Synthesis of Cobalamin−Biotin Conjugates That Vary in the Position of Cobalamin Coupling. Evaluation of Cobalamin Derivative Binding to Transcobalamin II

Cobalamin (Cbl, vitamin B12) serves for two essential cofactors in mammals. The pathway for its intestinal absorption, plasma transport, and cellular uptake uses cell surface receptors and three Cbl-transporting proteins, haptocorrin, intrinsic factor, and transcobalamin (TC). We present the structure determination of a member of the mammalian Cbl-transporter family. The crystal structures of recombinant human and bovine holo-TCs reveal a two-domain architecture, with an N-terminal ␣6-␣6 barrel and a smaller C-terminal domain. One Cbl molecule in base-on conformation is buried inside the domain interface. Structural data combined with previous binding assays indicate a domain motion in the first step of Cbl binding. In a second step, the weakly coordinated ligand H 2O at the upper axial side of added H2O-Cbl is displaced by a histidine residue of the ␣6-␣6 barrel. Analysis of amino acid conservation on TC's surface in orthologous proteins suggests the location of the TC-receptor-recognition site in an extended region on the ␣6-␣6 barrel. The TC structure allows for the mapping of sites of amino acid variation due to polymorphisms of the human TC gene. Structural information is used to predict the overall fold of haptocorrin and intrinsic factor and permits a rational approach to the design of new Cbl-based bioconjugates for diagnostic or therapeutic drug delivery.cobalamin ͉ crystal structure ͉ P259R polymorphism ͉ transport protein

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“…4). The upper axial ligand position of the Co ion was successfully used as well (14) despite the absence of the His coordination.…”

Section: Discussionmentioning

confidence: 99%

“…Cbl contains several functional groups that are suitable for the synthesis of bioconjugates (13,14). Because rapidly proliferating tissues take up proportionally greater amounts of Cbl, the tissue-specific delivery of both imaging agents and cytotoxic drugs via Cbl-based bioconjugates has been suggested and in part performed (15,16).…”

mentioning

confidence: 99%

Structural basis for mammalian vitamin B ₁₂ transport by transcobalamin

Wuerges

Garau²,

Geremia³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

166

216

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“…In the literature, cobalamin-biotin conjugates that vary in the position of cobalamin coupling have been described. Biotin derivatives at the b-side chain showed little interaction with TCII and were thought to be used for applications where decreased binding with transport proteins is desired (17). Thus, we synthesized and tested a set of cobalamin derivatized at the b-side chain with increasing chain length.…”

Section: Discussionmentioning

confidence: 99%

“…Because the radiation dose to the kidney is often the dose-limiting factor for application of radiopharmaceuticals, we set out to investigate the possibility of preventing high organ uptake by disrupting the binding of cobalamin to its transport protein TCII and, therefore, inhibit uptake mediated by the receptors TCII-R and megalin. By abolishing binding of cobalamin to TCII (17), a decreased nontargeted organ uptake can be expected. Furthermore by interfering with the binding of cobalamin with circulating TCII, radioactive cobalamin as a small molecule should clear much faster from the blood than the proteinbound cobalamin, resulting in lower systemic toxicity.…”

Section: Introductionmentioning

confidence: 99%

New Derivatives of Vitamin B12 Show Preferential Targeting of Tumors

Treichler²,

et al. 2008

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Rapidly growing cells show an increased demand for nutrients and vitamins. The objective of our work is to exploit the supply route of vitamin B12 to deliver new derivatives of this vital vitamin to hyperproliferative cells. To date, radiolabeled ( 57 Co and 111 In) vitamin B12 derivatives showed labeling of tumor tissue but also undesired high accumulation of radioactivity in normal tissue. By abolishing the interaction of a tailored vitamin B12 derivative to its transport protein transcobalamin II and therefore interrupting transcobalamin II receptor and megalin mediated uptake in normal tissue, preferential accumulation of a radiolabeled vitamin in cancer tissue could be accomplished. We identified transcobalamin I on tumors as a possible new receptor for this preferential accumulation of vitamin-mediated targeting. The low systemic distribution of radioactivity and the high tumor to blood ratio opens the possibility of a more successful clinical application of vitamin B12 for imaging or therapy.

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“…We are developing`growth blockers' aimed at antagonising the uptake of vitamin B 12 via the proliferation-associated B 12 / TCII receptor. We are using two approaches: one called receptor modulation (Pathare et al, 1996) aimed at interfering with the expression and intracellular routing of B 12 receptors (and thereby delivery of B 12 to intracellular methionine synthase). The second approach uses monoclonal antibodies to TCII McLean et al, 1996), the B 12 serum transport protein, to inhibit binding to the cell receptor and thereby producing a depletion of B 12 .…”

Section: Discussionmentioning

confidence: 99%

Induction of Apoptosis in neoplastic cells by depletion of vitamin B12

Smith

Carson

et al. 1997

Cell Death Differ

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Methionine synthase, a critical enzyme in deoxyribonucleotide biosynthesis for DNA replication, requires vitamin B 12 as a cofactor. We have tested the hypothesis that depletion of cells of vitamin B 12 would block growth of neoplastic cells and divert them into apoptosis and could form the basis of a new therapeutic strategy for cancer treatment. Using nitrous oxide to inactivate vitamin B 12 we show that, in a variety of cell lines in vitro, methionine synthase is rapidly inhibited, the cells cease proliferation and undergo apoptosis. The kinetics of cell death, once started, are similar to those observed following methotrexate treatment or serum withdrawal. This is the first observation of apoptosis being induced following depletion of an essential metabolite as opposed to the more conventional strategy of adding a toxic drug to damage cells thereby triggering apoptosis. Moreover, vitamin B 12 depletion has no effect on the nonproliferating cell population.

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Synthesis of Cobalamin−Biotin Conjugates That Vary in the Position of Cobalamin Coupling. Evaluation of Cobalamin Derivative Binding to Transcobalamin II

Cited by 73 publications

References 55 publications

Structural basis for mammalian vitamin B ₁₂ transport by transcobalamin

Structural basis for mammalian vitamin B ₁₂ transport by transcobalamin

New Derivatives of Vitamin B12 Show Preferential Targeting of Tumors

Induction of Apoptosis in neoplastic cells by depletion of vitamin B12

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Synthesis of Cobalamin−Biotin Conjugates That Vary in the Position of Cobalamin Coupling. Evaluation of Cobalamin Derivative Binding to Transcobalamin II

Cited by 73 publications

References 55 publications

Structural basis for mammalian vitamin B 12 transport by transcobalamin

Structural basis for mammalian vitamin B 12 transport by transcobalamin

New Derivatives of Vitamin B12 Show Preferential Targeting of Tumors

Induction of Apoptosis in neoplastic cells by depletion of vitamin B12

Contact Info

Product

Resources

About

Structural basis for mammalian vitamin B ₁₂ transport by transcobalamin

Structural basis for mammalian vitamin B ₁₂ transport by transcobalamin