The First Fluorescent Diboronic Acid Sensor Specific for Hepatocellular Carcinoma Cells Expressing Sialyl Lewis X

Yang, Wenqian; Fan, Haiying; Gao, Xingming; Gao, Shouhai; Karnati, Vishnu Vardhan Reddy; Ni, Wei; Hooks, W. Borden; Carson, James W.; Weston, Brent W.; Wang, Binghe

doi:10.1016/j.chembiol.2004.03.021

Cited by 142 publications

(86 citation statements)

References 33 publications

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“…[37] Finally, fluorescent boronic acid sensors can be used in a diagnostic manner for the detection and labelling of fucosylated oligosaccharides that occur in surface carbohydrates that are common in certain cancers. [58] …”

Section: Molecular Receptors and Sensorsmentioning

confidence: 99%

Expanding Roles for Organoboron Compounds – Versatile and Valuable Molecules for Synthetic, Biological and Medicinal Chemistry

Petasis

2007

Aust. J. Chem.

109

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The present essay offers an overview of the latest developments in the chemistry of organoboron compounds. The unique structural characteristics and the versatile reactivity profile of organoboron compounds continue to expand their roles in several areas of chemistry. A growing number of boron-mediated reactions have become vital tools for synthetic chemistry, particularly in asymmetric synthesis, metal-catalyzed processes, acid catalysis, and multicomponent reactions. As a result, boronic acids and related molecules have now evolved as major players in synthetic and medicinal chemistry. Moreover, their remnant electrophilic reactivity, even under physiological conditions, has allowed their incorporation in a growing number of bioactive molecules, including bortezomib, a clinically approved anticancer agent. Finally, the sensitive and selective binding of boronic acids to diols and carbohydrates has led to the development of a growing number of novel chemosensors for the detection, quantification, and imaging of glucose and other carbohydrates. There is no doubt that the chemistry of organoboron compounds will continue to expand into new discoveries and new applications in several fields of science. Long History -Expanding RolesOrganic compounds containing boron have been known for over a century, and many aspects of their chemical properties and reactivity have been known for quite some time. Since the discovery and development of hydroboration, the resulting organoboranes are among the most widely used reagents and intermediates in organic synthesis including asymmetric reactions. Also, early investigations on the chemistry of boron hydrides and carboranes revealed new classes of compounds with unique structure and reactivity that continue to attract attention. Despite these early discoveries, however, the real potential of some of the more versatile and chemically stable organoboron compounds was not realized until recently.Indeed, the growing list of valuable organoboron compounds in addition to organoboranes [1] now includes organoboronic acids and boronates, [2] and more recently organotrifluoroborates.

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Section: Molecular Receptors and Sensorsmentioning

confidence: 99%

Expanding Roles for Organoboron Compounds – Versatile and Valuable Molecules for Synthetic, Biological and Medicinal Chemistry

Petasis

2007

Aust. J. Chem.

109

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“…[28] In 2002, Weston and Wang reported the ability to target a specific oligosaccharide epitope of a cell surface glycoconjugate. [60,61] Use of a fluorescent bis-boronate to label the cancerrelated antigen sialyl Lewis X on hepatocellular carcinoma cells was an important achievement. They used a combinatorial approach to optimize a bis-boronate in targeting the sialic acid and fucose residues on the tetrasaccharide.…”

Section: Boron-cell Surface Interactionsmentioning

confidence: 99%

Boron-Carbohydrate Interactions

Pappin¹,

Kiefel²,

Houston³

2012

Carbohydrates - Comprehensive Studies on Glycobiology and Glycotechnology

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“…For a review on borolectins, see : Yang et al (2002: Yang et al ( , 2004. For the utilization of boronic acids as enzyme inhibitors, see: Adams et al (1998);Fevig et al (1996); Johnson & Houston (2002); Kettner et al (1990); Prusoff et al (1993).…”

Section: Related Literaturementioning

confidence: 99%

“…However, they have found wider applications more recently as sensors of 'gallate-like′ compounds in the alcoholic beverage industry (Wiskur & Anslyn, 2001), in the development of saccharide sensors (in vivo at neutral pH in aqueous environment) (Baxter et al, 1990;Fedorak et al, 1989;Yamamoto et al, 1990;Yasuda et al, 1990), boronolectins (Yang et al, 2002(Yang et al, , 2004, as protease (Fevig et al, 1996;Kettner et al, 1990;Prusoff et al, 1993), glycosidase (Johnson & Houston, 2002) and proteasome inhibitors (Adams et al, 1998).…”

Section: S1 Commentmentioning

confidence: 99%

Methyl 2-(5,5-dimethyl-1,3,2-dioxaborinan-2-yl)-4-nitrobenzoate

2012

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Key indicators: single-crystal X-ray study; T = 150 K; mean (C-C) = 0.002 Å; R factor = 0.044; wR factor = 0.114; data-to-parameter ratio = 17.3.The six-membered boronate ester ring of the title compound, C 13 H 16 BNO 6 , adopts an envelope conformation with the C atom bearing the dimethyl substituents at the flap. The O-B-C-C torsion angles between the boronate group and the benzene ring are 72.5 (2) and 81.0 (2) . The 4-nitrobenzoate unit adopts a slightly twisted conformation, with dihedral angles between the benzene ring and the nitrate and methyl ester groups of 17.5 (2) and 14.4 (3) , respectively. In the crystal, inversion-related pairs of molecules show weak -stacking interactions [centroid-centroid distance = 4.0585 (9) Å and interplanar spacing = 3.6254 (7) Å ]. Related literature

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The First Fluorescent Diboronic Acid Sensor Specific for Hepatocellular Carcinoma Cells Expressing Sialyl Lewis X

Cited by 142 publications

References 33 publications

Expanding Roles for Organoboron Compounds – Versatile and Valuable Molecules for Synthetic, Biological and Medicinal Chemistry

Expanding Roles for Organoboron Compounds – Versatile and Valuable Molecules for Synthetic, Biological and Medicinal Chemistry

Boron-Carbohydrate Interactions

Methyl 2-(5,5-dimethyl-1,3,2-dioxaborinan-2-yl)-4-nitrobenzoate

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