Andie Collinson scite author profile

Doxorubicin is a chemotherapeutic agent that is commonly used to treat a broad range of cancers. However, significant cardiotoxicity, associated with prolonged exposure to doxorubicin, limits its continued therapeutic use. One strategy to prevent the uptake of doxorubicin into cardiac cells is the encapsulation of the drug to prevent non-specific uptake and also to improve the drugs’ pharmacokinetic properties. Although encapsulated forms of doxorubicin limit the cardiotoxicity observed, they are not without their own liabilities as an increased amount of drug is deposited in the skin where liposomal doxorubicin can cause palmar-plantar erythrodysesthesia. Exosomes are small endogenous extracellular vesicles, that transfer bioactive material from one cell to another, and are considered attractive drug delivery vehicles due to their natural origin. In this study, we generated doxorubicin-loaded exosomes and demonstrate their rapid cellular uptake and re-distribution of doxorubicin from endosomes to the cytoplasm and nucleus resulting in enhanced potency in a number of cultured and primary cell lines when compared to free doxorubicin and liposomal formulations of doxorubicin. In contrast to other delivery methods for doxorubicin, exosomes do not accumulate in the heart, thereby providing potential for limiting the cardiac side effects and improved therapeutic index.

show abstract

High affinity single-chain variable fragments are specific and versatile targeting motifs for extracellular vesicles

Longatti¹,

Schindler²,

Collinson³

et al. 2018

Nanoscale

View full text Add to dashboard Cite

Exosomes are extracellular vesicles that mediate cell-to-cell communication by transferring biological cargo, such as DNA, RNA and proteins. Through genetic engineering of exosome-producing cells or manipulation of purified exosomes, it is possible to load exosomes with therapeutic molecules and target them to specific cells via the display of targeting moieties on their surface. This provides an opportunity to exploit a naturally-occurring biological process for therapeutic purposes. In this study, we explored the potential of single chain variable fragments (scFv) as targeting domains to achieve delivery of exosomes to cells expressing a cognate antigen. We generated exosomes targeting the Her2 receptor and, by varying the affinity of the scFvs and the Her2 expression level on recipient cells, we determined that both a high-affinity anti-Her2-scFv (K≤ 1 nM) and cells expressing a high level (≥10 copies per cell) of Her2 were optimally required to enable selective uptake. We also demonstrate that targeting exosomes to cells via a specific cell surface receptor can alter their intracellular trafficking route, providing opportunities to influence the efficiency of delivery and fate of intracellular cargo. These experiments provide solid data to support the wider application of exosomes displaying antibody fragments as vehicles for the targeted delivery of therapeutic molecules.

show abstract

Structural and Pharmacological Characterization of Novel Potent and Selective Monoclonal Antibody Antagonists of Glucose-dependent Insulinotropic Polypeptide Receptor

Ravn¹,

Madhurantakam

Kunze³

et al. 2013

Journal of Biological Chemistry

View full text Add to dashboard Cite

Background: GIPr mediates insulin secretion upon GIP stimulation.Results: Gipg013 is a highly specific and potent antagonist of GIPr with a fully characterized mode of action.Conclusion: Gipg013 antagonizes GIPr in vivo, as exemplified by inhibition of GIP-induced insulin secretion.Significance: This antagonizing antibody to the GIPr will be useful as a tool to further understand the biological roles of GIP.

show abstract

A CD80-Biased CTLA4-Ig Fusion Protein with Superior In Vivo Efficacy by Simultaneous Engineering of Affinity, Selectivity, Stability, and FcRn Binding

Douthwaite¹,

Moisan²,

Privezentzev³

et al. 2017

View full text Add to dashboard Cite

Affinity- and stability-engineered variants of CTLA4-Ig fusion molecules with enhanced pharmacokinetic profiles could yield improved therapies with the potential of higher efficacy and greater convenience to patients. In this study, to our knowledge, we have, for the first time, used in vitro evolution to simultaneously optimize CTLA4 affinity and stability. We selected for improved binding to both ligands, CD80 and CD86, and screened as dimeric Fc fusions directly in functional assays to identify variants with stronger suppression of in vitro T cell activation. The majority of CTLA4 molecules showing the largest potency gains in primary in vitro and ex vivo human cell assays, using PBMCs from type 1 diabetes patients, had significant improvements in CD80, but only modest gains in CD86 binding. We furthermore observed different potency rankings between our lead molecule MEDI5265, abatacept, and belatacept, depending on which type of APC was used, with MEDI5265 consistently being the most potent. We then created fusions of both stability- and potency-optimized CTLA4 moieties with human Fc variants conferring extended plasma t In a cynomolgus model of T cell-dependent Ab response, the CTLA4-Ig variant MEDI5265 could be formulated at >100 mg/ml for s.c. administration and showed superior efficacy and significantly prolonged serum t The combination of higher stability and potency with prolonged pharmacokinetics could be compatible with very infrequent, s.c. dosing while maintaining a similar level of immune suppression to more frequently and i.v. administered licensed therapies.

show abstract

Fluorescence Properties of Green Fluorescent Protein FRET Pairs Concatenated with the Small G Protein, Rac, and Its Interacting Domain of the Kinase, p21-Activated Kinase

Collinson

Bligh

Graham

et al. 2004

ASSAY and Drug Development Technologies

View full text Add to dashboard Cite

Many diseases are caused by aberrant cell signalling controlled by intracellular protein-protein interactions. Inhibitors of such interactions thus have enormous potential as chemotherapeutic agents. It is advantageous to test for such inhibitors using cell-based screens in which modulation of the interaction gives a rapid response. Fluorescence resonance energy transfer (FRET) systems, based on interacting donor and acceptor green fluorescent proteins (GFPs), have potential in such screens. Here, we describe experiments aimed at using a FRET system to monitor the interaction between the small G protein Rac and a region of its binding partner, the Ser/Thr kinase, p21-activated kinase (PAK). Initial attempts to use a previously described construct, enhanced GFP-PAK-enhanced blue fluorescent protein, failed because of the difficulty of obtaining equal and high expression levels of both the fusion protein and Rac in mammalian cells. Here, three proteins in which Rac, PAK, and the two GFPs were concatenated in different combinations on a single protein were expressed and characterised. In each construct, however, intramolecular interaction of PAK and Rac was observed. As this was of extremely high affinity, presumably because of entropy effects from the interacting partners being tethered, these molecules were not suitable for detection of inhibitors of the interaction. Molecular modelling was used to investigate the way in which the concatenated constructs might form intramolecular interactions. As this explained key properties of these proteins, it is likely that this approach could be used to design constructs where the unwanted intramolecular protein-protein interactions are prevented, whilst allowing the desired intermolecular Rac/PAK interaction. This would provide constructs that are useable for drug discovery.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Andie Collinson

Exosomal delivery of doxorubicin enables rapid cell entry and enhanced in vitro potency

High affinity single-chain variable fragments are specific and versatile targeting motifs for extracellular vesicles

Structural and Pharmacological Characterization of Novel Potent and Selective Monoclonal Antibody Antagonists of Glucose-dependent Insulinotropic Polypeptide Receptor

A CD80-Biased CTLA4-Ig Fusion Protein with Superior In Vivo Efficacy by Simultaneous Engineering of Affinity, Selectivity, Stability, and FcRn Binding

Fluorescence Properties of Green Fluorescent Protein FRET Pairs Concatenated with the Small G Protein, Rac, and Its Interacting Domain of the Kinase, p21-Activated Kinase

Contact Info

Product

Resources

About