Building nanostructures with drugs

Ma, Wei; Cheetham, Andrew G.; Cui, Honggang

doi:10.1016/j.nantod.2015.11.003

Cited by 132 publications

(91 citation statements)

References 170 publications

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“…For instance, the use of Kolliphor EL (formerly Cremophor EL) to “solubilize” paclitaxel (Taxol ® ) as an emulsion has been associated with allergic reactions and peripheral neuropathy, among other side effects [38]. Conjugating the anticancer drug to a hydrophilic peptide can alleviate this solubility problem and provides the opportunity for the inclusion of greater functionality [31]. In this section, we will illustrate two commonly utilized peptide types that can enhance drug delivery—integrin-targeting and cell-penetrating peptides—and discuss the application of water-soluble PDCs for theranostic applications.…”

Section: Water-soluble Peptide–drug Conjugatesmentioning

confidence: 99%

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Peptide–drug conjugates as effective prodrug strategies for targeted delivery

Wang

Cheetham

Angacian

et al. 2017

Advanced Drug Delivery Reviews

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407

288

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Peptide–drug conjugates (PDCs) represent an important class of therapeutic agents that combine one or more drug molecules with a short peptide through a biodegradable linker. This prodrug strategy uniquely and specifically exploits the biological activities and self-assembling potential of small molecule peptides to improve the treatment efficacy of medicinal compounds. We review here the recent progress in the design and synthesis of peptide–drug conjugates in the context of targeted drug delivery and cancer chemotherapy. We analyze carefully the key design features in choosing the peptide sequence and linker chemistry for the drug of interest, as well as the strategies to optimize the conjugate design. We highlight the recent progress in the design and synthesis of self-assembling peptide-drug amphiphiles to construct supramolecular nanomedicine and nanofiber hydrogels for both systemic and topical delivery of active pharmaceutical ingredients.

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Section: Water-soluble Peptide–drug Conjugatesmentioning

confidence: 99%

“…1) [14, 31]. In this novel design, the PDCs essentially form their own drug delivery vehicle (namely one-component nanomedicines), one that is capable of breaking down, either over time or due to some specific stimulus, and releasing the active drug.…”

Section: Introductionmentioning

confidence: 99%

Peptide–drug conjugates as effective prodrug strategies for targeted delivery

Wang

Cheetham

Angacian

et al. 2017

Advanced Drug Delivery Reviews

Self Cite

407

288

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show abstract

“…The release of the drug from the nanostructure is a key feature in the efficacy of the drug conjugate and it can be strongly influenced by the stability and the network features of the hydrogel. 178 In in vivo settings, such as a resection cavity, 179 the hydrogel may be subject to three-dimensional shear and strain stresses that could compromise its integrity thus leading to unexpected drug release profiles. Subsequent increased exposure of the drug conjugate caused by hydrogel breakdown can facilitate faster and unpredictable drug release.…”

Section: Small Molecule Sapdsmentioning

confidence: 99%

“…Furthermore, some concerns have been raised with regard to the long-term stability of the nanostructures formed, particularly upon introduction to the in vivo physiological environment. 178 …”

Section: Small Molecule Sapdsmentioning

confidence: 99%

Self-assembling prodrugs

et al. 2017

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Covalent modification of therapeutic compounds is a clinically proven strategy to devise prodrugs with enhanced treatment efficacies. This prodrug strategy relies on modified drugs that possess advantageous pharmacokinetic properties and administration routes over their parent drug. Self-assembling prodrugs represent an emerging class of therapeutic agents capable of spontaneously associating into well-defined supramolecular nanostructures in aqueous solutions. The self-assembly of prodrugs expands the functional space of conventional prodrug design, providing a possible pathway to more effective therapies as the assembled nanostructure possesses distinct physicochemical properties that can be tailored to specific administration routes and disease treatment. In this review, we will discuss the various types of self-assembling prodrugs in development, providing an overview of the methods used to control their structure and function and, ultimately, our perspective on their current and future potential.

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“…16,33,40,41,44,64,65 Incorporation of protease sensitivity can further improve selectivity to tumor tissue and mitigate harmful side effects to healthy tissues. 66−69 Of particular interest are the following proteases whose abnormal activity is associated with cancer: cathepsins, matrix metalloproteinases, and urokinase-type plasminogen activators.…”

Section: Protease-responsive Nanomaterials Systems For Therapeuticsmentioning

confidence: 99%

Protease-Sensitive Nanomaterials for Cancer Therapeutics and Imaging

Anderson

Cui

2017

Ind. Eng. Chem. Res.

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Many diseases can be characterized by the abnormal activity exhibited by various biomolecules, the targeting of which can provide therapeutic and diagnostic utility. Recent trends in medicine and nanotechnology have prompted the development of protease-sensitive nanomaterials systems for therapeutic, diagnostic, and theranostic applications. These systems can act specifically in response to the target enzyme and its associated disease conditions, thus enabling personalized treatment and improved prognosis. In this Review, we discuss recent advancements in the development of protease-responsive materials for imaging and drug delivery and analyze several representative systems to illustrate their key design principles.

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Building nanostructures with drugs

Cited by 132 publications

References 170 publications

Peptide–drug conjugates as effective prodrug strategies for targeted delivery

Peptide–drug conjugates as effective prodrug strategies for targeted delivery

Self-assembling prodrugs

Protease-Sensitive Nanomaterials for Cancer Therapeutics and Imaging

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