A recombinant rubella virus E1 glycoprotein as a rubella vaccine candidate.

A recombinant rubella virus E1 (rE1) glycoprotein was produced and some of its chemical and immunological features were characterized. Two animal models were then used to establish that the rE1 glycoprotein and rubella virus particles shared antigenic and immunogenic properties. In the first one, sera from rE1 glycoprotein-immunized BALB/c mice neutralized in vitro rubella virus infection. In the second model, severe combined immune deficient (SCID) mice implanted with tonsil fragments from rubella immune donors and immunized with rE1 glycoprotein produced human anti-rubella virus antibodies. Altogether, these results showed that immunization with rE1 glycoprotein elicited neutralizing anti-rubella virus antibodies. This study thus indicated that the rE1 glycoprotein could constitute a non-replicating rubella vaccine.

Bypass of the requirement for cdc16p GAP function in Schizosaccharomyces pombe by mutation of the septation initiation network genes.

The onset of septum formation in the fission yeast Schizosaccharomyces pombe is signaled via the spglp GTPase-switch, which is part of the septation initiation network. This is negatively regulated by the two-component GTPase-activating protein (GAP) comprised of the products of the cdc16 and byr4 genes. Loss-of-function mutations in either of these genes result in multiple rounds of septum formation without cell cleavage. In this work, we demonstrate that attenuation of the protein kinase cdc7p can rescue the lethality of a null allele of cdc16. This observation provides the basis for selection of chromosomal mutations and multicopy suppressors that attenuate the signaling of septation. Using this screen, mutations in all the previously described septation initiation network genes were obtained, with the exception of byr4, sid4 and plo1. We also demonstrate that increased expression of the dma1 gene can rescue the lethality of a null allele of cdc16. The implications for the regulation of septum formation in fission yeast are discussed.

The S. pombe zfs1 gene is required to prevent septation if mitotic progression is inhibited.

Schizosaccharomyces pombe cdc16p is required to limit the cell to forming a single division septum per cell cycle; the heat-sensitive loss-of-function mutant cdc16-116 completes mitosis, and then undergoes multiple rounds of septum formation without cell cleavage. cdc16p is a homologue of Saccharomyces cerevisiae BUB2p, and has also been implicated in the spindle assembly checkpoint function in S. pombe. To identify other proteins involved in regulating septum formation, we have screened for multicopy suppressors of the cdc16-116 mutation. In this paper, we describe one of these suppressors, zfs1. The null allele (zfs1-D1) is viable. However, at low temperatures it divides at a reduced size, while at higher temperatures, it partially suppresses heat sensitive mutants in genes signalling the onset of septum formation. Zfs1-D1 cells show an increased rate of chromosome loss during exponential growth. Moreover, if assembly of the spindle is prevented, zfs1-D1 cells do not arrest normally, but the activity of cdc2p kinase decays, and cells form a division septum without completing a normal mitosis. We conclude that zfs1 function is required to prevent septum formation and exit from mitosis if the mitotic spindle is not assembled. The suppression of cdc16-116 by zfs1 is independent of dma1 function and the spindle assembly checkpoint genes mad2 and mph1. The genetic interactions of zfs1 with genes regulating septum formation suggest that it may be a modulator of the signal transduction network controlling the onset of septum formation and exit from mitosis.

The thrombin receptor is present in myoblasts and its expression is repressed upon fusion.

Cultured myoblasts derived from limb muscle of newborn rats express thrombin receptor immunoreactivity on their surface. Receptor expression is repressed upon myoblast fusion. This is due at least in part to a decrease in the amount of the thrombin receptor mRNA. Addition of thrombin triggers calcium transients only in mono- but not multinucleated muscle cells. Furthermore, thrombin increases the rate of myoblast proliferation that coincides with an activation of mitogen-activated protein kinase. Northern analysis of thrombin receptor mRNA expression in skeletal muscle showed that the transcript is present at a relatively high level at birth, but is almost undetectable in the adult. By in situ hybridization, the mRNA at birth appeared to be present mostly in mononucleated cells grouped in clusters, but not in muscle fibers. Very few nuclei surrounded by a mRNA signal were present on muscle sections of rats 24 days postnatally. These results suggest that the thrombin receptor plays a role in muscle development.