Selective abolition of the NMDA component of long-term potentiation in mice lacking mGluR5.

The mechanisms underlying the differential expression of long-term potentiation (LTP) by AMPA and NMDA receptors, are unknown, but could involve G-protein-linked metabotropic glutamate receptors. To investigate this hypothesis we created mutant mice that expressed no metabotropic glutamate receptor 5 (mGluR5), but showed normal development. In an earlier study of these mice we analyzed field-excitatory postsynaptic potential (fEPSPs) in CA1 region of the hippocampus and found a small decrease; possibly arising from changes in the NMDAR-mediated component of synaptic transmission. In the present study we used whole-cell patch clamp recordings of evoked excitatory postsynaptic currents (EPSCs) in CA1 pyramidal neurons to identify the AMPAR- and NMDAR-mediated components of LTP. Recordings from control mice following tetanus, or agonist application (IS, 3R-1-amino-cyclopentane 1,3-dicarboxylic acid) (ACPD), revealed equal enhancement of the AMPA and NMDA receptor-mediated components. In contrast, CA1 neurons from mGluR5-deficient mice showed a complete loss of the NMDA-receptor-mediated component of LTP (LTP(NMDA)), but normal LTP of the AMPA-receptor-mediated component (LTP(AMPA)). This selective loss of LTP(NMDA) was seen in three different genotypic backgrounds and was apparent at all holding potentials (-70 mV to +20 mV). Furthermore, the LTP(NMDA) deficit in mGluR5 mutant mice could be rescued by stimulating protein kinase C (PKC) with 4beta-phorbol-12,13-dibutyrate (PDBu). These results suggest that PKC may couple the postsynaptic mGluR5 to the NMDA-receptor potentiation during LTP, and that this signaling mechanism is distinct from LTP(AMPA). Differential enhancement of AMPAR and NMDA receptors by mGluR5 also supports a postsynaptic locus for LTP.

Enhanced LTP in mice deficient in the AMPA receptor GluR2.

AMPA receptors (AMPARs) are not thought to be involved in the induction of long-term potentiation (LTP), but may be involved in its expression via second messenger pathways. However, one subunit of the AMPARs, GluR2, is also known to control Ca2+ influx. To test whether GluR2 plays any role in the induction of LTP, we generated mice that lacked this subunit. In GluR2 mutants, LTP in the CA1 region of hippocampal slices was markedly enhanced (2-fold) and nonsaturating, whereas neuronal excitability and paired-pulse facilitation were normal. The 9-fold increase in Ca2+ permeability, in response to kainate application, suggests one possible mechanism for enhanced LTP. Mutant mice exhibited increased mortality, and those surviving showed reduced exploration and impaired motor coordination. These results suggest an important role for GluR2 in regulating synaptic plasticity and behavior.

Impaired cerebellar synaptic plasticity and motor performance in mice lacking the mGluR4 subtype of metabotropic glutamate receptor.

The application of the glutamate analog L-2-amino-4-phosphonobutyric acid (L-AP4) to neurons produces a suppression of synaptic transmission. Although L-AP4 is a selective ligand at a subset of metabotropic glutamate receptors (mGluRs), the precise physiological role of the L-AP4-activated mGluRs remains primarily unknown. To provide a better understanding of the function of L-AP4 receptors, we have generated and studied knockout (KO) mice lacking the mGluR4 subtype of mGluR that displays high affinity for L-AP4. The mGluR4 mutant mice displayed normal spontaneous motor activity and were unimpaired on the bar cross test, indicating that disruption of the mGluR4 gene did not cause gross motor abnormalities, impairments of novelty-induced exploratory behaviors, or alterations in fine motor coordination. However, the mutant mice were deficient on the rotating rod motor-learning test, suggesting that mGluR4 KO mice may have an impaired ability to learn complex motor tasks. Patch-clamp and extracellular field recordings from Purkinje cells in cerebellar slices demonstrated that L-AP4 had no effect on synaptic responses in the mutant mice, whereas in the wild-type mice 100 microM L-AP4 produced a 23% depression of synaptic responses with an EC50 of 2.5 microM. An analysis of presynaptic short-term synaptic plasticity at the parallel fiber-->Purkinje cell synapse demonstrated that paired-pulse facilitation and post-tetanic potentiation were impaired in the mutant mice. In contrast, long-term depression (LTD) was not impaired. These results indicate that an important function of mGluR4 is to provide a presynaptic mechanism for maintaining synaptic efficacy during repetitive activation. The data also suggest that the presence of mGluR4 at the parallel fiber-->Purkinje cell synapse is required for maintaining normal motor function.

Conservation of functionally important epitopes on myelin associated glycoprotein (MAG).

