Titer determination of Ad5 in blood: a cautionary note.

Recombinant adenoviruses are presently the most efficient in vivo gene transfer system available. Targeting single organs or large tumors by adenoviral vectors requires an intravascular route of application. During the first pass of viral particles through the vascular bed of the target tissue, virus uptake is not quantitative and indefinite amounts of particles leak into circulation. To determine the amount of leaking particles and to calculate organ-specific uptake (in-/outflow ratio), it is necessary to titrate virus particles directly in blood. In preclinical and clinical trials titration is currently mostly done with blood plasma instead of full blood. However, this technique provides valid results only as long as there is no affinity between adenovirus particles and erythrocytes. In this study we demonstrate that Ad5 particles, as mostly employed for gene therapy, have a strong affinity to human erythrocytes. At 60 min after coincubation of human erythrocytes and Ad5 particles, more than 98% of the particles are attached to the surface of erythrocytes. Therefore, ignoring the amount of red cell bound particles by performing titration in plasma leads to severe miscalculation of organ-specific transfer rates or virus circulation half-life. The biological impact of an increased affinity between virus particles and erythrocytes will be discussed.

Coexpression of p21(WAF1/CIP1) in adenovirus vector transfected human primary hepatocytes prevents apoptosis resulting in improved transgene expression.

Replication-deficient adenovirus (Ad vector) is one of the most effective gene transfer systems. However, its employment in human gene therapy trials is hampered by Ad vector associated cytotoxicity and induction of apoptosis of the infected cells. Here, we identify one underlying mechanism as uncoupling of S phase and mitosis of the cell cycle leading to apoptosis and decline of transgene expression. Moreover, we demonstrate a strategy to avoid Ad vector associated cytotoxicity and induction of apoptosis in human primary hepatocytes by coinfection of Ad vector carrying the cDNA of choice and the cell cycle regulator p21(WAF1/CIP1) (p21). In addition, animal experiments were performed using Ad vector directed coexpression of p21 and human alpha 1-antitrypsin. As serum analysis of alpha 1-antitrypsin after Ad vector mediated gene transfer to the liver of mice revealed, this strategy resulted also in the improvement of transgene expression by two orders of magnitude. These data suggest that coexpression of p21 and Ad vector carrying a therapeutic gene may be a promising strategy to avoid cytotoxicity and induction of apoptosis leading to improved safety in human gene therapy.

Complement activation by recombinant adenoviruses.

Recombinant adenoviruses are currently the most important vector system in gene therapy. Adenoviruses frequently cause upper respiratory tract infections in humans and anti-adenoviral antibodies are found in 35-70% of the population. Therefore in the majority of potential patients receiving adenoviral gene therapy, the contact of virus particles and blood will lead to the formation of antigen-antibody complexes. These complexes have the ability to induce inflammatory reactions via an activation of the complement system. We have determined the level of C3a (the most reactive complement component) generated in isolated citrate plasma of healthy individuals after challenge with recombinant and wild-type adenoviruses in amounts corresponding to virus blood levels to be expected in patients during adenoviral gene therapy. All plasma samples containing anti-adenoviral antibodies showed a substantial, dose-dependent generation of C3a. A virus plasma level of about 7.5 x 10(9) particles/ml (which was calculated to be the highest blood level reached during clinical trials in the past) induced an average release of about 3000 ng/ml C3a (baseline levels <140 ng/ml). Analyzing the nature of anti-adenoviral antibodies showed, that not only antibodies with neutralizing properties (anti-Ad5), but also non-neutralizing anti-adenoviral antibodies are capable of complement activation. This study suggests that complement activation can be ignored in local low-dose applications of recombinant adenoviruses, but warrants attention after systemic application of large viral quantities. In clinical protocols aiming at systemic virus application, measures for monitoring and controlling the complement system should be included on a regular basis.

CD30 ligand expression in nonmalignant and Hodgkin's disease-involved lymphoid tissues.

The CD30 ligand (CD30L) is a type II transmembrane glycoprotein of the tumor necrosis factor ligand superfamily. Recent cloning of CD30L has enabled studies to explore its function and tissue distribution. For instance, recombinant CD30L has been shown to co-stimulate T cells and to act as mitogen for Hodgkin's disease (HD)-derived cell lines. The counter-receptor for CD30L, ie, CD30, is a type I cytokine receptor that is highly expressed by activated T cells, Hodgkin and Reed-Sternberg (H-RS) cells, and anaplastic large cell lymphoma cells. In the present study, recombinant membrane-bound and soluble human CD30L were instrumental to raise a monoclonal antibody (M80) recognizing membrane-bound CD30L on transfected and native cells. With this reagent, a panel of cultured lymphoma-derived cell lines as well as primary normal, reactive, and HD-involved lymphoid tissues were examined for expression of CD30L by immunostaining and flow cytometry. In reactive lymphnodes and tonsils, CD30L was expressed by a small subset of lymphoid cells, histiocytes, and granulocytes. Higher levels of CD30L expression were noted in HD lesions among bystander cells; ie, T cells and granulocytes that surrounded H-RS cells. Native CD30L displayed at the cell surface was functionally active as shown by the ability of fixed granulocytes to interact with CD30+ cell lines. Moreover, CD30L was detectable, although to a lower staining intensity, in primary H-RS cells of all HD tissues investigated regardless of the histological subtype and the phenotype of H-RS cells (ie, CD30+/CD40+ versus CD30-/CD40+). Co-expression of CD30 and CD30L that was seen on H-RS cells of all, except the CD30- nodular lymphocyte predominant, subtypes of HD may point to the use of this pair of molecules in paracrine and/or autocrine mitogenic cell interactions. Monoclonal antibody M80 may thus represent a useful tool for studying CD30L expression on cultured cell lines and primary cells from normal, reactive, and malignant tissues.

Further characterization of the mucin antigen associated with malignant transformation of human colonic mucosa, detectable with the monoclonal antibody AM-3.

The recently obtained monoclonal antibody AM-3 reacts with an antigenic determinant present in several normal and neoplastic human tissues. In the large intestine the expression of the antigen is very low, but it increases dramatically after malignant transformation. In colonic adenomas the antigen expression correlates with the grade of dysplasia. The detected epitope is membrane-bound in the epithelial membranes of the liver, kidney and esophagus, while the membrane-bound and secretory forms are detectable in the salivary gland and in transformed colonic mucosa. However, the epitope is located on different molecules in all the investigated tissues. Its resistance to denaturing agents and its sensitivity to neuraminidase treatment in preparations from every investigated tissue suggest that it is a common carbohydrate-containing epitope.