Molecular design for recombinant adeno-associated virus (rAAV) vector production

Applied Microbiology and Biotechnology - Recombinant adeno-associated virus (rAAV) vectors are increasingly popular tools for gene therapy applications. Their non-pathogenic status, low...     

Targeted Genome Editing by Recombinant Adeno-Associated Virus （rAAV） Vectors for Generating Genetically Modified Pigs

Recombinant adeno-associated virus(rAAV) vectors have been extensively used for experimental gene therapy of inherited human diseases.Several advantages,such as simple vector construction,high targeting frequency by homologous recombination,and applicability to many cell types,make rAAV an attractive approach for targeted genome editing.Combined with cloning by somatic cell nuclear transfer(SCNT),this technology has recently been successfully adapted to generate gene-targeted pigs as models for cystic fibrosis, hereditary tyrosinemia type 1,and breast cancer.This review summarizes the development of rAAV for targeted genome editing in mammalian cells and provides strategies for enhancing the rAAV-mediated targeting frequency by homologous recombination.We discuss current development and application of the rAAV vectors for targeted genome editing in porcine primary fibroblasts,which are subsequently used as donor cells for SCNT to generate cloned genetically designed pigs and provide positive perspectives for the generation of gene-targeted pigs with rAAV in the future.     

Circulating anti-wild-type adeno-associated virus type 2 (AAV2) antibodies inhibit recombinant AAV2 (rAAV2)-mediated, but not rAAV5-mediated, gene transfer in the brain

Epidemiological studies report that 80% of the population maintains antibodies (Ab) to wild-type (wt) adeno-associated virus type 2 (AAV2), with 30% expressing neutralizing Ab (NAb). The blood-brain barrier (BBB) provides limited immune privilege to brain parenchyma, and the immune response to recombinant AAV (rAAV) administration in the brain of a naive animal is minimal. However, central nervous system transduction in preimmunized animals remains unstudied. Vector administration may disrupt the BBB sufficiently to promote an immune response in a previously immunized animal. We tested the hypothesis that intracerebral rAAV administration and readministration would not be affected by the presence of circulating Ab to wt AAV2. Rats peripherally immunized with live wt AAV2 and naive controls were tested with single intrastriatal injections of rAAV2 encoding human glial cell line-derived neurotrophic factor (GDNF) or green fluorescent protein (GFP). Striatal readministration of rAAV2-GDNF was also tested in preimmunized and naive rats. Finally, serotype specificity of the immunization against wt AAV2 was examined by single injections of rAAV5-GFP. Preimmunization resulted in high levels of circulating NAb and prevented transduction by rAAV2 as assessed by striatal GDNF levels. rAAV2-GFP striatal transduction was also prevented by immunization, while rAAV5-GFP-mediated transduction, as assessed by stereological cell counting, was unaffected. Additionally, inflammatory markers were present in those animals that received repeated administrations of rAAV2, including markers of a cell-mediated immune response and cytotoxic damage. A live virus immunization protocol generated the circulating anti-wt-AAV Ab seen in this experiment, while human titers are commonly acquired via natural infection. Regardless, the data show that the presence of high levels of NAb against wt AAV can reduce rAAV-mediated transduction in the brain and should be accounted for in future experiments utilizing this vector.     

Density-associated loss of functional receptors for somatomedin-C/insulinlike growth factor I (SM-C/IGF-I) on cultured human fibroblast monolayers

