ADP-Glucose Transport by the Chloroplast Adenylate Translocator Is Linked to Starch Biosynthesis

In organello starch biosynthesis was studied using intact chloroplasts isolated from spinach leaves (Spinacia oleracea). Immunoblot analysis using a specific antiserum against the mitochondrial adenylate (ADP/ATP) translocator of Neurospora crassa shows the presence of an adenylate translocator protein in the chloroplast envelope membranes, similar to that existing in mitochondria and amyloplasts from cultured cells of sycamore (Acer pseudoplatanus). The double silicone oil layer-filtering centrifugation technique was employed to study the kinetic properties of adenylate transport in the purified chloroplasts; ATP, ADP, AMP, and most importantly ADP-Glc were shown to be recognized by the adenylate translocator. Similar to the situation with sycamore amyloplasts, only ATP and ADP-Glc uptake was inhibited by carboxyatractyloside, an inhibitor of the mitochondrial adenylate translocator. Evidence is presented to show that the ADP-Glc transported into the chloroplast stroma is utilized for starch synthesis catalyzed by starch synthase (ADP-Glc:1,4-α-d-glucan 4-α-d-glucosyltransferase). The high activity of sucrose synthase producing ADP-Glc observed in the extrachloroplastic fractions suggests that starch biosynthesis in chloroplasts may be coupled with the direct import of ADP-Glc from the cytosol.     

The recognition of two specific binding sites of the adenine nucleotide translocase by palmitoyl CoA in bovine heart mitochondria and submitochondrial particles.

Palmitoyl CoA which is an effective inhibitor of adenine nucleotide transport is able to remove bound [¹⁴C]ADP and [³H]atractylate from the translocator on the outer side of the inner mitochondrial membrane. Bongkrekic acid, when added to the incubation medium prior to palmitoyl CoA, can prevent the removal of bound [¹⁴C]ADP from the membrane by palmitoyl CoA, however, bongkrekic acid is ineffective if palmitoyl CoA is added first. Upon incubation with inverted submitochondrial particles, both palmitoyl CoA and bongkrekic acid prevent the uptake and transport of [¹⁴C]ADP by the particles. Moreover, when the submitochondrial particles are preincubated with [¹⁴C]ADP, palmitoyl CoA, like bongkrekic acid, is unable to remove the bound nucleotide from the inner face of the carrier. Thus, palmitoyl CoA which has a high affinity for the translocator on both sides of the inner mitochondrial membrane, nevertheless, interacts differently with the carrier on each side of the membrane. This suggests that the translocase contains binding sites in two specific states both of which accommodate palmitoyl CoA.     

Comparative analysis of mitochondrial and amyloplast adenylate translocators

Structurally intact and metabolically competent mitochondria isolated from liquid-culture cells of sycamore (Acer pseudoplatanus L.) were shown to incorporate ADPglucose. Employing the double silicone oil layer filtering centrifugation method, we examined the kinetic properties of the uptake of various adenylates as well as the inhibitory effects exerted by carboxyatractyloside, atractyloside and bongkrekic acid, known specific inhibitors of the mitochondrial adenylate translocator. Immunoblot patterns of peptides derived from the partial proteolytic digestion of the mitochondrial and plastid adenylate translocators were shown to be essentially the same. We conclude that the molecular entities engaged in the adenylate transport system operating in two different organelles, mitochondria and amyloplasts, are very similar.     

Effects of Inhibitors of Protein Synthesis on Transmembrane Auxin Transport in Cucurbita pepo L. Hypocotyl Segments

