Anatomical Differences Determine Distribution of Adenovirus after Convection-Enhanced Delivery to the Rat Brain

Background: Convection-enhanced delivery (CED) of adenoviruses offers the potential of widespread virus distribution in the brain. In CED, the volume of distribution (Vd) should be related to the volume of infusion (Vi) and not to dose, but when using adenoviruses contrasting results have been reported. As the characteristics of the infused tissue can affect convective delivery, this study was performed to determine the effects of the gray and white matter on CED of adenoviruses and similar sized super paramagnetic iron oxide nanoparticles (SPIO). Methodology/Principal Findings: We convected AdGFP, an adenovirus vector expressing Green Fluorescent Protein, a virus sized SPIO or trypan blue in the gray and white matter of the striatum and external capsule of Wistar rats and towards orthotopic infiltrative brain tumors. The resulting Vds were compared to Vi and transgene expression to SPIO distribution. Results show that in the striatum Vd is not determined by the Vi but by the infused virus dose, suggesting diffusion, active transport or receptor saturation rather than convection. Distribution of virus and SPIO in the white matter is partly volume dependent, which is probably caused by preferential fluid pathways from the external capsule to the surrounding gray matter, as demonstrated by co-infusing trypan blue. Distant tumors were reached using the white matter tracts but tumor penetration was limited. Conclusions/Significance: CED of adenoviruses in the rat brain and towards infiltrative tumors is feasible when regional anatomical differences are taken into account while SPIO infusion could be considered to validate proper catheter positioning and predict adenoviral distribution

Extending the clinical spectrum of SPG3A mutations to a very severe and very early complicated phenotype

status: publishe

EURALLIVEG: Establishment of a European core collection by cryopreservation and virus elimination in garlic

A European project named EURALLIVEG (Vegetative Allium, Europe’s Core Collection, safe & sound) was performed under Council Regulation EC 870/2004 from 2007 until 2011. It was coordinated by IPK. The main focus of the project was the development of a European integrated Allium Core collection provided by national collections of Germany, Czech Republic, Poland, Italy, France, and Nordic countries. This collection was designed as a part of the European Genebank Integrated System (AEGIS) of the European Cooperative Program for Plant Genetic Resources (ECPGR). The project consists of five work packages: documentation, molecular screening, cryopreservation, virus elimination, and coordination. Main aim was identification of a core collection of the 200 most important garlic accessions. This collection was cryopreserved using vitrification, which is the most economic way for long term storage. A Cryobanks Network was organized by three project partners. This system ensures safe storage of material by adopting a safety duplicate strategy. The documentation of the collection used passport and characterization data, pictures and other information. In addition genetic fingerprinting with AFLP markers was conducted. In the project, the garlic accessions were introduced into meristem culture for virus elimination. Of the viruses present in garlic, Onion Yellow Dwarf (OYDV) and Leek Yellow Stripe (LYSV) Viruses are most harmful. Therefore, because of the impossibility to do all treatments and tests on all germplasm, it was decided to test the major part of the collection on OYDV and LYSV only. However, a specific part with higher priority (backbone subset) was examined for five viruses. Virus detection used ELISA testing