the absence or presence of dibutyryl cyclic AMP (dbcAMP). Glutamate and aspartate uptake were competitive in cells grown under both conditions. Increased [K⁺] in the medium caused a significant decrease in the uptake of both amino acids. A small part of this decrease (<25%) was due to an enhanced efflux of tissue amino acid. The effects of increased [K⁺] were observed whether or not the [Na⁺] in the medium was concomitantly decreased. In cells grown in the presence of 1 mM dbcAMP for 48 h, glutamate uptake and metabolism were altered. Tissue levels of glutamate, aspartate, glutamine, GABA, and alanine were generally less in treated than in naive cells. When incubated with 50 μM [U-¹⁴C]glutamate, there was significantly less incorporation of radioactivity into treated cells with time, resulting in greatly lowered specific radioactivities of glutamate, aspartate, and GABA. However, the rate of labeling of glutamine was greatly increased; this was consistent with the previously observed doubling in glutamine synthetase activity in dbcAMP-treated C-6 cells. Tissue glutamate decarboxylase activity was halved in treated cells, accounting for the large decrease in GABA labeling. The metabolic data suggested a decreased uptake of exogenous glutamate; in studies on initial rates of uptake, the V_max of high-affinity glutamate uptake was decreased by 40%. This decrease was of the same order of magnitude as that observed in the metabolic experiments. Thus, in this glial model, both rapid, acute changes and slower, long-term changes in neuroactive amino acid metabolism were observed. Each of these conditions mimics a stimulus of neuronal origin, and the resulting changes could modulate extrasynaptic activity of neuroactive amino acids.     

Structural Features Underlying Hardseededness in Geraniaceae

Abstract: The proportion of hard Geraniaceae seeds ranges from 0 to 100%, depending on species. By analysing the characteristics of hardseededness through the pathway of water uptake in soft seeds provided localization of the chalazal area in water uptake. This represents the most important feature of seed coat permeability. The structural difference between hard-and softseededness was clarified by comparing different species with exclusively permeable or impermeable seeds. Soft seeds form a wide opening at the chalazal slit, while hard ones close the slit using adjacent palisade cells so effectively continuing the impermeable barrier.     

Proton movements coupled to lactate and alanine transport in Escherichia coli: isolation of mutants with altered stoichiometry in alanine transport.

The addition of lactate to lightly buffered suspensions of resting cells of Escherichia coli caused an increase in the pH of the extracellular phase as lactate and protons entered the cell together. From the magnitude of the pH change and the non-electrogenic character of lactate uptake, we concluded that the stoichiometry of the process was 1 proton/lactate anion. The addition of alanine caused a slow increase in pH, also apparently due to the transport of the amino acid by a symport mechanism with 1 proton/alanine stoichiometry. When cells were grown in the chemostat with alanine as sole carbon source and as limiting nutrient, this stoichiometry was found to alter to 2 protons/alanine, and then to 4 protons/alanine. These increases stoichiometries were due to the selection of mutants. The consequences of these changes on the potential uptake capacity of the cells are discussed.     

Endocytosis and Na+/solute cotransport in renal epithelial cells

Endocytic uptake of [3H]sucrose and lucifer yellow, markers for fluid-phase endocytosis, was studied in cultures of the renal epithelial cell lines LLC-PK1 and OK. Endocytosis in LLC-PK1 cells was inhibited when the cells were grown in the presence of gentamicin (1 mg/ml) for 4 days or when the cells were treated with concanavalin A (1 mg/ml) for 5 h. These changes occurred without perturbation of intracellular Na+ and K+ content, indicating that the cells maintained normal ion gradients. The inhibition of endocytosis was accompanied by marked increases in the apparent Vmax for Na+-dependent cell uptake of solutes such as Pi and L-alanine. The apparent Km was unchanged. In contrast, treatment of OK cells with concanavalin A produced marked stimulation of endocytosis and inhibition of the Na+-dependent uptake of Pi and L-glutamate. These changes occurred in the absence of changes in intracellular Na+ and K+ content. Neither gentamicin nor concanavalin A had a direct effect on Na+/solute cotransport in these cell lines. The changes in Na+/Pi cotransport induced by concanavalin A in both LLC-PK1 and OK cells were blocked by keeping the cells at 4 degrees C during exposure to the lectin, suggesting that endocytosis may be part of the mechanism which mediates the changes in solute uptake. The reciprocal relationship between the changes in endocytosis and the changes in Na+/solute cotransport is consistent with the possibility that the number of Na+/solute cotransporters present in the plasma membrane may be altered by an increase or decrease in the rate of membrane internalization by endocytosis. The Vmax changes in Na+/solute cotransport provide indirect support for this conclusion.