Pretreatment of 2?0 mm segments of etiolated zucchini (Cucurbitapepo L.) hypocotyl with cycloheximide (CH) or 2-(4-methyl-2,6-dinitroanilino)-N-methylpropionamide(MDMP) eliminated the stimulation by N-1-naphthylphthalamicacid (NPA) of net uptake of [1-¹⁴C]indol-3yl-acetic acid ([1-¹⁴C]IAA),but had relatively little effect on the net uptake of IAA inthe absence of NPA. The efflux of [1-¹⁴C]IAA from preloadedsegments was not substantially affected by inhibitor pretreatmentin the absence of NPA, but CH pretreatment significantly inhibitedthe reduction of efflux caused by NPA. Pretreatment with CHor MDMP did not affect net uptake by segments of the pH probe[2-¹⁴C]5,5-dimethyl-oxazolidine-2,4-dione ([2-¹⁴C]DMO), or thenet uptake of [¹⁴C]-labelled 3-O-methylglucose ([¹⁴C]3-0-MeGlu),suggesting that neither inhibitor affected intracellular pHor the general function of proton symporters in the plasma membrane.Both compounds reduced the incorporation of label from [³⁵S]methionineinto trichloroacetic acid (TCA)-insoluble fractions of zucchinitissue, confirming their inhibitory effect on protein synthesis. The steady-state association of [³H]IAA with microsomal vesiclesprepared from zucchini hypocotyl tissue was enhanced by theinclusion of NPA in the uptake medium. The stimulation by NPAof [³H]IAA association with microsomes was substantially reducedwhen the tissue was pretreated with CH. However, CH pretreatmentdid not affect the level of high affinity NPA binding to themembranes indicating that treatments did not result in lossof NPA receptors. It is suggested that the auxin transport site on the effluxcarrier system and the receptor site for NPA may reside on separateproteins linked by a third, rapidly turned-over, transducingprotein. Key words: Auxin carriers, auxin efflux, Cucurbita pepo, phytotropin receptors     

Binding of radioactively labeled carboxyatractyloside, atractyloside and bongkrekic acid to the ADP translocator of potato mitochondria

1. 1. The inhibition of the ADP-stimulated respiration of potato mitochondria by carboxyatractyloside is relieved by high concentration of ADP or by the uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP). Atractyloside is a much less potent inhibitor than carboxyatractyloside. The inhibition of the ADP-stimulated respiration required about 60-times more atractyloside than carboxyatractyloside.

2. 2. [³⁵S]carboxyatractyloside and [³H]bongkrekic acid bind to potato mitochondria with high affinity (K_d = 10 to 20 nM, n = 0.6–0.7 nmol per mg protein). Added ADP competes with carboxyatractyloside for binding; on the contrary ADP increases the amount of bound bongkrekic acid. [³H]atractyloside binds to potato mitochondria with a much lower affinity (K_d = 0.45 μM) than carboxyatractyloside or bongkrekic acid.

3. 3. Bound [³H]atractyloside is displaced by ADP, carboxyatractyloside and bongkrekic acid. The displacement of bound [³⁵S]carboxyatractyloside by bongkrekic acid and of bound [³H]bongkrekic acid by carboxyatractyloside is markedly increased by ADP.

4. 4. Bongkrekic acid competes with [³⁵S]carboxyatractyloside for binding. Addition of a small concentration of ADP considerably enhances the inhibitory effect of bongkrekic acid on [³⁵S]carboxyactratyloside binding.

5. 5. The adenine nucleotide content of potato mitochondria is of the order of 1 nmol per mg protein. ADP transport in potato mitochondria is inhibited by atractyloside 30- to 40-times less efficiently than by carboxyatractyloside.

Inhibition of Cell Division and DNA Synthesis by Gibberellin in Isolated Zinnia Mesophyll Cells

A culture system of isolated mesophyll cells of Zinnia eleganswas used to examine the action of gibberellic acid (GA) on celldivision. Isolated Zinnia mesophyll cells cultured in a mediumcontaining auxin and cytokinin reinitiated cell division ina partly synchronized manner. When mesophyll cells isolatedfrom 21-day-old seedlings were used, GA added to the culturemedium at concentrations of 1 x 10^–6 M or higher suppressedthe initial rise in the number of divided cells. Tracer experimentswith [³H]-dThd revealed that GA treatment inhibited the incorporationof [³H]-dThd into DNA in the nucleus without inhibiting theuptake of [³H]-dThd into the cells, indicating that GA inhibitedDNA synthesis. GA applied at 48 h inhibited the incorporationof [³H]-dThd into DNA during the following 24 h, but GA appliedat 72 h did not inhibit the incorporation during the subsequent24 h. This suggests that GA affects the process of reinitiationof DNA synthesis, but does not affect DNA synthesis once cellshave become proliferative. (Received January 14, 1986; Accepted March 31, 1986)     

Induction of Glucose 6-Phosphate Transport Activity in Chloroplasts of Mesembryanthemum crystallinum by the C3-CAM Transition

