Toward a magic or imaginary bullet? Ligands for drug targeting to cancer cells: principles, hopes, and challenges

Toporkiewicz, Monika; Meissner, Justyna M.; Matusewicz, Lucyna; Czogalla, Aleksander; Sikorski, Aleksander F.

doi:10.2147/ijn.s74514

Cited by 45 publications

(25 citation statements)

References 176 publications

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“…Despite promising effects, AF is also associated with dose-limiting pulmonary toxicity. This and other drugs that display negative off-target effects can be re-evaluated using NP-based delivery systems that can deliver drug more specifically to targeted tumor tissues due to their passive (i.e., via the EPR effect) and active (i.e., receptor-mediated) tumor-targeting abilities [45, 46]. Drug nanocarriers can potentially increase the therapeutic index of the drug while reducing undesirable off-target effects and systemic toxicity [47].…”

Section: Discussionmentioning

confidence: 99%

Aminoflavone-loaded EGFR-targeted unimolecular micelle nanoparticles exhibit anti-cancer effects in triple negative breast cancer

et al. 2016

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Triple negative breast cancer (TNBC) is an aggressive subtype of breast cancer for which there is no available targeted therapy. TNBC cases contribute disproportionately to breast cancer-related mortality, thus the need for novel and effective therapeutic methods is urgent. We have previously shown that a National Cancer Institute (NCI) investigational drug aminoflavone (AF) exhibits strong growth inhibitory effects in TNBC cells. However, in vivo pulmonary toxicity resulted in withdrawal or termination of several human clinical trials for AF. Herein we report the in vivo efficacy of a nanoformulation of AF that enhances the therapeutic index of AF in TNBC. We engineered a unique unimolecular micelle nanoparticle (NP) loaded with AF and conjugated with GE11, a 12 amino acid peptide targeting epidermal growth factor receptor (EGFR), since EGFR amplification is frequently observed in TNBC tumors. These unimolecular micelles possessed excellent stability and preferentially released drug payload at endosomal pH levels rather than blood pH levels. Use of the GE11 targeting peptide resulted in enhanced cellular uptake and strong growth inhibitory effects in TNBC cells. Further, AF-loadedloaded, GE11-lacking, GE11-conjugated (targeted) unimolecular micelle NPs significantly inhibit orthotopic TNBC tumor growth in a xenograft model, compared to treatment with AF-loaded, GE11-lacking (non-targeted) unimolecular micelle NPs or free AF. Interestingly, the animals treated with AF-loaded, targeted NPs had the highest plasma and tumor level of AF among different treatment groups yet exhibited no increase in plasma aspartate aminotransferase (AST) activity level or observable tissue damage at the time of sacrifice. Together, these results highlight AF-loaded, EGFR-targeted unimolecular micelle NPs as an effective therapeutic option for EGFR-overexpressing TNBC.

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Section: Discussionmentioning

confidence: 99%

Aminoflavone-loaded EGFR-targeted unimolecular micelle nanoparticles exhibit anti-cancer effects in triple negative breast cancer

et al. 2016

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“…These include monoclonal antibodies, single-chain variable fragments (scFvs), antigen-binding fragments (Fabs), single domain antibodies (sdAb), DARPins, peptides, aptamers, and small molecules (Fig. 9) [282–284]. Monoclonal antibodies consist of two immunoglobulin (Ig) heavy chains and two Ig light chains, each with constant and variable domain regions.…”

Section: Approaches To Alleviate the Np-associated Adverse Effectsmentioning

confidence: 99%

“…Fabs consist of a single constant and variable domain form each heavy and light chains. Compared to conventional IgG antibodies (~150kDa), single-chain variable fragment (scFv) antibodies (~27kDa) and antigen-binding (Fab) fragments (~57kDa) are smaller in molecular size and weight [282,285,286]. …”

Section: Approaches To Alleviate the Np-associated Adverse Effectsmentioning

confidence: 99%

“…DARPins are around one-tenth the size of conventional IgG molecules and have high thermal stability. Another type of single domain targeting molecules are affibodies [282,288]. Affibodies are very small (−6.5kDa) targeting moieties developed by combinatorial protein engineering of the staphylococcal protein A-derived Z-domain scaffold.…”

Section: Approaches To Alleviate the Np-associated Adverse Effectsmentioning

confidence: 99%

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Unintended effects of drug carriers: Big issues of small particles

Parhiz

Khoshnejad

Myerson

et al. 2018

Advanced Drug Delivery Reviews

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Humoral and cellular host defense mechanisms including diverse phagocytes, leukocytes, and immune cells have evolved over millions of years to protect the body from microbes and other external and internal threats. These policing forces recognize engineered sub-micron drug delivery systems (DDS) as such a threat, and react accordingly. This leads to impediment of the therapeutic action, extensively studied and discussed in the literature. Here, we focus on side effects of DDS interactions with host defenses. We argue that for nanomedicine to reach its clinical potential, the field must redouble its efforts in understanding the interaction between drug delivery systems and the host defenses, so that we can engineer safer interventions with the greatest potential for clinical success.

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“…Additional reviews on the EPR effect and nanomedicine can be found elsewhere. 39, 43 Once accumulated in tumors by the EPR effect, active targeting can be achieved by decorating outer surface of nanoparticles with targeting agents (homing targets), 44 such as monoclonal antibodies, single-chain variable fragments (scFv), targeting peptides, transferrin, folic acid, and aptamers. This strategy exploits the binding between targeting agents and receptors (or other membrane proteins) on the tumors, which is followed by cellular uptake of the particles termed receptor-mediated endocytosis.…”

Section: Nanoparticles For Sirna Delivery: Common Rationale and Comentioning

confidence: 99%

Current development of targeted oligonucleotide-based cancer therapies: Perspective on HER2-positive breast cancer treatment

Ngamcherdtrakul

Castro

et al. 2016

Cancer Treatment Reviews

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This Review discusses the various types of non-coding oligonucleotides, which have garnered extensive interest as new alternatives for targeted cancer therapies over small molecule inhibitors and monoclonal antibodies. These oligonucleotides can target any hallmark of cancer, no longer limited to so-called “druggable” targets. Thus, any identified gene that plays a key role in cancer progression or drug resistance can be exploited with oligonucleotides. Among them, small-interfering RNAs (siRNAs) are frequently utilized for gene silencing due to the robust and well established mechanism of RNA interference. Despite promising advantages, clinical translation of siRNAs is hindered by the lack of effective delivery platforms. This Review provides general criteria and consideration of nanoparticle development for systemic siRNA delivery. Different classes of nanoparticle candidates for siRNA delivery are discussed, and the progress in clinical trials for systemic cancer treatment is reviewed. Lastly, this Review presents HER2 (human epidermal growth factor receptor type 2)-positive breast cancer as one example that could benefit significantly from siRNA technology. How siRNA-based therapeutics can overcome cancer resistance to such therapies is discussed.

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Toward a magic or imaginary bullet? Ligands for drug targeting to cancer cells: principles, hopes, and challenges

Cited by 45 publications

References 176 publications

Aminoflavone-loaded EGFR-targeted unimolecular micelle nanoparticles exhibit anti-cancer effects in triple negative breast cancer

Aminoflavone-loaded EGFR-targeted unimolecular micelle nanoparticles exhibit anti-cancer effects in triple negative breast cancer

Unintended effects of drug carriers: Big issues of small particles

Current development of targeted oligonucleotide-based cancer therapies: Perspective on HER2-positive breast cancer treatment

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