Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Wibowo, A.S.; Singh, Manvendra; Reeder, Kristen M.; Carter, Joshua; Kovach, Alexander R.; Meng, Weiwei; Ratnam, Manohar; Zhang, Faming; Dann, Charles E.

doi:10.1073/pnas.1308827110

Cited by 168 publications

(196 citation statements)

References 74 publications

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“…So far, only the FR-α and FR-β isoforms have been conclusively shown to display receptor binding functionality, that is, the ability to bind/internalize physiological folates with high specificity (8). While FR-α is frequently overexpressed by cancer cells of epithelial origins (7,8), FR-β is mostly expressed in functional form by activated macrophages (and their monocyte precursors) during inflammatory episodes that can lead to irreversible tissue and joint damage (9,10). Thus, FR-β-expressing macrophages have emerged as a promising target for antibody-or ligand-mediated drug delivery to control local and systemic inflammation (11).…”

Section: Introductionmentioning

confidence: 99%

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus

Parker

Kleindl

et al. 2015

Mol Med

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Section: Introductionmentioning

confidence: 99%

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus

Parker

Kleindl

et al. 2015

Mol Med

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“…In the case of AML, several receptors overexpressed in cancer cells have been considered for cancer cell recognition, including a family of folate receptors (FR) 26,27 , with most common FR and FR, which share most of the homology and are anchored in the cell membrane through glycosyl phosphatidinylinositol linkages. They show similar folate binding ability, as well as the same mechanism of endocytosis-based folate internalization 28 . The convenient binding chemistry and lack of immunogenicity make the folate ligands one of the best choices for targeting cancer cells 19,[29][30][31] .…”

Section: Introductionmentioning

confidence: 81%

Controlled release of targeted anti-leukemia drugs azacitidine and decitabine monitored using surface-enhanced Raman scattering (SERS) spectroscopy

Smith

Hepel

2017

Mediterr.J.Chem.,

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A new targeted drug delivery system with controlled release of anti-cancer drugs, azacitidine and decitabine, was investigated to enhance the efficacy of cancer treatment and reduce the effects of high drug toxicity to healthy tissues. The proposed drug nanocarriers are based on gold nanoparticles (AuNPs) modified with mercaptobenzoic acid (MBA) linker to enable the immobilization of azacitidine (AZA) and decitabine (DAC) on AuNPs in the form of AuNP@MBA/AZA,DAC entities. The cancer cell recognition was accomplished by covalently binding folic acid (FA) ligands to para-aminothiophenol (PATP) in the mixed SAM shell on gold nanoparticle nanocarriers, AuNP@MBA,PATP. The FA ligand was used due to the strong expression of folic acid receptors (FR) in the membrane of cancer cells. This enables the functionalized carriers to target only cancer cells owing to the efficient FA-FR binding property. The amide bonds between the linkers and azacitidine/decitabine are pH sensitive and undergo acid hydrolysis in a low pH environment of the cytosol in cancer cells. Using the solutions of different pH, the release of azacitidine/decitabine was monitored by surface-enhanced Raman scattering spectroscopy (SERS) measurements of the MBA Raman modes at 1586 cm-1 and 1074 cm-1 . At pH 7.4, the release of the drug was found to be negligible, while at pH 4.0 and 5.5 a continuous drug release was observed over 3 hours. The utilization of SERS monitoring for the drug release was based on the strong Raman signals which are generated by the MBA linker when it is bound to a plasmonic AuNP. During the immobilization of azacitidine/decitabine on AuNP carriers, the SERS signals are strongly reduced due to the shielding by drug molecules but they increase sharply upon the drug release confirming the amide bond breakage and successful drug delivery.

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“…The high-affinity human folate receptors (FRs), which transport folate via endocytosis, have been proposed as targets for the specific delivery of antifolates or folate conjugates to tumors. 54 Some cyclopenta[g]quinazoline derivatives with activity as inhibitors of thymidylate synthase have been proven to have good α-FR/RFC selectivity and therefore are good candidates for the development of antifolates specifically targeted at α-FR-overexpressing tumors. One of these compounds is CB-300638, which was designed on the basis of the crystal structures of inhibitors bound to TS 55 and has shown promising preclinical data, including experimental proof of its selective delivery into human tumor cell lines overexpressing the α-isoform of the folate receptor.…”

Section: Folate-based Thymidylate Synthase Inhibitorsmentioning

confidence: 99%

Antimetabolites That Interfere with Nucleic Acid Biosynthesis

Avendaño

Menéndez

2015

Medicinal Chemistry of Anticancer Drugs

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Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Cited by 168 publications

References 74 publications

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus

Controlled release of targeted anti-leukemia drugs azacitidine and decitabine monitored using surface-enhanced Raman scattering (SERS) spectroscopy

Antimetabolites That Interfere with Nucleic Acid Biosynthesis

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