Antisense inhibition of AT(1) receptor in vascular smooth muscle cells using adeno-associated virus-based vector

Vascular smooth muscle cells (VSMCs) are the main peripheral target for vas oconstriction and growth-promoting activity of angiotensin II (Ang II), act ing through angiotensin type 1 receptors (AT(1)-R). Current antihypertensio n treatments include daily reductions in the effects of Ang II. To decrease an effect of Ang II in a prolonged fashion, we have developed an adeno-ass ociated virus (AAV) vector with antisense DNA for AT(1)-R. AAV has many adv antages over other viral vectors. AAV is nonpathogenic, does not stimulate inflammation or immune reaction and enters nondividing cells, and provides stable long-term gene expression. To test AAV in VSMCs, we constructed and tested plasmid AAV (pAAV) and recombinant AAV (rAAV) with AT(1)-R antisense DNA. rAAV was constructed with a cassette containing a cytomegalovirus pro moter and the cDNA for the AT(1)-R inserted in the antisense direction. The cassette was packaged into the virion. Transfection of VSMCs with the pAAV antisense to AT(1)-R produced a significant reduction in the amount of AT( 1)-R (P<0.01). Transduction of VSMCs with the rAAV-AT(1)-R-AS at MOI of 5 a lso showed significant reduction of AT(1)-R and long-lasting expression of the transgene for at least 8 weeks. The reduction of AT(1)-R number in VSMC s was concomitant with a decrease in the Ang II-stimulated increase of intr acellular calcium. The results show that AAV vector delivers AT(1)-R antise nse to inhibit AT(1)-R in VSMCs. For the purpose of gene therapy for hypert ension, it is necessary to demonstrate the effectiveness of a vector system in VSMCs. This study provides support for the potential use of AAV AT(1)-R antisense in VSMCs.