Phylogenetic conservation of protein domains often points to functionally important regions. As a step toward mapping these sites on myelin associated glycoprotein (MAG) we have determined the species distribution of epitopes recognized by a panel of anti-MAG antibodies (Ab). Monoclonal antibodies (mAb) B11F7, GenS3 and 28 recognized MAG only in mammalian species. However, the mAb 513 which inhibits MAG binding recognized a conformational epitope in a wider distribution of species including, human (Homo sapiens), bovine (Bos taurus), rat (Rattus norvegicus), chicken (Gallus gallus), quail (Coturnix coturnix japonica), lizard (Iguana iguana), snake (Thamnophis sirtalis), frog (Xenopus laevis) and turtle (all tetrapods) but not in goldfish (Crassius aurata) (a teleost). However, only MAG from mammals was shown to bind rat dorsal ganglion neurons (DRGs) suggesting that structures additional to those recognized by mAb 513 must be involved in function. Antibody 28, on the other hand, recognized only MAG species which bound to neurons, suggesting that this epitope, in comparison with mAb 513, more closely represented the functionally important region of MAG. Observed species differences in glycosylation of MAG may be functionally significant. A newly developed polyclonal Ab against MAG recognized the protein in tetrapods and teleosts, but not chondricthyes. The results show that MAG is present in a wide spectrum of species.

Myelination in the absence of myelin-associated glycoprotein.

The hypothesis that myelin-associated glycoprotein (MAG) initiates myelin formation is based in part on observations that MAG has an adhesive role in interactions between oligodendrocytes and neurons. Furthermore, the over- or underexpression of MAG in transfected Schwann cells in vitro leads to accelerated myelination or hypomyelination, respectively. Here we test this idea by creating a null mutation in the mag locus and deriving mice that are totally deficient in MAG expression at the RNA and protein level. In adult mutant animals the degree of myelination and its compaction are normal, whereas the organization of the periaxonal region is partially impaired. Mutant animals show a subtle intention tremor. Our findings do not support the widely held view that MAG is critical for myelin formation but rather indicate that MAG is necessary for maintenance of the cytoplasmic collar and periaxonal space of myelinated fibres.

Derivation of completely cell culture-derived mice from early-passage embryonic stem cells.

Several newly generated mouse embryonic stem (ES) cell lines were tested for their ability to produce completely ES cell-derived mice at early passage numbers by ES cell <==> tetraploid embryo aggregation. One line, designated R1, produced live offspring which were completely ES cell-derived as judged by isoenzyme analysis and coat color. These cell culture-derived animals were normal, viable, and fertile. However, prolonged in vitro culture negatively affected this initial totipotency of R1, and after passage 14, ES cell-derived newborns died at birth. However, one of the five subclones (R1-S3) derived from single cells at passage 12 retained the original totipotency and gave rise to viable, completely ES cell-derived animals. The total in vitro culture time of the sublines at the time of testing was equivalent to passage 24 of the original line. Fully potent early passage R1 cells and the R1-S3 subclone should be very useful not only for ES cell-based genetic manipulations but also in defining optimal in vitro culture conditions for retaining the initial totipotency of ES cells.

Effect of vector topology on homologous recombination at the CHO aprt locus.

The Chinese hamster ovary aprt gene was used as a model for studying the effect of vector topology on gene targeting frequency. A single recombination vector containing 2.7 kb of isogenic DNA homologous to the aprt gene was digested with eight separate restriction enzymes to generate a variety of both replacement- and insertion-type recombination substrates. The frequency of homologous recombination, normalized by cotransfection with a linearized neo' marker, was assayed by the correction of a mutant hemizygous aprt allele and was not found to reflect vector topology. Southern analysis of representative recombination products suggests that the gene targeting events occurred predominantly by double crossover/gene conversion.

Recombinant myelin-associated glycoprotein confers neural adhesion and neurite outgrowth function.

Myelin-associated glycoprotein (MAG) cDNA clones for the small (p67) and large (p72) forms were expressed in heterologous cells. Purified recombinant MAG protein was incorporated into fluorescent liposomes, and both forms were shown to bind predominantly to neurites in DRG or spinal cord cultures. This adhesion was completely blocked by Fab fragments of monoclonal anti-MAG antibody. Liposomes prepared with the control protein glycophorin or no protein failed to bind neurites. Small cerebellar neurons, which are not myelinated in vivo, failed to bind MAG liposomes. In a second test of function, p67 MAG-transfected fibroblasts were markedly enhanced in their ability to promote DRG neurite extension over a 2 day culture period compared with control fibroblasts not expressing MAG. Neurite extension was blocked by anti-MAG antibodies. These results show that both forms of MAG can facilitate the interactions between glial cells and neurites that ultimately lead to myelin formation.

