Anti-T12, an anti-CD6 monoclonal antibody, can activate human T lymphocytes.

Abstract Anti-T12 is a murine IgM mAb that recognizes the 130-kDa CD6 glycoprotein on mature human T lymphocytes. Examination of the in vitro effects of this mAb on freshly isolated T cells demonstrates that anti-T12 can induce T cell activation. Such activation is macrophage-dependent, and optimal stimulation occurs with 0.2 to 5 micrograms/ml of purified mAb. This response to soluble mAb is detectable at day 4 to 5 of culture, and peak [3H]TdR uptake is observed at day 7. In a highly similar fashion, the mAb causes a marked augmentation of the autologous mixed lymphocyte reaction, without altering the kinetics of that response. Although optimal anti-CD3 mAb induced mitogenesis is unaffected by anti-T12, suboptimal stimulation of macrophage-depleted T cells by small amounts of immobilized anti-CD3 can be dramatically enhanced when anti-CD3 and anti-T12 are cross-linked together. A soluble nonmitogenic anti-CD3 mAb completely inhibits anti-T12-mediated T cell activation. IL-2R expression is induced by anti-T12 stimulation in 10 to 30% of T cells, and T cell proliferation is substantially inhibited by anti-IL-2R mAb, indicating that anti-T12 induced T cell activation and proliferation utilizes an IL-2-dependent pathway. Isolated CD4+ but not CD8+ cells are stimulated to proliferate, but the CD8+ cells in unseparated T cell preparations activated by anti-T12 do proliferate comparably to the CD4+ cells in such cultures. These data indicate that relatively weak activation of T cells via the TCR/CD3 complex may be augmented significantly by CD6-mediated signals induced by the anti-T12 mAb. The findings suggest that the CD6 T cell membrane protein may have the capacity to function as a physiologically important structure involved in the regulation of T cell activation.</jats:p

Investigation of atypical western blot (immunoblot) reactivity involving core proteins of human immunodeficiency virus type

Serum specimens which originally exhibited a narrow (indeterminate) 24-kilodalton core protein (p24) or p24/p55 pattern of reactivity with human immunodeficiency virus (HIV) in the Western blot (immunoblot) test were studied to gather information on antibody specificity. A total of 12 specimens were initially reevaluated with an indirect immunofluorescence assay (IFA), three enzyme-linked immunosorbent assays (ELISAs), and Western blot analyses. Five of the specimens were IFA positive and contained anti-gp160/gp120 antibodies which were observed only when an HIV Western blot antigen rich in gp160 and gp120 was used. The remaining seven serum specimens were nonreactive by IFA and showed variable reactivity in HIV antibody ELISAs. The specimens did not cross-react with core antigens for human T-cell leukemia virus types 1 and 2 or contain detectable levels of HIV p24 antigen. The p24/p55 reactivity of six of the seven indeterminate specimens could be reduced or eliminated by preincubating the specimens with disrupted, HIV-infected H9 cells but not with uninfected H9 cells. The six specimens also exhibited discernible reactivity with recombinant HIV p24 antigen. When an additional 23 indeterminate specimens were assayed, all of the serum specimens were nonreactive by IFA while 65% (15 of 23) showed various degrees of reactivity with the recombinant p24 protein. There was no indication that any of the HIV core antibody reactivity was caused by HIV infection. Indeterminate results for five patients with specific p24 reactivity, who were retested after a period of weeks or months, remained indeterminate for HIV antibody with no significant change in ELISA or Western blot reactivity.</jats:p

MK-STYX Alters the Morphology of Primary Neurons, and Outgrowths in MK-STYX Overexpressing PC-12 Cells Develop a Neuronal Phenotype

We previously reported that the pseudophosphatase MK-STYX (mitogen activated kinase phosphoserine/threonine/tyrosine binding protein) dramatically increases the number of what appeared to be primary neurites in rat pheochromocytoma (PC-12) cells; however, the question remained whether these MK-STYX-induced outgrowths were bona fide neurites, and formed synapses. Here, we report that microtubules and microfilaments, components of the cytoskeleton that are involved in the formation of neurites, are present in MK-STYX-induced outgrowths. In addition, in response to nerve growth factor (NGF), MK-STYX-expressing cells produced more growth cones than non-MK-STYX-expressing cells, further supporting a model in which MK-STYX has a role in actin signaling. Furthermore, immunoblot analysis demonstrates that MK-STYX modulates actin expression. Transmission electron microscopy confirmed that MK-STYX-induced neurites form synapses. To determine whether these MK-STYX-induced neurites have pre-synaptic or post-synaptic properties, we used classical markers for axons and dendrites, Tau-1 and MAP2 (microtubule associated protein 2), respectively. MK-STYX induced neurites were dopaminergic and expression of both Tau-1 and MAP2 suggests that they have both axonal and dendritic properties. Further studies in rat hippocampal primary neurons demonstrated that MK-STYX altered their morphology. A significant number of primary neurons in the presence of MK-STYX had more than the normal number of primary neurites. Our data illustrate the novel findings that MK-STYX induces outgrowths in PC-12 cells that fit the criteria for neurites, have a greater number of growth cones, form synapses, and have pre-synaptic and post-synaptic properties. It also highlights that the pseudophosphatase MK-STYX significantly alters the morphology of primary neurons

Host range diversification within the IncP-1 plasmid group

Broad-host-range plasmids play a critical role in the spread of antibiotic resistance and other traits. In spite of increasing information about the genomic diversity of closely related plasmids, the relationship between sequence divergence and host range remains unclear. IncP-1 plasmids are currently classified into six subgroups based on the genetic distance of backbone genes. We investigated whether plasmids from two subgroups exhibit a different host range, using two IncP-1γ plasmids, an IncP-1β plasmid and their minireplicons. Efficiencies of plasmid establishment and maintenance were compared using five species that belong to the Alphaproteobacteria, Betaproteobacteria and Gammaproteobacteria. The IncP-1β plasmid replicated and persisted in all five hosts in the absence of selection. Of the two IncP-1γ plasmids, both were unable to replicate in alphaproteobacterial host Sphingobium japonicum, and one established itself in Agrobacterium tumefaciens but was very unstable. In contrast, both IncP-1γ minireplicons, which produced higher levels of replication initiation protein than the wild-type plasmids, replicated in all strains, suggesting that poor establishment of the native plasmids is in part due to suboptimal replication initiation gene regulation. The findings suggest that host ranges of distinct IncP-1 plasmids only partially overlap, which may limit plasmid recombination and thus result in further genome divergence