To study possible changes in the transport metabolites betweenchloroplasts and cytoplasm during CAM induction of Mesembryanthemumcrystallinum, we compared substrate specificity of P1¹ translocator(s)in isolated chloroplasts from the C₃ and CAM-induced plants.The [¹⁴C]glu-cose 6-phosphate (G6P) transport activity was significantonly in the chloroplasts of CAM-mode plants and not detectablein those of C₃-mode, while a similar high rate of [³²P]P_i uptakewas observed with both types of chloroplasts. Kinetic analysisof G6P uptake in the CAM chloroplasts showed a high V_max [10.6µmol (mg Chl)^–1 h^–1] and a comparatively lowK_m value (0.41 mM); the latter was similar to K_i values of P_i,3-phosphoglycerate and phospho-enolpyruvate, 0.30, 0.34 and0.47 mM, respectively. On the other hand, [32P]Pi uptake inthe CAM chloroplasts was inhibited competitively by G6P witha K_i value (8.4 mM) 20-fold higher than the K_m value for G6Puptake, while that in C₃ chloroplasts was not inhibited at all.These results suggest that a new G6P/P_i, counterexchange mechanismis induced in the chloroplast envelope of CAM-induced M. crystallinumin addition to the ordinary type of P, translocator, that cannottransport G6P, already present in the C₃-type chloroplasts. (Received March 17, 1997; Accepted May 10, 1997)     

Effects of ABA on Synthesis of Cell-Wall Polysaccharides in Segments of Etiolated Squash Hypocotyl I. Changes in Incorporation of Glucose and myo-Inositol into Cell-Wall Components

Externally supplied [³H]myo-inositol and [¹⁴C]glucose were incorporatedin cell-wall fractions of segments of etiolated squash hypocotyl.The extent of incorporation of [¹⁴C]glucose into cell-wall fractionswas very much greater than that of [³H]myo-inositol. Radioactivityfrom [¹⁴C]-glucose was effectively incorporated into hemicelluloseB and cellulose fractions and was incorporated uniformly intohexose, pentose and uronic acid residues, but radioactivityfrom [³H]myo-inositol was incorporated predominantly into uronicacid and pentose residues in the pectin and hemicellulose Bfractions. Exogenously applied ABA significantly suppressed the elongationof segments of squash hypocotyl and the incorporation of radioactivityfrom [^l4C]glucose and [³H]myo-inositol into the segments. Furthermore,ABA significantly inhibited the distribution of incorporatedradioactivity from [¹⁴C]glucose into the cellulose fraction,but did not affect distribution into the pectic fraction. Bycontrast, ABA only slightly inhibited the distribution of theincorporated radioactivity from [³H]myo-inositol into the pecticfraction. These results suggest that most of the cell-wall polysaccharidesin segments of squash hypocotyl are synthesized via the UDP-sugarpathway, and that ABA significantly inhibits the synthesis ofcellulose but not the synthesis of pectic polysaccharides whenABA suppresses the elongation of the segments. (Received March 25, 1988; Accepted November 15, 1988)     

The Specificity of the Carrier-Mediated Uptake of ABA by Root Segments of Phaseolus coccineus L.

Earlier work has established that the saturable component ofuptake of RS-[2¹⁴C]ABA by bean (Phaseolus coccineus L. cv. Prizewinner)root segments can be attributed to the action of a carrier.We now show that the carrier-mediated uptake is unaffected byRS-2-trans-ABA and lunularic acid and the unnatural R-ABA alsoappears to be ineffective. The specificity for S-ABA requiresthe halving of the K_m value for ABA determined previously (2.6mmol m_-3 for RS-; 1.3 mmol m_-3 for S-ABA). The RS-1', 4'-cis-dioland RS-1'-deoxy ABA reduce the uptake of RS-[2-₁₄C]ABA aboutas strongly as does unlabelled ABA, the K¹ for 1'-deoxy ABAwas similar to the K_m for ABA. The K₁ for RS-1', 4'-trans-diolwas 15.7 mmol m_-3. Consideration of the stereochemistry of thesecompounds suggests that the face of the ring of ABA away fromthe 1'-hydroxyl group interacts with the carrier site. Labelled material diffused out of undamaged root surfaces whichhad absorbed RS-[³H]ABA through an apical cut, suggesting thatABA is present in the apoplast. A simplified hypothesis is presented that can account for polartransport of ABA based on a gradient of a carrier in a tissuebut where the carrier is distributed uniformly on the apicaland basal ends of each cell. Key words: Uptake carrier, Abscisic acid, 1', 4'-Diol, Lunularic acid, Phaseolus coccineus, Polar-transport, Deoxyabscisic acid     

