Intraspecies transfer via total cellular DNA of the gene for hypoxanthine phosphoribosyltransferase into cultured mouse cells

Summary Under selective growth conditions a revertant of mouse cells, defective in hypoxanthine phosphoribosyltransferase activity (HPRT, EC-No. 2.4.2.8), was isolated, which contained an electrophoretically abnormal form of HPRT activity. The specific HPRT activity in crude extracts of the revertant cells is about 30% of the level determined in normal wild type cells. The variant HPRT reacts with antiserum against normal mouse HPRT but the rate of heat inactivation of the variant activity is different from the wild type form. By isozyme and karyotype analyses of somatic cell hybrids between the revertant mouse cells and Chinese hamster cells we found that the abnormal HPRT activity is coded for by the mouse X-chromosome as expected for a mutation in the structural HPRT gene.DNA has been purified from the abnormal HPRT revertant cells and incubated with mouse A9 cells (HPRT^-). After growth in selective medium one clone was isolated which expressed the electrophoretically abnormal form of HPRT. Six clones showed the normal form of HPRT due to reversion of the defective HRRT locus in A9 cells. This result indicates DNA-mediated transfer of the mouse HPRT gene at a frequency of about 0.5×10^-7. A similar frequency has been found for transfer of the variant HPRT locus via isolated metaphase chromosomes to A9 recipient cells. When placed in non-selective media the DNA-mediated transferent cells gradually lost their ability to express the HPRT transgenome at a rate of about 6% per average cell generation.     

MPX-004 and MPX-007: New Pharmacological Tools to Study the Physiology of NMDA Receptors Containing the GluN2A Subunit

GluN2A is the most abundant of the GluN2 NMDA receptor subunits in the mammalian CNS. Physiological and genetic evidence implicate GluN2A-containing receptors in susceptibility to autism, schizophrenia, childhood epilepsy and neurodevelopmental disorders such as Rett Syndrome. However, GluN2A-selective pharmacological probes to explore the therapeutic potential of targeting these receptors have been lacking. Here we disclose a novel series of pyrazine-containing GluN2A antagonists exemplified by MPX-004 (5-(((3-chloro-4-fluorophenyl)sulfonamido)methyl)-N-((2-methylthiazol-5-yl)methyl)pyrazine-2-carboxamide) and MPX-007 (5-(((3-fluoro-4-fluorophenyl)sulfonamido)methyl)-N-((2-methylthiazol-5-yl)methyl)methylpyrazine-2-carboxamide). MPX-004 and MPX-007 inhibit GluN2A-containing NMDA receptors expressed in HEK cells with IC₅₀s of 79 nM and 27 nM, respectively. In contrast, at concentrations that completely inhibited GluN2A activity these compounds have no inhibitory effect on GluN2B or GluN2D receptor-mediated responses in similar HEK cell-based assays. Potency and selectivity were confirmed in electrophysiology assays in Xenopus oocytes expressing GluN2A-D receptor subtypes. Maximal concentrations of MPX-004 and MPX-007 inhibited ~30% of the whole-cell current in rat pyramidal neurons in primary culture and MPX-004 inhibited ~60% of the total NMDA receptor-mediated EPSP in rat hippocampal slices. GluN2A-selectivity at native receptors was confirmed by the finding that MPX-004 had no inhibitory effect on NMDA receptor mediated synaptic currents in cortical slices from GRIN2A knock out mice. Thus, MPX-004 and MPX-007 offer highly selective pharmacological tools to probe GluN2A physiology and involvement in neuropsychiatric and developmental disorders.     

