Transgenic livestock as bioreactors: stable expression of human alpha-1-antitrypsin by a flock of sheep.

We have previously described the generation of transgenic sheep expressing human alpha 1-antitrypsin (h alpha 1AT) in their milk. Here, we report the fidelity of transgene transmission and expression by these animals and their progeny. Transgene transmission has been demonstrated in four of six ovine lines studied. Three of these four lines have exhibited stable transmission of the transgene, whereas the fourth has produced some offspring with reduced copy numbers. Sequential lactations of founder animals has yielded very similar levels of h alpha 1AT protein in milk. Moreover, in one line, derived from a founder male, a flock of seven G1 ewes have yielded comparable levels of h alpha 1AT protein in first and second lactation milk. Two G2 ewes of this line have also produced levels of human protein equivalent to their mother. Although the inheritance of the same transgene in mice was reminiscent of the situation in sheep, stable expression was observed in only one or four lines studied. The importance of these observations to the use of transgenic livestock as bioreactors for the production of human proteins is discussed.

IgG-neutralized influenza virus undergoes primary, but not secondary uncoating in vivo.

Even when neutralized by saturating amounts of monoclonal IgG directed against the haemagglutinin, influenza virus attaches to cells with kinetics similar to those of infectious virus. It then enters those cells and is uncoated; its RNA becomes localized within the nucleus and its lipid envelope and associated proteins remain in the cytoplasm. In this report we show that despite the apparent normality of these early stages of virus-cell interaction, neutralized virus underwent no detectable primary transcription. In contrast, there was only a slight inhibition of transcription by neutralized virus in vitro which was insufficient to account for the loss in infectivity, despite using mRNA to measure the production of capped oligonucleotides or to prime the elongation step. To test whether the absence of primary transcription in vivo resulted from non-accessibility of the genome rather than an effect on the transcriptase complex itself, we examined the susceptibility to RNase of virion RNA after inoculation of cells with neutralized virus. Data clearly show that, unlike RNA of infectious virus, RNA of neutralized virus did not become sensitive to RNase and we conclude that neutralization of influenza virus by IgG results in failure of virus to undergo a secondary uncoating process which is necessary for the activity of the virion transcriptase complex. Finally we show that by treatment of virions in vitro with detergent it is possible to produce a core structure which is stable and has some of the properties expected of a structure resulting from primary uncoating.

Internal proteins of influenza virus: 35S-methionine peptide maps as genetic markers.

Methods are described for the preparation in vivo of 35S-methionine-labelled influenza viruses, the purifiction of the nucleoprotein (NP) and matrix (M) proteins and the separation of peptides obtained by protease digestion by two-dimensional thin-layer chromatography. The maps of the M proteins of A/Okuda/57(H2N2) and A/Finland/4/74(H3N2) were very similar overall but differed in three peptides. Hence they could be clearly distinguished. Maps of the NP proteins of the same strains showed a greater number of differences. A recombinant strain having the haemagglutinin and neuraminidase of the A/Finland/4/74 parent and the virulence of the A/Okuda/57 parent was shown to have the M and P proteins of A/okuda/57.

Use of PCR-based methods for selection of integrated transgenes in preimplantation embryos.

The production of transgenic animals from ungulate species is an inefficient and expensive procedure. The development of selection methods to identify the small number of transgenic preimplantation embryos produced following DNA microinjection of one-cell embryos would greatly reduce both the cost and effort of these procedures. This study has examined the fate of the ovine beta-lactoglobulin-human alpha 1-antitrypsin (AATB) minigene construct or a subfragment of this following microinjection into one-cell mouse embryos. It has examined two PCR-based methods that were designed to identify a biochemical difference between microinjected DNA constructs to select preimplantation stage embryos in which chromosomal integration of exogenous DNA has occurred. The two methods involved the modification of the AATB DNA construct either by dam methylation or the substitution of dTTP by dUTP. The dam-sensitive DNA endonuclease DpnI, that was used to digest nonintegrated AATB sequences at sites located between PCR oligonucleotide sequences, was found to interfere with the activity of the subsequent PCR reaction. Analyses of the fate of dUTP-DNA indicated that either repair or replication of microinjected DNA interfered with the ability to distinguish between integrated and nonintegrated DNA constructs in the mid-preimplantation stage embryo. The distribution of microinjected AATB DNA between the blastomeres of individual four and eight-cell stage embryos was also examined by the PCR reaction. Microinjected DNA was not found to be evenly distributed between all the blastomeres of individual embryos.