Maltosyl isothiocyanate: an affinity label for the glucose transporter of the human erythrocyte membrane. 2. Identification of the transporter

Mullins, Richard E.; Langdon, Robert

doi:10.1021/bi00547a026

Cited by 58 publications

(17 citation statements)

References 55 publications

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“…Chemicals and radiochemicals used were from the following sources: Na35SO4 (25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38)(39)(40) (10.7 Ci/nmol) from New England Nuclear. Stractan (arabino galactan) from Sigma.…”

Section: Methodsmentioning

confidence: 99%

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The influence of lipid composition on the barrier properties of band 3-containing lipid vesicles

Hoogevest

Maine

Kruijff

et al. 1984

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Band 3 protein has been incorporated into lipid vesicles consisting of 94:6 (molar ratio) egg phosphatidylcholine-bovine heart phosphatidylserine or total erythrocyte lipids by means of a Triton X-100 Bio-Beads method, with an additional sonication step prior to the removal of the detergent. This method results, for both types of band 3 lipid vesicles, in rather homogeneous vesicles with comparable protein content and vesicle trap. Freeze-fracture electron microscopy revealed that band 3-egg phosphatidylcholine-bovine heart phosphatidylserine vesicles have considerably more intramembrane particles as compared to the band 3-erythrocyte lipid vesicles. The dimensions of the nonspecific permeation pathways present in the band 3-lipid vesicles were measured using an influx assay procedure for nonelectrolytes of different size, in which the vesicles were sampled and subsequently freed from nonenclosed labeled permeant by means of gel-filtration. The band 3-egg phosphatidylcholine-bovine heart phosphatidylserine vesicles have nonspecific permeation pathways (pores), with diameters of up to 60 ~,. In contrast, the band 3-total erythrocyte lipid vesicles are more homogeneous and show much smaller nonspecific permeation pathways, having a diameter of about 12 ji,. These results suggest that the nonspecific permeability of the band 3-lipid vesicles is strongly lipid-dependent. Increase in specific anion permeability expected as a consequence of the presence of band 3 in the erythrocyte lipid vesicles was found to be very limited. However, stereospecific, phioretin-inhibitable D-glucose permeability could clearly be demonstrated in these vesicles. The difference of the nonspecific permeability of the band 3-egg phosphatidylcholine-bovine heart phosphatidylserine vesicles and band 3-erythrocyte lipid vesicles, is discussed in the light of the presence of defects at the lipid/protein interface and protein aggregation, which may induce formation of pores.

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Section: Methodsmentioning

confidence: 99%

“…The other native transport function of band 3 [27,37,38] or band 4.5 [39][40][41], which are both present in the vesicles, is D-glucose transport. To check whether this transport function in the recombinant vesicles is intact, two approaches have been followed.…”

Section: Specific Permeability Properties Of Erythrocyte Lipidband 3 mentioning

confidence: 99%

The influence of lipid composition on the barrier properties of band 3-containing lipid vesicles

Hoogevest

Maine

Kruijff

et al. 1984

Biochimica et Biophysica Acta (BBA) - Biomembranes

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“…Similarly modified carbohydrates have been used previously to study sugar‐recognizing enzymes, e.g. epoxypropyl derivatives of N ‐acetyl‐ d ‐glucosamine to label lysozyme [16], maltosyl isothiocyanate to label the human erythrocyte Glc transporter [17], and N ‐bromoacetylglucosamine to label hexokinase [18]. The glucose analogues have been characterized as pseudosubstrates and as reversible and irreversible inhibitors of EII Glc and EII Man .…”

