Bioconjugate-Based Molecular Umbrellas

Janout, Václav; Regen, Steven L.

doi:10.1021/bc800296g

Cited by 64 publications

(58 citation statements)

References 39 publications

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“…10 When immersed in a hydrophilic environment, these molecules have the potential for creating a hydrophilic exterior. Conversely, when immersed in a lipophilic environment, these same molecules have the potential for producing a lipophilic exterior.…”

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confidence: 99%

Molecular Umbrella–Amphotericin B Conjugates

et al. 2014

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A tetrawalled and an octawalled molecular umbrella conjugate of amphotericin B (AmB) have been synthesized. Both conjugates exhibit high water solubility, a low tendency to aggregate, negligible hemolytic activity at 100 μM, and an ability to release a derivative of AmB under reducing conditions that exhibits high antifungal activity. Whereas the larger, octawalled conjugate shows slight adsorption to liposomal membranes and an ability to cross them by passive transport, the tetrawalled analogue shows significant adsorption and much lower bilayer transport activity. The potential of molecular umbrella–AmB conjugates as therapeutic agents is briefly discussed.

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Molecular Umbrella–Amphotericin B Conjugates

et al. 2014

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“…The hypothesis of the transportation is illustrated in Figure 16. During this process, the molecular umbrella adopts a shielded conformation and shelters the hydrophilic agent inside the hydrophilic cavity, finally releasing the hydrophilic agent on the other side of the lipid bilayer [92] .…”

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confidence: 99%

“…When the molecules are immersed in aqueous solutions, Figure 15 Di-and tetra-armed umbrellas (X represents the handle of the umbrella that can bind to a desired agent such as oligonucleotides, R = OH, OCH 3 , OCONH 2 or OSO 3 Na) [92] (Reproduced with permission from American Chemical Society).…”

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confidence: 99%

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Biomaterials made of bile acids

Zhang

Zhu

2009

Sci. China Ser. B-Chem.

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The use of natural compounds in the preparation of new materials can improve the biocompatibility of the materials and avoid any potential toxicity of the degradation products when used for biomedical applications. Bile acids are amphiphilic molecules biosynthesized in the liver. They are used to prepare various polymers and oligomers. These polymers made of bile acids are promising materials in both biomedical and pharmaceutical fields.

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“…Tubular structures are also formed by BA molecules substituted with monosaccharide residues through an unusual mechanism involving scrolls as intermediates [25], whereas vesicles are given by some Gemini derivatives [35]. In addition, derivatives with specific surfactant and recognition properties are synthesized to be exploited as protein or drug stabilizers [36,37], dispersing agents for carbon nanotubes [38], efficient anion and carbohydrate receptors [39,40], antimicrobial agents [41,42] and drug carriers [43,44].…”

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confidence: 99%