The mitogenic activity of somatomedin-C/insulinlike growth factor-I (SM-C/IGF-I) appears to be greatly influenced by cell culture conditions, especially the presence of other growth factors and nutrients in the culture medium. To investigate the effect of cell density on SM-C/IGF-I activity, we have evaluated SM-C/IGF-I binding and stimulation of DNA synthesis and cell replication as a function of cell density in cultured human fibroblast monolayers. At fibroblast concentrations of 2.7 X 10(5) and 1.48 X 10(6) cells per 60-mm dish, specific binding of [125I]SM-C/IGF-I per 10(6) cells was 170% higher in sparse than dense monolayers (9.3% vs. 3.4%). Increased binding in sparse monolayers was attributable to approximately twice as many receptors in sparse as in dense cells (31,000 vs. 16,000 sites per cell), as well as to a modest increase in the affinity constant. Similarly, half-maximal stimulation of [methyl-3H]thymidine incorporation was achieved at SM-C/IGF-I concentrations of 2.5 ng/ml in sparse cells but required 20 ng/ml in dense cells. Although this required only 45% occupancy of membrane receptors on sparse cells, and almost 80% occupancy on dense cells, the total number of occupied receptors was similar in both sparse and dense cells (approximately 13,000 receptors/cell for half-maximal stimulation). The presence of increased numbers of "functional receptors" on sparse fibroblasts thus results in enhanced sensitivity to SM-C/IFG-I stimulation of DNA synthesis and cell replication. Progressive decreases in the number of functional receptors, secondary to cell crowding, may contribute to density-dependent inhibition of fibroblast growth.     

Effects of sc administration of recombinant human insulin-like growth factor I (IGF-I) on normal human subjects

Recombinant human insulin-like growth factor I (IGF-I) was administered subcutaneously to each of 5 normal human subjects at doses of 0 mg/kg (control), 0.06 mg/kg, or 0.12 mg/kg successively at one week intervals. After 0.06 mg/kg or 0.12 mg/kg IGF-I injections, plasma IGF-I levels increased from 185 +/- 17 ng/ml (mean +/- SEM) to maximal levels of 396 +/- 21 ng/ml at 3 hours and from 169 +/- 14 ng/ml to 480 +/- 27 ng/ml at 4 hours, respectively. These two peak values were statistically different (p less than 0.05). After 0.06 mg/kg and 0.12 mg/kg IGF-I administration, blood glucose levels decreased from 85 +/- 2 mg/dl to minimal levels of 73 +/- 3 mg/dl at 3 hours and from 83 +/- 1 mg/dl to 50 +/- 4 mg/dl at 2 hours, respectively. These two minimal values were statistically different (p less than 0.001). Serum insulin and C-peptide levels were decreased in a dose dependent manner after IGF-I administration. There were no changes between blood urea nitrogen levels before and 4 hours after IGF-I administration. The urinary GH concentration decreased after 0.06 mg/kg IGF-I administration, but increased and maintained normal values after 0.12 mg/kg IGF-I administration.     

Radioimmunoassay for insulin-like growth factor I (IGF-I) using biosynthetic IGF-I

We produced antiserum to insulin-like growth factor I (IGF-I), and developed a specific and sensitive radioimmunoassay (RIA) for IGF-I using the biosynthetic IGF-I. This antiserum to IGF-I was specific for IGF-I; no cross-reactivities with multiplication stimulating activity, porcine insulin or human growth hormone (hGH) were detected. The sensitivity was 10-25 pg/tube with 50% displacement at 125 pg/tube. The intra- and inter-assay coefficients of variation for IGF-I were 5.4 and 9.7%, respectively. The plasma IGF-I levels as determined by RIA in normal adults (N = 46), patients with active acromegaly (N = 31), and pituitary dwarfs (N = 31) were 21.6 +/- 1.0, 157.3 +/- 17.0, and 2.5 +/- 0.3 ng/ml (Mean +/- SEM), respectively, indicating the levels were GH-dependent. The plasma IGF-I levels were significantly increased from 2.2 +/- 0.2 to 26.5 +/- 3.2 ng/ml after hGH administrations for three consecutive days in five pituitary dwarfs. The IGF-I levels were low in patients with hypothyroidism and liver cirrhosis, but were normal in patients with chronic renal failure. These data confirm previous reports and this radioimmunoassay proves useful in evaluating plasma IGF-I levels.     