Tritium labelling of amino sugars at C-2 by alkaline epimerization in tritiated water

N-Acetyl-D-[2-³H]glucosamine was synthesized from N-acetyl-D-mannosamineby alkaline 2-epimerization in pyridine containing ³H₂O andnickelous acetate. The reaction involves reversible formationof an enol intermediate and therefore also resulted in incorporationof tritium into N-acetylmannosamine. After completed reaction,the two N-acetylhexosamines were separated from other radioactiveproducts and Morgan-Elson chromogens by chromatography on acolumn of Sephadex G-10, which was eluted with 10% ethanol,and were then separated from each other by chromatography onSephadex G-15 in 0·27 M sodium borate (pH 7·8).The location of the incorporated tritium was established bytreatment of the N-acetylhexosamines with borate under the conditionsof the Morgan-Elson reaction, which converts the sugars to Kuhn'schromogen I with concomitant loss of the C-2 hydrogen. As expected,this treatment resulted in the formation of ³H₂O, indicatingthat the tritium was located at C-2. [2-³H]Glucosamine was preparedby acid hydrolysis of the labelled N-acetylglucosamine and wasconverted to [2-³H]glucosamine 6-phosphate by incubation withhexokinase and ATP. The sugar phosphate was used as a substratefor glucosamine 6-phosphate deaminase (isomerase, EC 5.3.1.10 [EC] )in a simple ³H₂O release assay. N-acetyl[2-³H]glucosamine N-acetyl[2-³H]mannosamine [2-³H]glucosamine glucosamine 6-phosphate deaminase [2-³H]mannosamine     

The Effect of Growth in D2O on the Metabolism of Winter Rye

The metabolism of winter rye seedlings (Secale cereale, L. ev.Winter) cultured in 99.8 per cent D₂O was investigated. Comparedwith water-grown seedlings, the protein content was much lowerin the D₂O-cultured seedlings and the pattern of incorporationof [³H]leucine and [³H]phenylalanine into protein was substantiallydifferent. Seedlings cultured in D₂O incorporated [³H]thymidineinto DNA, but did not take up [³H]uridine. The results suggestthat some of the toxic effects of D₂O culture on higher plantscan be attributed to a partial block of protein synthesis.     

Energy-linked Adenosine Diphosphate Accumulation by Corn Mitochondria: I. General Characteristics and Effect of Inhibitors

Corn mitochondria show respiration-linked net accumulation of [³H]ADP in the presence of phosphate and magnesium, especially if the formation of ATP is blocked with oligomycin. Inhibition of ADP-ATP exchange by carboxyatractyloside also activates ADP accumulation, and addition of carboxyatractyloside or palmitoyl-coenzyme A to oligomycin-blocked mitochondria produces additional ADP uptake. With carboxyatractyloside the accumulated ADP is phosphorylated to ATP. With oligomycin, only a little ATP is formed. Millimolar concentrations of ADP are required for maximum uptake, and the K_m (3.77 millimolar) for ADP translocation is independent of whether oligomycin or carboxyatractyloside is used. This is not true for ADP concentrations in the 0.05 to 0.25 millimolar range. Accumulated [³H]ADP rapidly exchanges with unlabeled AMP, ADP, or ATP, but not with other diphosphate nucleotides or 2 millimolar substrate anions. [³H]AMP is not accumulated, but [³H]ATP is accumulated to about one-half the extent of [³H]ADP. Tricarboxylate substrates inhibit ADP net uptake, and inhibition by citrate is competitive with K_i = 10 millimolar. The evidence suggests the presence of a pathway, carboxyatractyloside-insensitive and different from the translocase, which operates to maintain adenine nucleotides in the matrix.     

