High-Level Protein Secretion into Blood Circulation after Electric Pulse-Mediated Gene Transfer into Skeletal Muscle

High-Level Protein Secretion into Blood Circulation after Electric Pulse-Mediated Gene Transfer into Skeletal Muscle

Numerous diseases are linked to the absence or insufficient concentration of a specific plasma protein. Gene transfer is an appealing strategy for correction of such diseases. We report high and sustained plasma secretion of human secreted alkaline phosphatase and of human Factor IX by skeletal musc...

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Veröffentlicht in:Molecular therapy 2000-09, Vol.2 (3), p.204-210
Hauptverfasser: Bettan, Mickaël, Emmanuel, Florence, Darteil, Raphaël, Caillaud, Jean-Michel, Soubrier, Fabienne, Delaere, Pia, Branelec, Didier, Mahfoudi, Abderrahim, Duverger, Nicolas, Scherman, Daniel
Format: Artikel
Sprache:eng
Schlagworte:
Alkaline Phosphatase - blood
Alkaline Phosphatase - genetics
Alkaline Phosphatase - secretion
Animals
blood
Calibration
circulation
Cytomegalovirus
electric pulse-mediated gene transfer
Electroporation - methods
electrotransfer
Factor IX - genetics
Factor IX - secretion
Female
Gene therapy
gene transfer
Gene Transfer Techniques
human Factor IX
Humans
Mice
Mice, Inbred C57BL
Mice, Nude
Mice, SCID
Monoclonal antibodies
Muscle, Skeletal - enzymology
Muscle, Skeletal - metabolism
Musculoskeletal system
Phosphatase
Plasma
Plasmids
Proteins
secreted human placental alkaline phosphatase
skeletal muscle
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Zusammenfassung:Numerous diseases are linked to the absence or insufficient concentration of a specific plasma protein. Gene transfer is an appealing strategy for correction of such diseases. We report high and sustained plasma secretion of human secreted alkaline phosphatase and of human Factor IX by skeletal muscle of mice. This was obtained by delivering square-wave unipolar electric pulses of low field strength (200 V/cm) and long duration (20 ms) to skeletal muscle previously injected with plasmid DNA encoding for the secreted protein. This intramuscular electrotransfer method allows 30- to 150-fold increase in reporter protein secretion, compared to simple plasmid DNA injection. This increase allows one to obtain values of up to 2200 ng/ml of a reporter circulating protein. Moreover, this high level of secretion remains stable for several months.
ISSN:1525-0016
1525-0024
DOI:10.1006/mthe.2000.0117