The recombinant adeno-associated virus vector (rAAV2)-mediated apolipoprotein B mRNA-specific hammerhead ribozyme: a self-complementary AAV2 vector improves the gene expression

Background  

In humans, overproduction of apolipoprotein B (apoB) is positively associated with premature coronary artery diseases. To reduce the levels of apoB mRNA, we have designed an apoB mRNA-specific hammerhead ribozyme targeted at nucleotide sequences GUA⁶⁶⁷⁹ (RB15) mediated by adenovirus, which efficiently cleaves and decreases apoB mRNA by 80% in mouse liver and attenuates the hyperlipidemic condition. In the current study, we used an adeno-associated virus vector, serotype 2 (AAV2) and a self-complementary AAV2 vector (scAAV2) to demonstrate the effect of long-term tissue-specific gene expression of RB15 on the regulation apoB mRNA in vivo.     

Infusion of human insulin-like growth factor I (IGF-I) into malnourished rats reduces hepatic IGF-I mRNA abundance

To determine whether the serum level of IGF-I influences its hepatic synthesis through negative feedback regulation, we infused 200 micrograms/d of human IGF-I subcutaneously into young male rats eating either an energy-restricted or ad lib diet. In energy-restricted rats, a two-fold increase in serum IGF-I concentration produced a 41% increase in growth rate at the end of one week, and a 30% decrease in steady state hepatic IGF-I mRNA and 56% drop in serum GH at the end of two weeks. In ad lib fed rats, the increased serum IGF-I concentration neither enhanced growth rate nor significantly reduced hepatic IGF-I mRNA abundance or serum GH levels. These data suggest that the abundance of hepatic IGF-I mRNA in energy-restricted rats is controlled, in part, by serum IGF-I levels via negative feedback regulation.     

Characterization of insulin-like growth factor I (IGF-I) receptors of human breast cancer cells

Studies of binding of IGF-I to a plasma-membrane-enriched subcellular fraction prepared from MCF-7 human breast cancer cells reveal the presence of 0.2 pmols specific binding sites for this mitogen per mg membrane protein, with an equilibrium affinity constant of 1.45 nM-1. Competition studies with insulin, IGF-II, and an anti-IGF-I receptor antibody are consistent with the presence of specific IGF-I receptors, and SDS-PAGE showed binding to a 130 kDa subunit identical to that of receptors from human placenta. In addition, we show that IGF-I is more potent than estradiol and comparable to EGF in stimulating in vitro proliferation of MCF-7 cells, and that IGF-I-stimulated proliferation of these cells is inhibited by a blocking monoclonal antibody against the IGF-I receptor. These results demonstrate that IGF-I is an important mitogen for MCF-7 cells and that the mitogenic effect is mediated by specific IGF-I receptors.     

Secretion of polypeptides related to epidermal growth factor and insulinlike growth factor I by a human teratocarcinoma cell line

Summary To identify polypeptide growth factors for human teratocarcinoma cells, we studied the malignant ovarian teratoma-derived cell line, PA-1, that grew autonomously in serum-free medium. Medium conditioned by undifferentiated PA-1 cells strongly stimulated proliferation of the mouse mammary tumor cell line, GR 2H6, which is responsive to epidermal growth factor (EGF) and insulinlike growth factor-I (IGF-I). After ammonium sulfate precipitation, PA-1 conditioned medium was analyzed by anion exchange chromatography and bioassay of elution fractions on GR 2H6 cells that were grown in medium deficient in either EGF or insulin. The results demonstrated that PA-1 CM contained factors that can substitute for EGF and IGF-I in stimulating growth of GR 2H6 cells. Western blots of peak mitogenic fractions revealed low molecular weight polypeptides that were immunoreactive with either anti-EGF or anti-IGF-I antibodies. Indirect immunofluorescence staining of PA-1 cells with monoclonal antibodies localized receptors for each growth factor, and binding of human EGF and IGF-I to these cells was quantified by radioreceptor assays. Secretion of factors closely related to EGF and IGF-I by PA-1 cells under serum-free conditions may provide a novel model system to study molecular mechanisms of autocrine growth stimulation in teratocarcinomas.     