Synthesis of Polysaccharides in Phragmoplasts Isolated from Tobacco BY-2 Cells

Autoradiographic experiments using preparations of isolatedphragmoplast obtained from tobacco cultured cells revealed thatthe radioactivity incorporated into insoluble material fromUDP-[³H]glucose was exclusively present at the cell plate ofisolated phragmoplasts. Most of the radioactivity incorporatedinto isolated phragmoplasts from UDP-[¹⁴C]glucose was solubilizedby 1,3-ß-glucanase and the solubilized radioactivitywas associated only with glucose, indicating that most of theradioactivity was incorporated into 1,3-ß-glucan.In the presence of high concentrations of unlabeled UDP-glucose,isolated phragmoplasts incorporated radioactivity from UDP-[³H]xylose.Most of the radioactivity incorporated into insoluble materialwas present at several sites distributed around the nuclei,while only little was found at the cell plate. (Received October 2, 1991; Accepted February 24, 1992)     

O-Linked fucose in glycoproteins from Chinese hamster ovary cells

We report our discovery that many glycoproteins synthesizedby Chinese hamster ovary (CHO) cells contain fucose in O-glycosidiclinkage to polypeptide. To enrich for the possible presenceof O-linked fucose, we studied the lectin-resistant mutant ofCHO cells known as Lec1. Lec1 cells lack N-acetylglucosaminyltransferaseI and are therefore unable to synthesize complex-type N-linkedoligosaccharides. Lec1 cells were metabolically radiolabelledwith [6-³H]fucose and total glycoproteins were isolated. Glycopeptideswere prepared by proteolysis and fractionated by chromatographyon a column of concanavalin A (Con A)— Sepharose. Thesets of fractionated glycopeptides were treated with mild base/borohydrideto effect the ß-elimination reaction and release potentialO-linked fucosyl residues. The ß-elimination produced[³H]fucitol quantitatively from [³H]fucose-labelled glycopeptidesnot bound by Con A-Sepharose, whereas none was generated bytreatment of glycopeptides bound by the lectin. The total [³H]fucose-labelledglycoproteins from Lec1 cells were separated by SDS—PAGEand detected by fluorography. Treatment of selected bands ofdetectable glycoproteins with mild base/borohydride quantitativelygenerated [³H]fucitol. Pretreatment of the glycoproteins withN-glycanase prior to the SDS—PAGE method of analysis causedan enrichment in the percentage of radioactivity recovered as[³H]fucitol. Trypsin treatment of [³H]fucose-labelled intactCHO cells released glycopeptides that contained O-linked fucose,indicating that it is present in surface glycoproteins. Thesefindings demonstrate that many glycoproteins from CHO cellscontain O-linked fucosyl residues and raise new questions aboutits biosynthesis and possible function. fucose glycoproteins monosaccharide O-linked     

Structure and Function of Transfer Cells in the Sporophyte Haustorium of Funaria hygrometrica Hedw: II. KINETICS OF UPTAKE OF LABELLED SUGARS AND LOCALIZATION OF ABSORBED PRODUCTS BY FREEZE-SUBSTITUTION AND AUTORADIOGRAPHY

Excised sporophytes of the moss Funaria hygrometrica Hedw. absorbexternally applied sugar through their basal haustorium. Influxof [³H]sucrose is inhibited by metabolic uncouplers, darkness,and by the photosynthetic inhibitor DCMU. The kinetics of uptakeof glucose and sucrose suggest a biphasic mechanism of absorption.Uptake of 3-O-methyl [³H]glucose shows no saturation characteristicsand a passive mechanism is indicated. Externally applied glucoseis rapidly converted to sucrose. Good retention of productsof short-term absorption and metabolism of [³H]glucose was achievedby freeze-substitution. Autoradiography showed dense and uniformlabelling of the transfer cells of the haustorium. V_max valuesfor uptake of sucrose and glucose, expressed in terms of theweight and external surface area of haustorium, are considerablygreater than typical values from other plant systems. However,if the surface area amplification that is brought about by thedevelopment of wall ingrowths in the transfer cells is takeninto account, fluxes per unit area of plasma membrane are reducedinto the range of typical values. The hypothesis that the surfacearea amplification that characterizes transfer cells is relatedfunctionally to processes of solute transport is therefore supportedby the data.     

Adenine nucleotide transport in sonic submitochondrial particles. Kinetic properties and binding of specific inhibitors.

