Literature DB >> 17239470

Inhibition of transferrin iron release increases in vitro drug carrier efficacy.

Bert J Lao1, Wen-Lin P Tsai, Foad Mashayekhi, Edward A Pham, Anne B Mason, Daniel T Kamei.   

Abstract

Transferrin (Tf) conjugates of CRM107 are currently being tested in clinical trials for treatment of malignant gliomas. However, the rapid cellular recycling of Tf limits its efficiency as a drug carrier. We have developed a mathematical model of the Tf/TfR trafficking cycle and have identified the Tf iron release rate as a previously unreported factor governing the degree of Tf cellular association. The release of iron from Tf is inhibited by replacing the synergistic carbonate anion with oxalate. Trafficking patterns for oxalate Tf and native Tf are compared by measuring their cellular association with HeLa cells. The amount of Tf associated with the cells is an average of 51% greater for oxalate Tf than for native Tf over a two hour period at Tf concentrations of 0.1 nM and 1 nM. Importantly, diphtheria toxin (DT) conjugates of oxalate Tf are more cytotoxic against HeLa cells than conjugates of native Tf. Conjugate IC(50) values were determined to be 0.06 nM for the oxalate Tf conjugate vs. 0.22 nM for the native Tf conjugate. Thus, we show that inhibition of Tf iron release improves the efficacy of Tf as a drug carrier through increased association with cells expressing TfR.

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Year:  2006        PMID: 17239470      PMCID: PMC2034207          DOI: 10.1016/j.jconrel.2006.12.001

Source DB:  PubMed          Journal:  J Control Release        ISSN: 0168-3659            Impact factor:   9.776


  34 in total

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3.  Controlling receptor/ligand trafficking: effects of cellular and molecular properties on endosomal sorting.

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Journal:  Ann Biomed Eng       Date:  1997 Jul-Aug       Impact factor: 3.934

4.  Three-dimensional structure of endosomes in BHK-21 cells.

Authors:  M Marsh; G Griffiths; G E Dean; I Mellman; A Helenius
Journal:  Proc Natl Acad Sci U S A       Date:  1986-05       Impact factor: 11.205

5.  The molecular mechanism for receptor-stimulated iron release from the plasma iron transport protein transferrin.

Authors:  Anthony M Giannetti; Peter J Halbrooks; Anne B Mason; Todd M Vogt; Caroline A Enns; Pamela J Björkman
Journal:  Structure       Date:  2005-11       Impact factor: 5.006

6.  Efficient delivery of a Bcl-2-specific antisense oligodeoxyribonucleotide (G3139) via transferrin receptor-targeted liposomes.

Authors:  Shih-Jiuan Chiu; Shujun Liu; Danilo Perrotti; Guido Marcucci; Robert J Lee
Journal:  J Control Release       Date:  2006-03-06       Impact factor: 9.776

7.  Intracellular targeting of sodium mercaptoundecahydrododecaborate (BSH) to solid tumors by transferrin-PEG liposomes, for boron neutron-capture therapy (BNCT).

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Journal:  J Control Release       Date:  2004-08-11       Impact factor: 9.776

8.  A new role for the transferrin receptor in the release of iron from transferrin.

Authors:  P K Bali; O Zak; P Aisen
Journal:  Biochemistry       Date:  1991-01-15       Impact factor: 3.162

9.  The oxalate effect on release of iron from human serum transferrin explained.

Authors:  Peter J Halbrooks; Anne B Mason; Ty E Adams; Sara K Briggs; Stephen J Everse
Journal:  J Mol Biol       Date:  2004-05-21       Impact factor: 5.469

Review 10.  Transferrin receptor ligand-targeted toxin conjugate (Tf-CRM107) for therapy of malignant gliomas.

Authors:  Michael Weaver; Douglas W Laske
Journal:  J Neurooncol       Date:  2003-10       Impact factor: 4.130
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  11 in total

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Review 2.  Cells and cell lysates: a direct approach for engineering antibodies against membrane proteins using yeast surface display.

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Journal:  Methods       Date:  2012-03-23       Impact factor: 3.608

3.  Mathematical modeling of mutant transferrin-CRM107 molecular conjugates for cancer therapy.

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Review 4.  The intracellular trafficking pathway of transferrin.

Authors:  Kristine M Mayle; Alexander M Le; Daniel T Kamei
Journal:  Biochim Biophys Acta       Date:  2011-09-22

5.  Intratumoral therapy of glioblastoma multiforme using genetically engineered transferrin for drug delivery.

Authors:  Dennis J Yoon; Byron H Kwan; Felix C Chao; Theodore P Nicolaides; Joanna J Phillips; Gretchen Y Lam; Anne B Mason; William A Weiss; Daniel T Kamei
Journal:  Cancer Res       Date:  2010-05-11       Impact factor: 12.701

Review 6.  Intracellular trafficking considerations in the development of natural ligand-drug molecular conjugates for cancer.

Authors:  Dennis J Yoon; Christina T Liu; Devin S Quinlan; Parsa M Nafisi; Daniel T Kamei
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7.  Genetically engineering transferrin to improve its in vitro ability to deliver cytotoxins.

Authors:  Dennis J Yoon; David S H Chu; Christopher W Ng; Edward A Pham; Anne B Mason; David M Hudson; Valerie C Smith; Ross T A MacGillivray; Daniel T Kamei
Journal:  J Control Release       Date:  2008-10-21       Impact factor: 9.776

8.  Mass spectrometry-guided optimization and characterization of a biologically active transferrin-lysozyme model drug conjugate.

Authors:  Son N Nguyen; Cedric E Bobst; Igor A Kaltashov
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Review 9.  Strategies for overcoming the blood-brain barrier for the treatment of brain metastases.

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10.  Engineering an Anti-Transferrin Receptor ScFv for pH-Sensitive Binding Leads to Increased Intracellular Accumulation.

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Journal:  PLoS One       Date:  2015-12-29       Impact factor: 3.240
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