Direct identification of disulfide bond linkages in human insulin-like growth factor I (IGF-I) by chemical synthesis

The primary structure of human IGF-I, except for the disulfide bond system, has been reported by Rinderknecht and Humbel. IGF-I afforded the corresponding characteristic peptide fragment on V8 protease digestion, which contained Cys6, Cys47, Cys48, and Cys52. Two possible fragments, Type I with Cys6-Cys47 and Cys48-Cys52, and Type II with Cys6-Cys48 and Cys47-Cys52, were synthesized. The disulfide bond system of IGF-I was unequivocally determined to be the Type II form along with Cys18-Cys61. Interestingly, the Type I system was included in the disulfide bond isomer produced as the main by-product in the refolding step on IGF-I synthesis by the recombinant DNA method.     

Overexpression of the human insulinlike growth factor I receptor promotes ligand-dependent neoplastic transformation.

The human insulinlike growth factor I receptor was overexpressed in NIH 3T3 cells as well as human and rat primary fibroblast strains. The NIH 3T3 cells displayed a ligand-dependent, highly transformed phenotype. When exposed to insulinlike growth factor I or supraphysiologic levels of insulin, NIH 3T3 cells that expressed high levels of receptors formed aggregates in tissue culture dishes, colonies in soft agar, and tumors in nude mice. Expression of 1 million receptors per cell, a 40-fold increase above the base-line level, was required for anchorage-independent growth. Primary fibroblasts that expressed high levels of receptors displayed a ligand-dependent change in morphology and an increase in saturation density but did not acquire a fully transformed phenotype. The results demonstrate that when amplified, this ubiquitous growth factor receptor behaves like an oncogenic protein and is capable of promoting neoplastic growth in vivo.     

Insulin-like growth factor-I (IGF-I) attenuation of growth hormone is enhanced by overexpression of pituitary IGF-I receptors.

Insulin-like growth factor-I (IGF-I) attenuates GH gene expression by a receptor-mediated mechanism in pituitary cells. We, therefore, isolated neomycin-resistant stable GC cell transfectants over-expressing human IGF-I receptor cDNA (IGFIR-cDNA) cloned in an Rous sarcoma virus-directed expression vector. A transfection control contained the IGFIR-cDNA cloned in the reverse orientation. Southern analysis confirmed incorporation of human IGFIR-cDNA sequences into rat genomic DNA. Immunoprecipitation of metabolically labeled [35S]methionine stably transfected cells revealed a 200-kDa human IGF-I receptor precursor protein. Growth rate and basal GH secretion were not altered in transfected cells. Although transfected and control cells had a similar Kd for IGF-I binding (0.43 and 0.40 nM, respectively), IGF-I-binding sites were induced 17-fold (384,000 vs. 22,000 sites/cell). Treatment of cells with IGF-I (6.5 nM) maximally attenuated GH secretion by 80% compared to 40% attenuation in control cells (P less than 0.0001). Maximal suppression of GH in transfectants occurred within 15 h of treatment, and GH secretion by control cells was only maximally suppressed after 42 h. The ED50 of IGF-I suppression of GH secretion in transfectants after 15 h was 0.5 nM. These results demonstrate that transfectants overexpressing human IGF-I receptor are hyperresponsive to exogenous IGF-I. These data indicate that IGF-I receptor number plays an important role in mediating the signal transduction of IGF-I to the GH gene.     