1. A procedure for preparation of sonic submitochondrial particles competent for adenine nucleotide transport is described. ADP or ATP transport was assayed, in the presence of oligomycin, in a saline medium made of 0.125 M KCl, 1 mM EDTA, 10 mM 4-morpholinopropane sulfonic acid buffer, pH 6.5. 2. Sonic particles transport ADP and ATP by an exchange diffusion process. Externally added ADP (or ATP) is exchanged with internal ADP and ATP with a stoichiometry of one to one. The V value for ADP transport 5 degrees C was between 2 and 3 nmol/min per mg protein. 3. The transport system in sonic particles is specific for ADP and ATP. It is strongly dependent on temperature. The activation energy between 0 and 9 degrees C is approx. 35 kcal/mol. The optimum pH is 6.5, 4, Like in intact mitochondria, externally added ADP is transported into sonic particles faster at a given concentration than externally added ATP. The V value for ADP transport is 1.5-2 times higher than the V value for ATP transport. 5. The transition from the energized to the deenergized state in sonic particles results in a decrease of the pH gradient across the membrane (internal pH less than external pH) and in a 2-4 fold increase in the Km value for ATP. This latter effect is opposite that found for transport of added ATP in intact mitochondria (Souverijn, J.H.M., Huisman, L.A., Rosing J. and Kemp, Jr., A. (1973) Biochim. Biophys. Acta 305, 185-198). Energization has no effect on the V value of ATP transport in sonic particles. 6. In contrast to intact mitochondria, inhibition of ADP transport in sonic particles by bongkrekic acid does not have any lag-time and does not depend on pH. The inhibition caused by bongkrekic acid is a mixed type inhibition with a Ki value of 1.2 micronM. Atractyloside and carboxyatractyloside do not inhibit ADP transport in sonic particles, unless the particles have been preloaded with these inhibitors during the sonication. 7. Palmityl-CoA added to sonic particles inhibits efficiently ADP transport. The mixed type inhibition found with palmityl-CoA has a Ki value of 1.6 micronM. 8. [3H]Bongkrekic acid binds to sonic particles readily and with high affinity. Bongkrekic acic binding to sonic particles does not depend on pH and it has a saturation plateau, corresponding approximately to 1.3 mol of site per mol of cytochrome a. The number of [3H]atracytloside binding sites is much lower (one-fifth of the bongkrekic acid). External carboxyatractyloside does not compete with [3H]bongkrekic acid for binding to sonic particles. However, when carboxyatractyloside is present inside the particles, it inhibits the binding of [3H]bongkrekic acid.     

REABSORPTION OF ORGANIC SOLUTES IN SOME MARINE AND FRESHWATER PROSOBRANCH GASTROPODS

Influx in vitro of glucose to the heart, kidney and ureter,where present, in Monodonta, Pomacea, and Viviparus, and alsoof leucine to these tissues in Viviparus, was measured using[³H]-labelledtracers. Phloridizin-sensitive, Na⁺-dependent [³H]D-glucose uptake wasevident in the papillary sac of Monodonta, the ventricle ofViviparus, and the kidney of Pomacea. Viviparus ventricle alsoshowed Na⁺-dependent uptake of [³H]L-leucine. Nevertheless Viviparusappears to excrete some amino acids (by undefined routes) andmay therefore lack the carriers for their resorption. In Viviparusand Pomacea the site of organic solute resorption (taken tobe where Na⁺-dependent tracer uptake predominates) is proximalto the sites of Na⁺resorption. The ultrastructure of the resorptivesites has been examined in the three genera and compared withthat of the nephridial gland and dorsal wall of the kidney ofLittorina. The ciliated cells comprising the epithelium of thepapillary sac in Monodonta and their homologues over the nephridialgland and dorsal wall of Littorina and dorsal wall of Pomaceashow common features typical of transporting epithelia in othermolluscs. The ventricular epicardium of Viviparus shows secondaryspecializations for resorption but lacks an endocytotic canalsystem. The site of organic solute resorption (the most highlyspecialized part of which is the nephridial gland in marinespecies), has been correlated with the anatomy of the renalveins in the four genera, and with other specializations inthe freshwater genera.The difficulty of quantifying rates oftransport of solutes from studies in vitro is discussed. ^*Present address: Dept. of Physiology, The University, DundeeDD1 4HN (Received 31 January 1989; accepted 24 March 1989)     

