Simon C. Weli

Continuous hypoxic culturing maintains activation of Notch and allows long-term propagation of human embryonic stem cells without spontaneous differentiation

Objective:  The maintenance of pluripotency of human embryonic stem cells (hESCs) requires a high efficiency of self‐renewal. During in vitro propagation, however, hESCs have a propensity to differentiate spontaneously. In this study, we assessed the nature of hESC responses to hypoxic conditions.

Avipoxviruses: infection biology and their use as vaccine vectors

Avipoxviruses (APVs) belong to the Chordopoxvirinae subfamily of the Poxviridae family. APVs are distributed worldwide and cause disease in domestic, pet and wild birds of many species. APVs are transmitted by aerosols and biting insects, particularly mosquitoes and arthropods and are usually named after the bird species from which they were originally isolated. The virus species Fowlpox virus (FWPV) causes disease in poultry and associated mortality is usually low, but in flocks under stress (other diseases, high production) mortality can reach up to 50%. APVs are also major players in viral vaccine vector development for diseases in human and veterinary medicine. Abortive infection in mammalian cells (no production of progeny viruses) and their ability to accommodate multiple gene inserts are some of the characteristics that make APVs promising vaccine vectors. Although abortive infection in mammalian cells conceivably represents a major vaccine bio-safety advantage, molecular mechanisms restricting APVs to certain hosts are not yet fully understood. This review summarizes the current knowledge relating to APVs, including classification, morphogenesis, host-virus interactions, diagnostics and disease, and also highlights the use of APVs as recombinant vaccine vectors.

Analysis and comparison of the 4b core protein gene of avipoxviruses from wild birds: Evidence for interspecies spatial phylogenetic variation

Summary.Avipoxviruses have been isolated from a wide variety of avian hosts, and yet little is known regarding the host-virus species variation of the genus Avipoxvirus. We have investigated the variations in the viral 4b core protein gene from six different avipoxviruses based on PCR, Southern blot and nucleotide sequence analysis to evaluate the suitability of this region for differentiation between avipoxvirus isolates. Southern blot and nucleotide sequence analysis revealed considerable interspecies variation between the different virus isolates. In the deduced amino acid sequences (of 142 residues) of the 4b core protein gene, fowlpox virus vaccine strain (FPV-VR250) was found to be similar to the three poxvirus isolates from great tit (GTV-A310, GTV-A311 and GTV-A256), sparrowpox virus (SPV-A468), and pigeonpox virus (PPV-B7) with similarities of 79.6%, 81%, 81%, 64.8% and 84.5%, respectively. Furthermore, comparative phylogenetic analysis of the aligned DNA sequences revealed divergence among the different viruses that can be consistently correlated to the host.

Morphogenesis of fowlpox virus in a baby hamster kidney cell line

Fowlpox virus (FWPV) recombinant vaccines are presently being tested as an antihuman immunodeficiency virus vaccine for humans. However, biosafety, as well as the morphogenesis of FWPV in mammalian cells, are not well understood. Currently, electron microscopy is the method of choice for analyzing virus morphogenesis in cell lines. In this study, four different electron microscopic techniques were used to study FWPV morphogenesis in the Syrian baby hamster kidney (BHK-21) cell line: direct negative stain electron microscopy, ultrathin section transmission electron microscopy, cryoimmunoelectron microscopy, and scanning electron microscopy. The study showed matured viruses, as well as other stages of fowlpox virus maturation, in BHK-21 cells that led to productive virus multiplication. A number of virus-containing vesicles and plasma membrane-associated mature viruses at an early stage in the budding process were observed. In addition, intracellular mature virus was observed in layers of the trans-Golgi network, a characteristic of intracellular mature virus wrapping that results in the formation of intracellular enveloped virus. The size and morphology of FWPV observed in this study are comparable with previously published data. This study presents the first morphological evidence for the release of FWPV by budding in BHK-21 cells.

Growth of Human Embryonic Stem Cells in Long-Term Hypoxia

Human embryonic stem cells (hESCs) hold a great promise for regenerative medicine and tissue engineering. In order to obtain uniform hESC cultures without spontaneous differentiation, which is of interest for basic investigations as well as the development of future therapeutic protocols, it is important that specific culture conditions are adhered to. Here, we describe in detail a procedure for propagation of hESCs that by virtue of exposure of the cultures to low atmospheric oxygen (5%) enables the maintenance of their undifferentiated phenotype in long term. The critical steps and impact of possible modifications on the final outcome are discussed, and useful hints are provided to streamline the troubleshooting.