Separation of fast from slow anabolism by site-specific PEGylation of insulin-like growth factor I (IGF-I)

Insulin-like growth factor I (IGF-I) has important anabolic and homeostatic functions in tissues like skeletal muscle, and a decline in circulating levels is linked with catabolic conditions. Whereas IGF-I therapies for musculoskeletal disorders have been postulated, dosing issues and disruptions of the homeostasis have so far precluded clinical application. We have developed a novel IGF-I variant by site-specific addition of polyethylene glycol (PEG) to lysine 68 (PEG-IGF-I). In vitro, this modification decreased the affinity for the IGF-I and insulin receptors, presumably through decreased association rates, and slowed down the association to IGF-I-binding proteins, selectively limiting fast but maintaining sustained anabolic activity. Desirable in vivo effects of PEG-IGF-I included increased half-life and recruitment of IGF-binding proteins, thereby reducing risk of hypoglycemia. PEG-IGF-I was equipotent to IGF-I in ameliorating contraction-induced muscle injury in vivo without affecting muscle metabolism as IGF-I did. The data provide an important step in understanding the differences of IGF-I and insulin receptor contribution to the in vivo activity of IGF-I. In addition, PEG-IGF-I presents an innovative concept for IGF-I therapy in diseases with indicated muscle dysfunction.     

Constitutive phosphorylation of the receptor for insulinlike growth factor I in cells transformed by the src oncogene.

Many oncogene products have been shown to bear strong homology to or to interact with components of normal cellular signal transduction. We have previously shown that a glycoprotein band of 95 kilodaltons (kDa) becomes tyrosine phosphorylated in chick cells transformed by Rous sarcoma virus and that tyrosine phosphorylation of this protein band correlates tightly with phenotypic transformation in cells infected with a large and diverse panel of src mutants (L. M. Kozma, A. B. Reynolds, and M. J. Weber, Mol. Cell. Biol. 10:837-841, 1990). In this communication, we report that a component of the 95-kDa glycoprotein band is related or identical to the 95-kDa beta subunit of the receptor for insulinlike growth factor I (IGF-I). We found that the beta subunit of the IGF-I receptor comigrated on polyacrylamide gels with a component of the 95-kDa glycoprotein region from src-transformed cells under both reducing and nonreducing gel conditions and had a very similar partial phosphopeptide map. To further test the hypothesis that the beta subunit of the IGF-I receptor becomes tyrosine phosphorylated in cells transformed by pp60src, a human cell line that expressed the IGF-I receptor was transformed by src. Comparison of IGF-I receptors immunoprecipitated from normal and transformed cells revealed that the beta subunit of the IGF-I receptor became constitutively tyrosine phosphorylated in src-transformed cells. Moreover, IGF-I receptor phosphorylation induced by src was synergistic with that induced by the hormone: IGF-I-stimulated autophosphorylation of the receptor was much greater in src-transformed cells than in untransformed HOS cells even at maximal concentrations of IGF-I. This increased responsiveness to IGF-I was not due to increases in receptor number, time course of phosphorylation, or affinity for hormone. Finally, no IGF-I-like activity could be detected in culture supernatants collected from the src-transformed cells, suggesting that the increased receptor phosphorylation observed in the src-transformed cells may be mediated by an intracellular mechanism rather than an external autocrine stimulation. Our data demonstrate that the IGF-I receptor becomes constitutively tyrosine phosphorylated in src-transformed cells. This finding raises the possibility that pp60v-src alters growth regulation at least in part by phosphorylating and activating this growth factor receptor.     

TDAG51 mediates the effects of insulin-like growth factor I (IGF-I) on cell survival

Insulin-like growth factor-I (IGF-I) receptors and insulin receptors belong to the same subfamily of receptor tyrosine kinases and share a similar set of intracellular signaling pathways, despite their distinct biological actions. In the present study, we evaluated T cell death-associated gene 51 (TDAG51), which we previously identified by cDNA microarray analysis as a gene specifically induced by IGF-I. We characterized the signaling pathways by which IGF-I induces TDAG51 gene expression and the functional role of TDAG51 in IGF-I signaling in NIH-3T3 (NWTb3) cells, which overexpress the human IGF-I receptor. Treatment with IGF-I increased TDAG51 mRNA and protein levels in NWTb3 cells. This effect of IGF-I was specifically mediated by the IGF-IR, because IGF-I did not induce TDAG51 expression in NIH-3T3 cells overexpressing a dominant-negative IGF-I receptor. Through the use of specific inhibitors of various protein kinases, we found that IGF-I induced TDAG51 expression via the p38 MAPK pathway. The ERK, JNK, and phosphatidylinositol 3-kinase pathways were not involved in IGF-I-induced regulation of TDAG51. To assess the role of TDAG51 in IGF-I signaling, we used small interfering RNA (siRNA) expression vectors directed at two different target sites to reduce the level of TDAG51 protein. In cells expressing these siRNA vectors, TDAG51 protein levels were decreased by 75-80%. Furthermore, TDAG51 siRNA expression abolished the ability of IGF-I to rescue cells from serum starvation-induced apoptosis. These findings suggest that TDAG51 plays an important role in the anti-apoptotic effects of IGF-I.     

