Conventional methods for rAAV purification that are based vector that is more than 99% pure. More importantly, the on cesium chloride ultracentrifugation have often produced new purification procedures consistently produce rAAV vector preparations of variable quality and resulted in sigstocks with particle-to-infectivity ratios of less than 100, nificant loss of particle infectivity. We report here several which is significantly better than conventional methods. novel purification strategies that involve the use of non-The new protocol increases the overall yield of infectious ionic iodixanol gradients followed by ion exchange or heprAAV by at least 10-fold and allows for the complete purifiarin affinity chromatography by either conventional or cation of rAAV in 1 working day. Several of these methods HPLC columns. These methods result in more than 50%should also be useful for large-scale production. recovery of rAAV from a crude lysate and routinely produce
Sustained secretion of human alpha-1-antitrypsin from murine muscle transduced with adeno-associated virus vectors
Recombinant adeno-associated virus (AAV) vectors have been used to transduce murine skeletal muscle as a platform for secretion of therapeutic proteins. The utility of this approach for treating alpha-1-antitrypsin (AAT) deficiency was tested in murine myocytes in vitro and in vivo. AAV vectors expressing the human AAT gene from either the cytomegalovirus (CMV) promoter (AAV-C-AT) or the human elongation factor 1-␣ promoter (AAV-E-AT) were examined. In vitro in C2C12 murine myoblasts, the expression levels in transient transfections were similar between the two vectors. One month after transduction, however, the human elongation factor 1 promoter mediated 10-fold higher stable human AAT expression than the CMV promoter. In vivo transduction was performed by injecting doses of up to 1.4 ؋ 10 13 particles into skeletal muscles of several mouse strains (C57BL͞6, BALB͞c, and SCID). In vivo, the CMV vector mediated higher levels of expression, with sustained serum levels over 800 g͞ml in SCID and over 400 g͞ml in C57BL͞6 mice. These serum concentrations are 100,000-fold higher than those previously observed with AAV vectors in muscle and are at levels which would be therapeutic if achieved in humans. High level expression was delayed for several weeks but was sustained for over 15 wk. Immune responses were dependent upon the mouse strain and the vector dosage. These data suggest that recombinant AAV vector transduction of skeletal muscle could provide a means for replacing AAT or other essential serum proteins but that immune responses may be elicited under certain conditions. Alpha-1-antitrypsin (AAT) deficiency is the second most common monogenic lung disease, accounting for 3% of all early deaths due to obstructive pulmonary disease. AAT is produced in the liver, secreted into the serum, and circulated to the lung where it protects elastin fibers and other connective tissue components of the alveolar wall from degradation by neutrophil elastase. Current therapy for AAT deficiency includes avoidance of cigarette smoke exposure and weekly i.v. infusions of recombinant human AAT (hAAT) protein (1). Attempts at gene augmentation have been limited by the short duration of expression and by the high circulating levels of AAT, which are required for therapeutic effect (800 g͞ml) (2).Several groups have demonstrated that adeno-associated virus (AAV) vectors are capable of stable in vivo expression (3-5) and are less immunogenic than other viral vectors (6). AAV is a nonpathogenic human parvovirus whose life cycle includes a mechanism for long-term latency. In the case of wild-type AAV (wtAAV), this persistence is due to sitespecific integration into a site on human chromosome 19 (AAVS1) (7), whereas with recombinant AAV (rAAV) vectors, persistence occurs by both episomal persistence and integration into non-chromosome 19 locations (8-9). rAAV latency also differs from that of wtAAV in that wtAAV is rapidly converted to double-stranded DNA in the absence of helper virus (e.g., Ad) infection, whereas rAAV-leading st...
5E6 is a cell surface molecule expressed on a subpopulation of murine natural killer (NK) cells that are involved in the specific rejection of H-2d or H-2f (hemopoietic histocompatibility determinant 2) bone marrow cell grafts. Here, we isolated and cloned the gene encoding 5E6 and determined the nucleotide sequence of the cDNA. 5E6 is nearly identical to Ly-49C; the deduced amino acid sequence reveals a polypeptide of 266 amino acids with a molecular weight of 31,284 that contains multiple cysteine residues to explain its disulfide-linked homodimer structure and five potential N-linked glycosylation sites. 5E6 is a type II integral membrane protein with an extracellular carbohydrate recognition domain characteristic of C-type (Ca(2+)-dependent) animal lectins. Chromosomal mapping indicates that 5E6 is located within the NK gene complex on chromosome 6. The sequence of 5E6 mRNA and the degree of glycosylation of 5E6 protein are under genetic control. Immunoprecipitation before removal of N-linked sugars reveals different size molecules. There are several nucleotide differences among BALB/c, B6, and NZB mRNAs; however, none of them would be expected to affect N-glycosylation. Of particular interest are two findings: (a) BALB/c, B6, and (BALB/c x B6)F1 5E6 reduced molecules are approximately 65, 54, and 54 kD, and (b) the cDNA sequence of (BALB/c x B6)F1 is identical to B6. Thus, there appears to be allelic exclusion of 5E6 expression that may be related to the ability of F1 hybrid mice to reject parental H-2d bone marrow cell grafts.
The ability to transfer immunoregulatory, cytoprotective, or antiapoptotic genes into pancreatic islet cells may allow enhanced posttransplantation survival of islet allografts and inhibition of recurrent autoimmune destruction of these cells in type 1 diabetes. However, transient transgene expression and the tendency to induce host inflammatory responses have limited previous gene delivery studies using viral transfer vectors. We demonstrate here that recombinant adeno-associated virus (rAAV) serotype 2, a vector that can overcome these limitations, effectively transduces both human and murine pancreatic islet cells with reporter genes as well as potentially important immunoregulatory cytokine genes (interleukin-4, interleukin-10), although a very high multiplicity of infection (10,000 infectious units/islet equivalent) was required. This requirement was alleviated by switching to rAAV serotype 5, which efficiently transduced islets at a multiplicity of infection of 100. Although adenovirus (Ad) coinfection was required for efficient ex vivo expression at early time points, islets transduced without Ad expressed efficiently when they were transplanted under the renal capsule and allowed to survive in vivo. The rAAVdelivered transgenes did not interfere with islet cell insulin production and were expressed in both -and non--cells. We believe rAAV will provide a useful tool to deliver therapeutic genes for modulating immune responses against islet cells and markedly enhance longterm graft survival. Diabetes 50:515-520, 2001A ttempts to use islet cell transplantation for reversing type 1 diabetes have been documented for more than two decades; however, the procedure has been largely unsuccessful (1,2). Concurrent mechanisms believed to underlie this lack of success include rejection, recurrence of anti-islet cell autoimmunity, and nonspecific islet loss because of perturbation of the graft microenvironment (e.g., inflammation, ischemia/reperfusion). A number of candidate gene products may prevent immune-mediated destruction and extend graft survival (e.g., interleukin [IL]-4, manganese superoxide dismutase, Bcl-2) (3). Furthermore, these genes may prove safer and more effective than systemic pharmacological immunosuppression because some agents are themselves potentially prodiabetogenic (e.g., cyclosporine, FK506, steroids) through imposition of increased metabolic demand. However, such studies have been limited by the lack of gene transfer vectors that are safe, efficient, and long lasting (4). Recombinant adeno-associated virus (rAAV) vectors have recently demonstrated some superiority to other viral and nonviral systems with regard to their in vivo safety, efficiency, and duration of action both in animal models and in early persistent infections in humans without known pathology and with only modest immune responses (5-10). rAAV retains these beneficial properties and therefore has the potential to be an ideal vector for in vivo gene transfer. However, previous studies have failed to demonstrate rAAV transdu...
The goals of these experiments were to efficiently deliver aerosolized adeno-associated virus (AAV) vector to the lungs of Rhesus macaques and to measure gene transfer and expression. To determine optimal lung deposition, we compared four techniques of delivering aerosolized saline admixed with the radioisotope (99m)technetium ((99m)Tc) nebulized through a mouthpiece (Neb Oral), a laryngeal airway mask (Neb LMA), or an endotracheal tube (Neb ETT), or bronchoscopically delivered by Microsprayer (PennCentury). Total lung deposition fraction, as indicated by gamma scintigraphy, averaged 0.5% (Neb Oral), 1.2% (Neb LMA), 1.8+/-0.4% (Neb ETT), and 62.3+/-11.3% (Microsprayer). Because microspraying was the most efficient method of delivery, we used it to administer saline with (99m)Tc-labeled diethylene-triamine penta-acetic acid (DTPA) admixed with 9 x 10(11) infectious units (i.u.) of AAV serotype 2 (rAAV2) vector encoding green fluorescent protein (GFP; rAAV2-GFP). Initial total and regional lung depositions were quantified by scintigraphy. We analyzed the tissue three weeks later for vector-specific DNA transduction and RNA expression. Radioisotope was detected in all lung regions, reflecting an average dose of 1.33 x 10(10)+/-9.5 x 10(9) i.u. per region. Regional data indicated an increase in expression when the dose exceeded 3 x 10(9) i.u. (P=0.030). We conclude that expression of rAAV2-GFP in lungs appears to be related to depositing a regional threshold dose greater than 3 x 10(9) i.u., easily achieved by bronchoscopic microspraying.
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