Erratum: “Carotenoids and Fatty Acids in Red Yeasts Sporobolomyces roseus and Rhodotorula glutinis” [Applied Biochemistry and Microbiology,vol. 40, no. 4, 2004, p. 392]

Applied Biochemistry and Microbiology -     

10 years of the nisin-controlled gene expression system (NICE) in Lactococcus lactis

Lactococcus lactis is a Gram-positive lactic acid bacterium that, in addition to its traditional use in food fermentations, is increasingly used in modern biotechnological applications. In the last 25 years great progress has been made in the development of genetic engineering tools and the molecular characterization of this species. A new versatile and tightly controlled gene expression system, based on the auto-regulation mechanism of the bacteriocin nisin, was developed 10 years ago—the NIsin Controlled gene Expression system, called NICE. This system has become one of the most successful and widely used tools for regulated gene expression in Gram-positive bacteria. The review describes, after a brief introduction of the host bacterium L. lactis, the fundaments, components and function of the NICE system. Furthermore, an extensive overview is provided of the different applications in lactococci and other Gram-positive bacteria: (1) over-expression of homologous and heterologous genes for functional studies and to obtain large quantities of specific gene products, (2) metabolic engineering, (3) expression of prokaryotic and eukaryotic membrane proteins, (4) protein secretion and anchoring in the cell envelope, (5) expression of genes with toxic products and analysis of essential genes and (6) large-scale applications. Finally, an overview is given of growth and induction conditions for lab-scale and industrial-scale applications.     

ICAM-1-CD18 interaction mediates neutrophil cytotoxicity through protease release

Interaction ofthe ₂-integrin complex on thepolymorphonuclear neutrophil (PMN) with intercellular adhesionmolecule-1 (ICAM-1) has been implicated in PMN-mediated cytotoxicity.This study examined interaction of the CD11a, CD11b, and CD18 subunitsof the ₂-integrin with ICAM-1,transfected into Chinese hamster ovarian (CHO) cells to avoid effectsof other adhesion molecules. Incubation of quiescent PMNs withwild-type and ICAM-1-transfected CHO cells produced nominal cell lysis.Similarly, when phorbol myristate acetate (PMA)-activated PMNs wereincubated with wild-type CHO cells, minimal cytotoxicity was produced.However, when ICAM-1-transfected CHO cells were incubated withPMA-activated PMNs, 40% cell lysis occurred. Blockade with amonoclonal antibody (MAb) to ICAM-1 or MAbs to CD11a, CD11b, or CD18reduced PMN-mediated cytotoxicity to baseline. To examine the role ofadhesion in cytotoxicity, we studied₂-integrin-mediated PMNadhesion to ICAM-1-transfected CHO cells and found that MAbs for CD11a,CD11b, and CD18 all abrogated PMN cytotoxicity despite disparateeffects on adhesion. To assess the role of CD18,₂-integrin subunits werecross-linked, and CD18 alone mediated protease release. Moreover,ICAM-1 was immunoprecipitated from transfected CHO cells and incubatedwith PMNs. This soluble ICAM-1 provoked elastase release, similar toPMA, which could be inhibited by MAbs to CD18 but not MAbs to other₂-integrin subunits. Inaddition, coincubation with protease inhibitors eglin C and AAPVCKreduced PMN-mediated cytotoxicity to control levels. Finally,ICAM-1-transfected CHO cells were exposed to activated PMNs from apatient with chronic granulomatous disease that caused significant celllysis, equivalent to that of PMNs from normal donors. Collectively,these data suggest that ICAM-1 provokes PMN-mediated cytotoxicity viaCD18-mediated protease release.

     

Antigenic determinants shared between HLA-A, −B, −C antigens and H-2 class I molecules modified by bovine beta-2 microglobulin

The specificity of the mouse class I-specific antibody COB6-3 was examined in detail. It was found to react with the mouse class I molecules H-2D^b, K^d, and Qa-2, and with human HLA-A, –B, –C antigens. The specificity pattern of COB6-3, despite its different origin, was similar to that of the monomorphic HLA class I-specific antibody W6/32. Cross-inhibition studies show that on human cells the antigenic determinants recognized by the two antibodies are situated close together and may be identical. On mouse cells, reactivity of both antibodies was generated upon replacement of mouse beta-2 microglobulin (B2m) with its bovine counterpart, but differences in specificity were observed using human B2m.Abbreviations used in this paper B2m beta-2 microglobulin - BSA bovine serum albumin - FCS fetal calf serum - FITC fluorescein isothiocyanate - MHC major histocompatibility complex - PBL peripheral blood lymphocytes - PBS phosphate-buffered saline - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis