Effect of Disulfide Bonds of Transcobalamin II Receptor on Its Activity and Basolateral Targeting in Human Intestinal Epithelial Caco-2 Cells

Bose, Santanu; Seetharam, Bellur

doi:10.1074/jbc.272.33.20920

Cited by 20 publications

(9 citation statements)

References 47 publications

(40 reference statements)

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“…13 They identified a 72 kDa/144 kDa monomer/dimer as the receptor protein 14 and followed with a number of publications describing the complex physiochemical properties of this receptor. [19][20][21][22][23][24][25] The lack of progress in identifying the gene encoding the receptor for nearly 10 years after their first report claiming purification of substantial quantities of the receptor protein motivated us to reevaluate our original data and attempt to purify the protein. Extensive modifications to the solubilization, affinity chromatography, and elution procedures finally yielded a pure functional protein for amino acid sequence analysis and the gene encoding this sequence was identified.…”

Section: Discussionmentioning

confidence: 99%

“…Since their first report, numerous publications by this group have described the structural and functional characterization of a putative receptor from human placenta. [19][20][21][22][23][24][25] However, they did not establish the functional specificity of their receptor for TC-Cbl and have not identified the primary structure and the gene encoding the receptor. This report describes the purification and definitive identification of the primary structure and the gene encoding a receptor for the cellular uptake of TC-Cbl.…”

Section: Introductionmentioning

confidence: 99%

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The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

Quadros

Nakayama²,

Sequeira³

2009

Blood

147

138

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The transcobalamin (TC, TCII) receptor (TCblR) on the plasma membrane binds TC-cobalamin (Cbl) and internalizes the complex by endocytosis. This receptor was purified from human placental membranes by affinity chromatography. Tryptic digest of the protein extracted from a sodium dodecyl sulfate-polyacrylamide gel electrophoresis gel and subjected to liquid chromatography/mass spectrometry identified 4 peptides that matched with a membrane protein in the data bank. IntroductionCellular uptake of cobalamin (Cbl, vitamin B 12 ) in mammalian cells is mediated by receptors expressed on the cell surface. 1 Transcobalamin (TC, TCII), a plasma protein secreted by the endothelial cells, binds the Cbl absorbed in the distal ileum and carries between 10% and 30% of the total circulating Cbl. 2,3 TC saturated with Cbl specifically binds to the receptor (TCblR) and is internalized by endocytosis. The TC is degraded in the lysosome, and the free Cbl released is converted into Cbl cofactors. 4,5 Methylcobalamin is a cofactor for the cytosolic enzyme methionine synthase in the conversion of homocysteine to methionine using N 5 -methyltetrahydrofolate 6 ; therefore, homocysteine is elevated in both Cbl and folate deficiency. 7 The mitochondrial enzyme methylmalonyl CoA mutase converts methylmalonyl CoA to succinyl CoA and requires 5Јdeoxyadenosylcobalamin as a cofactor. The elevated methylmalonic acid in Cbl deficiency is a direct consequence of a block in this pathway. 8 The definitive purification of TC 9 followed by the identification of vascular endothelium as the source of TC in blood 10 ultimately led to the cloning of the cDNA and the gene encoding this protein. 11,12 Attempts to purify the receptor have yielded ambiguous results 13,14 ; however, the functional properties of TCblR have been well characterized in cell culture models. 15,16 We have previously described the functional and structural properties of TCblR based on binding of TC-Cbl to TCblR from human placenta and by crosslinking studies. 17,18 Our data on the properties and structure of this receptor differ from 2 other reports describing the purification of this protein. 13,14 The report by Bose et al 14 described a receptor with different structural constituents. Since their first report, numerous publications by this group have described the structural and functional characterization of a putative receptor from human placenta. [19][20][21][22][23][24][25] However, they did not establish the functional specificity of their receptor for TC-Cbl and have not identified the primary structure and the gene encoding the receptor. This report describes the purification and definitive identification of the primary structure and the gene encoding a receptor for the cellular uptake of TC-Cbl. This unique receptor has the specificity and affinity required for the cellular uptake of holo TC and differs from the 72/144 kDa monomer/dimer protein reported to be the receptor for TC-Cbl. 14 MethodsActigel ALD agarose (Sterogene Bioseparations, Carlsbad, CA), Ultralink matri...

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

Quadros

Nakayama²,

Sequeira³

2009

Blood

147

138

View full text Add to dashboard Cite

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“…Cell Surface Biotinylation-Biotinylation of BLM of Caco-2 cells recovering from the effects of BFA was carried out by adding disuccinimidyl suberate sulfosuccinimido biotin (0.5 mg/ml) to the basolateral compartments of filter-grown monolayers (12-day growth) and was performed a total of three times for 30 min each essentially as described recently (6,18).…”

Section: S-tc Ii-r With Glycosidases-postconfluentmentioning

confidence: 99%

“…Pulse-Chase Labeling of Caco-2 Cells-Postconfluent cells untreated and treated with BFA (5 g/ml) for 12 h were first incubated with methionine-free DMEM for 30 min and then pulsed for 1 h with S-labeled TC II-R isolated at each time interval by immunoprecipitation was further processed for nonreducing SDS-PAGE as described before (18).…”

Section: S-tc Ii-r With Glycosidases-postconfluentmentioning

confidence: 99%

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Brefeldin A (BFA) Inhibits Basolateral Membrane (BLM) Delivery and Dimerization of Transcobalamin II Receptor in Human Intestinal Epithelial Caco-2 Cells

Bose¹,

Chapin²,

Seetharam³

et al. 1998

Journal of Biological Chemistry

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Brefeldin A (BFA) treatment of Caco-2 cells (5 g/ml for 12 h) reduced by 90% the cholesterol, but not the phospholipid (PL), levels of the basolateral membrane (BLM), thus altering its PL/cholesterol molar ratio from 2.6 to 22.0, and decreasing its steady state fluorescent anisotropy (r s ) from 0.27 to 0.15. BFA treatment for 12 h also resulted in complete loss of transcobalamin II receptor (TC II-R) activity/protein levels in the BLM and the disappearance of trans-Golgi network (TGN) morphology as revealed by confocal immunofluorescence microscopy using antibody to TGN 38. However, BFA treatment had no effect on either total cellular cholesterol, TC II-R activity, or PL levels. When cells treated with BFA for 12 h were exposed to BFA-free medium for 0 -24 h, all of the effects were reversed, including reappearance of normal TGN morphology. TC II-R delivered to the BLM during this period was progressively sialylated and changed its physical state from a monomer (8 h) to a dimer (12 h), coinciding with increased delivery (11-53 pmol) of cholesterol to the BLM and an increase in the BLM r s from 0.15 to 0.21. These results indicate that cholesterol, but not PL, delivery to the BLM of Caco-2 cells is BFA-sensitive, and cholesterol, by influencing the higher order of the BLM, is essential for TC II-R dimerization.Circulatory cobalamin (Cbl 1 ; vitamin B 12 ) bound to plasma transporter, transcobalamin II (TC II), is taken up by all tissues/cells by receptor-mediated endocytosis via plasma membrane (PM) transcobalamin II receptor (TC II-R) (1). TC II/TC II-R-mediated delivery of Cbl is the only physiological uptake system that provides Cbl to all cells to be utilized as Cbl coenzyme. TC II-R, a glycoprotein with a molecular mass of 62 kDa (2) is expressed in all tissue PMs as a noncovalent functional homodimer with a molecular mass of 124 kDa (2). TC II-R homodimers are resistant to treatment with sodium dodecylsulfate (2, 3) and, thus, can be separated on SDS-PAGE and detected by immunoblotting (3). Studies using this technique (4) have revealed that at steady state, TC II-R dimer levels are 8 -10-fold higher than that of the monomer in all total tissue membranes tested and that TC II-R dimers are present in the PM and in some PM-derived vesicles, while TC II-R monomers are the only species present in the microsomes (4).Earlier in vitro studies (3) using isolated tissue PMs and microsomes have revealed that TC II-R dimerization is supported in the plasma but not in the microsomal membranes due to their higher cholesterol content. Additional studies using symmetrical phosphatidylcholine (PC) vesicles have shown that a minimum of 10 mol % of cholesterol is essential to support TC II-R dimerization above the transition temperatures of these PC vesicles (3). Although the importance of membrane cholesterol levels and cholesterol-phospholipid interactions in the dimerization of TC II-R in tissue-derived PMs and in PC vesicles is established (3), it is not known how the dimerization of TC II-R is regulated at a cellular l...

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Orale Verabreichung von Protein‐ und Peptidwirkstoffen entlang der Vitamin‐B₁₂‐Route

2009

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Mehrere Faktoren machen die orale Verabreichung von Peptiden und Proteinen zu einem Hauptziel der Wirkstoffaufnahme.[1] Um die Herausforderungen zu meistern, die sich aus dem Transport, der Permeabilität, der gastrointestinalen Stabilität und der Größe von Proteinmolekülen ergeben, wurden unterschiedliche Wege untersucht. Im Rahmen dieses Kurzaufsatzes konzentrieren wir uns auf das Aufnahmesystem von Vitamin B 12 (Cobalamin), das in den letzten 10 Jahre verstärkt beachtet wurde. Vitamin B 12 (kurz: B 12

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Effect of Disulfide Bonds of Transcobalamin II Receptor on Its Activity and Basolateral Targeting in Human Intestinal Epithelial Caco-2 Cells

Cited by 20 publications

References 47 publications

The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

Brefeldin A (BFA) Inhibits Basolateral Membrane (BLM) Delivery and Dimerization of Transcobalamin II Receptor in Human Intestinal Epithelial Caco-2 Cells

Orale Verabreichung von Protein‐ und Peptidwirkstoffen entlang der Vitamin‐B₁₂‐Route

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Effect of Disulfide Bonds of Transcobalamin II Receptor on Its Activity and Basolateral Targeting in Human Intestinal Epithelial Caco-2 Cells

Cited by 20 publications

References 47 publications

The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

The protein and the gene encoding the receptor for the cellular uptake of transcobalamin-bound cobalamin

Brefeldin A (BFA) Inhibits Basolateral Membrane (BLM) Delivery and Dimerization of Transcobalamin II Receptor in Human Intestinal Epithelial Caco-2 Cells

Orale Verabreichung von Protein‐ und Peptidwirkstoffen entlang der Vitamin‐B12‐Route

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Orale Verabreichung von Protein‐ und Peptidwirkstoffen entlang der Vitamin‐B₁₂‐Route