Uptake and metabolism of biotin by human peripheral blood mononuclear cells

We studied the uptake of biotin into human peripheral bloodmononuclear cells (PBMC) using[³H]biotin and studiedthe catabolism of biotin in PBMC using[¹⁴C]biotin. Over 30 min, [³H]biotin uptakewas greater at 37°C than at 25°C(K_T = 2.6 ± 0.4 nM, maximal velocity = 2.9 ± 0.2 fmol · 10⁶cells¹ · 30 min¹). Ouabain reduced[³H]biotin uptake to65% of control values, suggesting that biotin uptake is Na-K-ATPasedependent. Unlabeled biotin and biotin analogs reduced the uptake of[³H]biotin to22-70% of control values, suggesting the presence of acompetition for a structurally specific biotin transporter. Whenendocytosis by PBMC was stimulated by various acyl glycerols, [³H]biotin uptake was40-73% of control values; these data are consistent with thehypothesis that stimulated endocytosis reduces biotin transporterdensity on the cell surface. During a 168-h incubation, PBMC did notcatabolize[¹⁴C]biotin.

     

Volume-dependent taurine release from cultured astrocytes requires permissive [Ca2+]i and calmodulin

Cell swelling results in regulatory activation of multipleconductive anion pathways permeable toward a broad spectrum of intracellular organic osmolytes. Here, we explore the involvement ofextracellular and intracellularCa²⁺ in volume-dependent[³H]taurine effluxfrom primary cultured astrocytes and compare theCa²⁺ sensitivity of this efflux inslow (high K⁺ medium induced) andfast (hyposmotic medium induced) cell swelling. NeitherCa²⁺-free medium norCa²⁺-channel blockers prevented thevolume-dependent[³H]taurine release.In contrast, loading cells with the membrane-permeable Ca²⁺ chelator1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA)-AM suppressed[³H]taurine efflux by65-70% and 25-30% underhigh-K⁺ and hyposmotic conditions,respectively. Fura 2 measurements confirmed that BAPTA-AM, but notCa²⁺-free media, significantlyreduced resting intracellular Ca²⁺concentration([Ca²⁺]_i).The calmodulin antagonists trifluoperazine and fluphenazine reversiblyand irreversibly, respectively, inhibited thehigh-K⁺-induced[³H]taurine release,consistent with their known actions on calmodulin. In hyposmoticconditions, the effects were less pronounced. These data suggest thatvolume-dependent taurine release requires minimal basal[Ca²⁺]_iand involves calmodulin-dependent step(s). Quantitative differences inCa²⁺/calmodulin sensitivity ofhigh-K⁺-induced and hyposmoticmedium-induced taurine efflux are due to both the effects of theinhibitors on high-K⁺-induced cellswelling and their effects on transport systems and/or signalingmechanisms determining taurine efflux.

     

Specific Labeling of Cell Wall Polysaccharides with myo-[2-3H] Inositol during Germination and Growth of Phaseolus vulgaris L.

myo-[2-³H]Inositol was fed to bean seeds by imbibition and itsmetabolic fate was studied during germination and seedling growth.The largest amount of myo-inositol was taken up from a 500 HIMsupply (8 mg/seed) and the highest percentage was from 1 HIM(29%). myo-Inositol was incorporated to new cell wall polysaccharidesof hypocotyl and roots, mostly as uronic acid and pentose residues.In the 80% ethanolinsoluble cell walls of hypocotyls at 3, 4and 5 days after imbibition, 47 to 52% of ³H was detected asuronic acids, 20 to 24% as arabinose and 11 to 19% as xylose.Glucogenesis from myo-inositol was low: less than 6% was recoveredas hexoses. The ³H in uronic acid and arabinose residues decreasedwith increasing age (i.e. 0 to 6 cm from cotyledons) and increasedin older segments (further than 6 cm from cotyledons). In theoldest segment of 5-day-old hypocotyl (> 10 cm), ³H in thesugar residues was more than that in the youngest part (0–2cm). On the other hand, ³H in xylose residues increased steadilyin the older part, but did not exceed that in arabinose. The results show that the myo-inositol oxidation pathway functionsin growing hypocotyls and roots of bean seedlings to provideexclusively uronic acid and pentose units for cell wall synthesis.Results also show that incorporation of arabinose and uronicacids derived from myo-[2-³H]inositol to cell wall polysaccharidesis active in two regions of the hypocotyl; first, for the constructionof the primary walls in the young, growing region of the hypocotyl,and second, for thickening of the walls after completion ofelongation growth. ¹Supported by NSERC of Canada. (Received April 10, 1984; Accepted June 12, 1984)