1. The glycocalyx protects erythrocyte-bound tissue-type plasminogen activator from enzymatic inhibition
- Author
-
Douglas B. Cines, Kumkum Ganguly, Vladimir R. Muzykantov, John Leferovich, Randal Westrick, and Juan-Carlos Murciano
- Subjects
Genetically modified mouse ,Lysis ,Erythrocytes ,Transgene ,Mice, Transgenic ,In Vitro Techniques ,Glycocalyx ,Iodine Radioisotopes ,Mice ,In vivo ,Plasminogen Activator Inhibitor 1 ,Animals ,Blood Coagulation ,Serpins ,Pharmacology ,chemistry.chemical_classification ,Mice, Knockout ,integumentary system ,Chemistry ,Fibrinolysis ,hemic and immune systems ,Molecular biology ,In vitro ,Mice, Inbred C57BL ,Enzyme ,Glucose ,Tissue Plasminogen Activator ,Molecular Medicine ,Plasminogen activator ,circulatory and respiratory physiology - Abstract
Coupling tissue-type plasminogen activator (tPA) to carrier red blood cells (RBC) prolongs its intravascular life span and permits its use for thromboprophylaxis. Here, we studied the susceptibility of RBC/tPA to PA inhibitors including plasminogen activator inhibitor-1 (PAI-1) that constrain its activity and may reduce the duration of its effect. Despite lesser spatial and diffusional limitations, soluble tPA was far less effective than RBC/tPA in dissolving clots formed in vitro from blood of wild-type (WT) mice (40 versus 80% lysis at equal doses of tPA). Furthermore, after i.v. injection, soluble tPA lost activity faster in transgenic mice expressing a high level of PAI-1 than in WT mice, whereas the activity of RBC/tPA was unaffected. PAI-1 inactivated soluble tPA at equimolar ratios in vitro, but it had no effect on the amidolytic or fibrinolytic activity of RBC/tPA. RBC/tPA was also more resistant than soluble tPA to in vitro inhibition by other serpins (alpha2-macroglobulin and alpha1-antitrypsin) and pathologically high levels of glucose. However, coupling to RBC did not protect a truncated tPA mutant, Retavase, from plasma inhibitors. Chemical removal of the RBC glycocalyx negated tPA protection from inhibitors: tPA coupled to glycocalyx-stripped RBC bound twice as much 125I-PAI-1 as did tPA coupled to naive RBC, and susceptibility of the bound tPA to inhibition by PAI-1 was restored. Thus, the RBC glycocalyx protects RBC-coupled tPA against inhibition. Resistance to high levels of inhibitors in vivo contributes to the potential utility of RBC/tPA for thromboprophylaxis.
- Published
- 2007