Role of Essential Metal Ions in AAV Vector-Mediated Transduction.
Mol Ther Methods Clin Dev
; 18: 159-166, 2020 Sep 11.
Article
em En
| MEDLINE
| ID: mdl-32637447
Metal elements are essential components of approximately half of all cellular proteins, and approximately one-third of all known enzymes thus far are metalloenzymes. Several cellular proteins and enzymes undoubtedly impact the transduction efficiency of recombinant adeno-associated virus (AAV) vectors, but the precise role of metal ions in this process has not been studied in detail. In the present studies, we systematically evaluated the effects of all 10 essential metal ions (calcium, cobalt, copper, iron, magnesium, manganese, molybdenum, potassium, sodium, and zinc) on the transduction efficiency of AAV vectors. We report herein that five essential metal ions (iron, magnesium, manganese, molybdenum, and sodium) had little to no effect, and calcium strongly inhibited the transduction efficiency of AAV2 vectors. Whereas copper and potassium increased the transduction efficiency by â¼5-fold and â¼2-fold, respectively, at low concentrations, both essential metals were strongly inhibitory at higher concentrations. Calcium also inhibited the transduction efficiency by â¼3-fold. Two metal ions (cobalt and zinc) increased the transduction efficiency up to â¼10-fold in a dose-dependent manner. The combined use of cobalt and zinc resulted in more than an additive effect on AAV2 vector transduction efficiency (â¼30-fold). The transduction efficiency of AAV serotypes 1 through 6 (AAV1-AAV6) vectors was also augmented by zinc. Similarly, the transduction of both single-stranded (ss) and self-complementary (sc) AAV3 vectors was enhanced by zinc. Zinc treatment also led to a dose-dependent increase in expression of a therapeutic protein, the human clotting factor IX (hF.IX), mediated by scAAV3 vectors in a human hepatic cell line. This simple strategy of essential metal ion-mediated enhancement may be useful to lower the dose of AAV vectors for their optimal use in human gene therapy.
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2020
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Article