Preparation and characterization of ‘heparinocytes’: erythrocytes with covalently bound low molecular weight heparin

Müller, Michele; Büchi, Linda; Woodtli, Karin; Haeberli, André; Beer, Jürg H.

doi:10.1016/s0014-5793(00)01204-7

Cited by 9 publications

(8 citation statements)

References 15 publications

(20 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In theory, coupling drugs to RBC surface may favorably alter their pharmacokinetics (i.e., prolong life-time in circulation) and optimize interaction with components of blood coagulation and fibrinolytic systems accessible from RBC surface. Attempts in this direction included conjugation of heparin to RBC to enhance potency of anticoagulant thromboprophylaxis in patients predisposed to thrombosis256 and conjugation of pro-thrombotic RGD-containing peptide to RBC to design a substitute for platelet infusion in patients predisposed to hemorrhagic disorders 27…”

Section: Coupling Therapeutics To the Rbc Surfacementioning

confidence: 99%

See 1 more Smart Citation

Drug delivery by red blood cells: vascular carriers designed by mother nature

Muzykantov

2010

Expert Opinion on Drug Delivery

342

294

View full text Add to dashboard Cite

Importance of the field-Vascular delivery of several classes of therapeutic agents may benefit from carriage by red blood cells (RBC), for example, drugs that require delivery into phagocytic cells and those that must act within the vascular lumen. The fact that several protocols of infusion of RBCencapsulated drugs are been currently explored in patients illustrates a high biomedical importance for the field.Areas covered by this review-Two strategies for RBC drug delivery are discussed: encapsulation into isolated RBC ex vivo followed by infusion in compatible recipients and coupling therapeutics to surface of RBC. Studies of pharmacokinetics and effects in animal models and in human studies of diverse therapeutic enzymes, antibiotics and other drugs encapsulated in RBC are described and critically analyzed. Coupling to RBC surface of compounds regulating immune response and complement, affinity ligands, polyethylene glycol alleviating immune response to donor RBC and fibrinolytic plasminogen activators is d escribed. Also described is a novel, translation-prone approach for RBC drug delivery by injecting of therapeutics conjugated with fragments of antibodies providing safe anchoring of cargoes to circulating RBC, without need for ex vivo modification and infusion of RBC.What the reader will gain-The readers will gain historical perspective, current status, challenges and perspectives of medical applications of RBC for drug delivery.Take home message-RBC represent naturally designed carriers for intravascular drug delivery, characterized by unique longevity in the bloodstream, biocompatibility and safe physiological mechanisms for metabolism. Novel approaches for encapsulating drugs into RBC and coupling to RBC surface provide promising avenues for safe and widely useful improvement of drug delivery in the vascular system.

show abstract

Section: Coupling Therapeutics To the Rbc Surfacementioning

confidence: 99%

“…RBC carrying conjugated drugs reported in these studies exerted good functional activities in vitro2,3,256. However, until recently, no attempts to test these drug delivery systems in animal models have been reported, presumably because conjugation of drugs grossly compromised RBC biocompatibility.…”

Section: Coupling Therapeutics To the Rbc Surfacementioning

confidence: 99%

Drug delivery by red blood cells: vascular carriers designed by mother nature

Muzykantov

2010

Expert Opinion on Drug Delivery

342

294

View full text Add to dashboard Cite

show abstract

“…The first attempts to manage thrombosis included conjugating fibrinolytics [19] and heparin [139] to RBCs to prevent thrombosis and clotting agents to mitigate hemorrhagic disorders [17]. …”

Section: Rbc Features As Drug Carriersmentioning

confidence: 99%

“…Biocompatible coupling of PAs to RBCs maintains fibrinolytic activity [17,19,139], prolongs their circulation and minimizes diffusion into the CNS and pre-existing hemostatic plugs. RBC/PA complexes injected in mice and rats circulate orders of magnitude longer than soluble PA counterparts, providing prophylactic delivery of PArier RBC biocompatibility [60,78–82].…”

Section: Rbc Features As Drug Carriersmentioning

confidence: 99%

Delivery of Drugs Bound to erythrocytes: New Avenues for an Old Intravascular Carrier

et al. 2015

View full text Add to dashboard Cite

For several decades, researchers have used erythrocytes for drug delivery of a wide variety of therapeutics in order to improve their pharmacokinetics, biodistribution, controlled release and pharmacodynamics. Approaches include encapsulation of drugs within erythrocytes, as well as coupling of drugs onto the red cell surface. This review focuses on the latter approach, and examines the delivery of red blood cell (RBC)-surface-bound anti-inflammatory, anti-thrombotic and anti-microbial agents, as well as RBC carriage of nanoparticles. Herein, we discuss the progress that has been made in surface loading approaches, and address in depth the issues relevant to surface loading of RBC, including intrinsic features of erythrocyte membranes, immune considerations, potential surface targets and techniques for the production of affinity ligands.

show abstract

“…Surface loading on RBCs is well suited to deliver agents that modulate hemostasis, including ligands of fibrin[12], heparin[65], and fibrinolytics[66]. For example, RBC carriage prolongs circulation of plasminogen activators (PAs) by orders of magnitude[67], restricts their diffusion into the CNS and pre-existing hemostatic clots, abrogates undesirable interactions with vascular cells[68], and delivers drug to the interior of nascent thrombi[69].…”

Section: Introductionmentioning

confidence: 99%

Erythrocytes as Carriers for Drug Delivery in Blood Transfusion and Beyond

Villa

Cines

Siegel

et al. 2017

Transfusion Medicine Reviews

View full text Add to dashboard Cite

Red blood cells (RBCs) are innate carriers that can also be engineered to improve the pharmacokinetics and pharmacodynamics of many drugs, particularly bio-therapeutics. Successful loading of drugs, both internally and on the external surface of RBCs, has been demonstrated for many drugs including anti-inflammatory, anti-microbial, and anti-thrombotic agents. Methods for internal loading of drugs within RBCs are now entering clinical use. While internal loading can result in membrane disruption that may compromise biocompatibility, surface loading using either affinity or chemical ligands offers a diverse set of approaches for the production of RBC drug carriers. A wide range of surface determinants is potentially available for this approach, although there remains a need to characterize the effects of coupling agents to these surface proteins. Somewhat surprisingly, recent data also suggest that red cell mediated delivery may confer tolerogenic immune effects. Questions remaining before widespread application of these technologies include determining the optimal loading protocol, source of RBCs, and production logistics, as well as addressing regulatory hurdles. RBC drug carriers, after many decades of progress, are now poised to enter the clinic and broaden the potential application of RBCs in blood transfusion.

show abstract

Preparation and characterization of ‘heparinocytes’: erythrocytes with covalently bound low molecular weight heparin

Cited by 9 publications

References 15 publications

Drug delivery by red blood cells: vascular carriers designed by mother nature

Drug delivery by red blood cells: vascular carriers designed by mother nature

Delivery of Drugs Bound to erythrocytes: New Avenues for an Old Intravascular Carrier

Erythrocytes as Carriers for Drug Delivery in Blood Transfusion and Beyond

Contact Info

Product

Resources

About