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confidence: 99%

The glucose‐specific carrier of the Escherichia coli phosphotransferase system

Garcia-Alles

Navdaeva

Haenni

et al. 2002

European Journal of Biochemistry

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Thirteen glucose analogues bearing electrophilic groups were synthesized (five of them for the first time) and screened as inhibitors of the glucose transporter (EII Glc ) of the Escherichia coli phosphoenolpyruvate-sugar phosphotransferase system (PTS). 2¢,3¢-Epoxypropyl b-D-glucopyranoside (3a) is an inhibitor and also a pseudosubstrate. Five analogues are inhibitors of nonvectorial Glc phosphorylation by EII Glc but not pseudosubstrates. They are selective for EII Glc as demonstrated by comparison with EII Man, another Glc-specific but structurally different transporter. 3a is the only analogue that inhibits EII Glc by binding to the highaffinity cytoplasmic binding site and also strongly inhibits sugar uptake mediated by this transporter. The most potent inhibitor in vitro, methyl 6,7-anhydro-D,L-glycero-a-Dgluco-heptopyranoside (1d), preferentially interacts with the low-affinity cytoplasmic site but only weakly inhibits Glc uptake. Binding and/or phosphorylation from the cytoplasmic side of EII Glc is more permissive than sugar binding and/or translocation of substrates via the periplasmic site. EII Glc is rapidly inactivated by the 6-O-bromoacetyl esters of methyl a-D-glucopyranoside (1a) and methyl a-D-manno- ) of diverse specificity and structure are components of the bacterial phosphoenolpyruvate-sugar phosphotransferase system (PTS) [4]. The PTS in addition comprises a number of proteins that act as allosteric regulators of enzymes and/ or transcription factors.The PTS transporters are homodimers, as indicated by cross-linking, ultracentrifugation, gel filtration, interallelic complementation and cryo-electron crystallography [5][6][7][8][9]. One protomer comprises three (or four) functional units, IIA, IIB and IIC(IID), which occur either as protein subunits or as domains in polypeptide chains. IIA and IIB sequentially transfer phosphoryl groups from HPr to the transported sugars. IIC contains the major determinants for sugar recognition and translocation, as inferred from binding studies [10] and the substrate selectivity of a chimeric EII GlcNAc/Glc [11]. EI, HPr and IIA are phosphorylated at His, whereas IIB domains are phosphorylated at Cys421 in EII Glc and at His175 in EII Man. EII Glc is specific for Glc, but EII Man has a broader substrate specificity for Glc, Man, and other derivatives of Glc altered at the C-2 carbon. Both transporters phosphorylate their hexose substrates at OH-6. In spite of their overlapping substrate specificity and analogous mechanism of action, EII Glc and EII Man do not share amino-acid sequence similarity, and, as judged by the known X-ray structures of their cytoplasmic domains, also assume completely different folds (for a review see [12]). The topology of the membrane-spanning units IIC Glc and IIC Man -IID Man are also different, as judged by the characterization of protein fusions between C-terminally truncated IIC(D) domains with alkaline phosphatase and b-galactosidase [13,14]. Whereas the sites of EII phosphorylation are known and easily recognized from the ...

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“…This is supported by the results of labelhng with maltosylisothiocyanate, an irreversible inhibitor of the glucose-transport protein [6,7]. Possibly the 4.5component [l-3] is a degradation product of the band 3-polypeptide [5,7,8]. However, antibodies against the purified transport component have been reported to react only with polypeptides in the 4.5-region, even when membranes were prepared from fresh blood [9] and in the presence of protease inhibitors [lo].…”

Section: Introductionmentioning

confidence: 59%

“…Some evidence indicates that the polypeptides of the native transporter migrate as band 3-polypeptides in SDS electrophoresis, with& -90 000, like the anion transporter of human erythrocyte membranes. This is supported by the results of labelhng with maltosylisothiocyanate, an irreversible inhibitor of the glucose-transport protein [6,7]. Possibly the 4.5component [l-3] is a degradation product of the band 3-polypeptide [5,7,8].…”

Section: Introductionmentioning

confidence: 83%

Partial purification of the D‐glucose transport protein from human erythrocyte membranes by affinity chromatography on wheat germ lectin‐sepharose

1981

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Maltosyl isothiocyanate: an affinity label for the glucose transporter of the human erythrocyte membrane. 2. Identification of the transporter

Cited by 58 publications

References 55 publications

The influence of lipid composition on the barrier properties of band 3-containing lipid vesicles

The influence of lipid composition on the barrier properties of band 3-containing lipid vesicles

The glucose‐specific carrier of the Escherichia coli phosphotransferase system

Partial purification of the D‐glucose transport protein from human erythrocyte membranes by affinity chromatography on wheat germ lectin‐sepharose

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