Murine lymphocytes with natural killer activity express CTL-derived serine protease genes.

Serine protease genes (C11, B10 and HF) derived from activated cytolytic T lymphocytes have been shown to be important in CTL-mediated cytotoxicity. In this study, we examined the expression of these genes in fresh natural killer (NK) cells from severe combined immunodeficiency (SCID) and athymic nude mice, as well as in T-cell lines with NK activity. All of these serine protease genes were expressed in NK cells freshly isolated from SCID and athymic nude mice. In addition, all lines showed similar strong levels of expression of C11 and B10 genes, but not the HF gene. However, levels of expression in the T-cell lines did not correlate with levels of NK-like cytotoxicity. These results suggest that C11, B10 and HF serine protease genes are necessary but not sufficient for NK-like cytotoxicity.

NK-mediated reduction of malignancy in human melanoma cells treated with theophylline.

Theophylline-treated cells of the human melanoma line showed an increase in NK-sensitivity in vitro and a concomitant decrease in tumorigenicity and spontaneous metastasis in Balb/c nude mice. The MeWo cells were heterogeneous and contained related subpopulations which were cloned to produce two cell lines, one hypodiploid (Cd-16) and one hypotetraploid (Ct-1). Prolonged (3 months) or short-term (4 days) treatment of these cell lines with 1 mM theophylline markedly reduced the incidence and size of tumors in Balb/c nude mice early after s.c. injection and their ability to metastasize spontaneously to the lung was also reduced. The effect was much more pronounced with Cd-16 cells, which contain amplified DNA compared to Ct-1 cells which lack DNA amplification. Part of the tumor inhibition caused by theophylline was due to natural killer (NK) cells. Thus, in vivo treatment of nude mice with anti-asialo GM1, a procedure known to remove NK cells, partially reversed the inhibitory effects of theophylline on tumor formation and generation of metastasis by Cd-16 cells. Consistent with this observation theophylline treatment enhanced the in vitro NK sensitivity of Cd-16 cells four-fold whereas Ct-1 was enhanced only slightly. The data suggest that theophylline can act preferentially on certain tumor cell subpopulations to enhance their NK-sensitive phenotype and thereby inhibit their capacity to form tumors and to metastasize in nude mice.

Specific immunoglobulin production and enhanced tumorigenicity following ascites growth of human hybridomas.

Human X human hybridomas constructed with the B6 lymphoblastoid clone, which produces antitetanus toxoid (TT) antibody, and the lymphoblastoid cell line KR-4 or human hybrid myeloma KR-12, were adapted to growth as ascites in pristane-treated BALB/c nude mice by a single prior passage as a solid subcutaneous (s.c.) tumor in irradiated nude mice followed by in vitro culture. Both B6 X KR-4 and B6 X KR-12 hybrids produced anti-TT antibody and phenotypically resembled the lymphoblastoid KR-4, or the hybrid myeloma KR-12 parent, respectively. Growth as ascites increased the tumorigenicity of both hybrids in nude mice as measured by tumor incidence and rate of tumor growth. The observed increase in tumorigenicity of these hybrid cells after ascites growth was associated with a substantial loss of chromosomes. Passage of the B6 X KR-4 lymphoblastoid hybrid resulted in several reversible morphological changes characteristic of myeloma cells. These changes correlated with increased human Ig production. These observations provide a system for greatly amplifying human monoclonal antibody production.

Selected immunological reactions to measles virus in immunosuppressed guinea pigs.

Cyclophosphamide and hydrocortisone treatment of measles virus infected guinea pigs resulted in suppression of cele- and antibody mediated immune reactions although a high dose of measles virus (10(5.5) TCID50) was used for infection: MIT was delayed and depressed; HI serum antibody response was almost completely inhibited.

Cell-mediated immune reactions in measles.

Cell-mediated reactions in measles cases, in direct contacts and healthy children were tested. Indices of phytohaemagglutinin-stimulated blastic transformation and leukocyte migration inhibition were evaluated. Positive reactions were found in the first and second weeks after manifestation of clinical symptoms. The application of glucocorticosteroids in clinical complications resulted in delayed and reduced leukocyte migration inhibition. Studies on seronegative contacts suggested that positive cell-mediated reactions may appear before manifestation of clinical symptoms.

Primary and secondary immune response to measles vaccine strain.

The rates of primary and secondary cell-mediated immune responses and their correlation with humoral responses were estimated. Cell-mediated reactions were evaluated by the leucocyte migration inhibition test. No significant differences were found in the intensity of primary and secondary cellular responses. The cell-mediated response was not intensified by complete Freund adjuvant, which stimulated the humoral response. The kinetics of changes in cell-mediated reaction was comparable with that observed for other viruses.