An accumulation of insulin-like growth factor I (IGF-I) in human myometrium and uterine leiomyomas in various stages of tumour growth

It is commonly thought that uterine leiomyomas result from hyperstimulation of myometrium by ovarian hormones. Some observations suggest that cytokines and growth factors are intermediate elements through which the ovarian hormones may exert their growth-stimulatory effects on leiomyomas. Human myometrium and uterine leiomyomas of various weights were homogenised and extracted with 1 M acetic acid or with 0.05 M Tris/HCl, pH 7.6. The extracts were assayed for IGF-I using the ELISA technique. It was found that 0.05 M Tris/HCl extracts contained several times more IGF-I than the 1 M acetic acid extracts. Nanogram amounts of IGF-I were found in both control myometrium and in leiomyomas. It was found that the amounts of IGF-I extracted from leiomyomas were distinctly higher in comparison to control myometrium and they increased as a function of tumour growth. Polyacrylamide gel electrophoresis, followed by Western immunoblotting, demonstrated that IGF-I in acidic and alkaline extracts exists as stable complexes, probably with extracellular matrix components. No free IGF-I was detected. Furthermore, it was found that some components of both the acidic and alkaline extracts were able to bind exogenous (125)I-labeled IGF-I. It is suggested that IGF-I plays an important role both in myometrium biology and in the growth of uterine leiomyomas.     

Characterization of insulin-like growth factor I (IGF-I) receptor mutants for their effects on IGF-I- and interleukin 4-mediated DNA synthesis of 32D cells

Recently we demonstrated that overexpression of the wild type insulin-like growth factor I receptor (IGF-IRWT) in 32D myeloid progenitor cells led to cell proliferation in response to interleukin 4 (IL-4) as well as insulin-like growth factor I (IGF-I) in the absence of insulin receptor substrate expression (Soon, L., Flechner, L., Gutkind, J. S., Wang, L. H., Baserga, R., Pierce, J. H., and Li, W. (1999) Mol. Cell. Biol. 19, 3816-3828). To understand the structural importance of insulin-like growth factor I receptor (IGF-IR) in mediating IL-4- and IGF-I-induced DNA synthesis, we transfected various mutants of IGF-IR to 32D cells. Our results show that most mutants, including Y1250F, Y1251F, Y1250F/Y1251F, S1280A/S1281A/S1282A/S1283A, Y1316F, and 1245d, still retained mitogenic response toward IGF-I or IL-4. However, the Y950F, Y1131F, and Y1135F mutants were not able to respond to either ligand. The H1293F/K1294R and 1293d mutants reduced response toward IGF-I but not to IL-4. Phosphorylation of Shc was greatly reduced in those three mutants that lost mitogenic response. The MAPK activity was much lower in Y1131F and Y1135F mutants, indicating the importance of the Shc/MAPK pathway in IGF-I-induced mitogenesis. Importantly, the synergistic effect of these two factors on DNA synthesis was not affected in cells expressing most of the mutants, even in those three that had lower mitogenic response toward a single ligand. These results suggest that an unidentified pathway(s) may be induced upon co-addition of IGF-I and IL-4 that sustains the intact mitogenesis.