Comparison of the Frequencies of Spontaneous and Chemically-Induced 5-Bromodeoxyuridine-Resistance Mutations in Wild-Type and Revertant Bhk-21/13 Cells

5-bromodeoxyuridine resistance mutations induced by mutagenesis were studied. The average expression time for induced mutations varied with the concentration of the mutagen ethyl methanesulfonate (EMS). However, a constant number of two generation times was necessary for half maximal expression of induced mutations. Also, induced mutation rates were compared under optimal expression conditions for bromodeoxyuridine, fluorodeoxyuridine and azaguanine resistance markers. Ten independent bromodeoxy-uridine-resistant clones were tested for reversion. Two clones reverted-one spontaneously and the other after mutagenesis. The spontaneous rate of mutation to bromodeoxyuridine resistance, estimated by the fluctuation test, was high in revertant clones (4 x 10(-6) / cell / generation) and low in the wild-type cells (< 3.5 x 10(-8) / cell / generation). A comparison of induced mutation frequencies at variable EMS concentrations showed a single-hit curve for revertant clones and a multihit curve for the wild-type cells. Thymidine kinase activities of resistant clones were usually less than 2% of that of the wild-type clone. Inducibility, thermal stability and intracellular localization of the thymidine kinases of the wild-type cells and of a revertant clone were identical. A low, but significant (P < 0.10), Km discrepancy was observed between enzyme extracts of these lines. The genetic implications of these results are discussed.     

Epigenetically regulated clonal heritability of CTA expression profiles in human melanoma

The intratumoral heterogeneity of cancer testis antigens (CTA) expression, which is driven by promoter methylation status, may hamper the effectiveness of CTA‐directed vaccination of melanoma patients. Thus, we investigated whether the intratumoral heterogeneity of CTA expression is inherited at cellular level, or evolves throughout cellular replication, leading to a phenotypically unstable tumor cell population with reduced immunogenicity and/or able to escape immune control. Utilizing a previously characterized ex vivo clonal model of intratumoral heterogeneity of CTA expression in melanoma, Mel 313 MAGE‐A3‐low clone 5 (clone 5^M3‐low) and MAGE‐A3‐high clone 14 (clone 14^M3‐high) were sub‐cloned and analyzed for CTA profile. Molecular assays demonstrated that levels of MAGE‐A3 expression were highly conserved among generated sub‐clones, as compared to parental clones. A similar behavior was identified for an extensive panel of other CTA investigated. Inherited levels of MAGE‐A3 expression correlated with the extent of promoter methylation among clone 5^M3‐low and clone 14^M3‐high sub‐clones analyzed. Treatment of clone 5^M3‐low with a DNA hypomethylating agent (DHA) resulted in an up‐regulated expression of MAGE‐A3, which was inherited at single cell level, being still detectable at day 60 in its sub‐clones. Bisulfite sequencing demonstrated that also MAGE‐A3 promoter methylation status was inherited among sub‐clones generated from DHA‐treated clone 5^M3‐low and strictly correlated with MAGE‐A3 expression levels in investigated sub‐clones. Similar results were obtained for additional CTA studied. Altogether our findings demonstrate that constitutive and DHA‐modified CTA profiles of melanoma cells are clonally inherited throughout cellular replications, thus providing relevant insights to improve the effectiveness of CTA‐based immunotherapy. J. Cell. Physiol. 223: 352–358, 2010. © 2010 Wiley‐Liss, Inc.     

Production of Anti-carbohydrate Antibodies by Phage Display Technologies: POTENTIAL IMPAIRMENT OF CELL GROWTH AS A RESULT OF ENDOGENOUS EXPRESSION*

Anti-mannotriose (Man3) antibodies were previously isolated from a Keio phage library displaying human single chain variable fragments (scFvs) using a neoglycolipid, Man3- dipalmitoylphosphatidylethanolamine. Of three genes constructed, the 5A3 clone was expressed in mouse myeloma NS0 cells as a conjugate with human IgG₁ Fc (scFv-Fc) and characterized (Sakai, K., Shimizu, Y., Chiba, T., Matsumoto-Takasaki, A., Kusada, Y., Zhang, W., Nakata, M., Kojima, N., Toma, K., Takayanagi, A., Shimizu, N., and Fujita-Yamaguchi, Y. (2007) Biochemistry 46, 253–262; Zhang, W., Matsumoto-Takasaki, A., Kusada, Y., Sakaue, H., Sakai, K., Nakata, M., and Fujita-Yamaguchi, Y. (2007) Biochemistry 46, 263–270). Similarly, anti-Le^x phages were screened from the same library with lacto-N-fucopentaose III (LNFPIII; Le^x)-dipalmitoylphosphatidylethanolamine. Of five phage clones isolated, two scFv genes were constructed to express scFv-Fc proteins in NS0 cells. As was experienced with anti-Man3 scFv-Fc clones, only one anti-LNFPIII clone, 1F12, was successfully produced and purified as an scFv-Fc protein. Although anti-LNFPIII 1F12 and anti-Man3 5A3 scFv-Fc proteins were secreted into media, a decline in scFv-Fc production was observed with both stable clones during early passages. Transient expression of anti-LNFPIII and anti-Man3 scFv-Fc genes in COS-7 cells and subsequent analyses of scFv-Fc protein expression revealed accumulation of translated proteins in the endoplasmic reticulum for scFv-Fc proteins derived from clones that did not survive as stable clones. This report describes the following: (i) isolation of anti-LNFPIII scFv genes; (ii) purification of anti-LNFPIII scFv-Fc proteins from stably and transiently expressed cells; and (iii) extracellular or intracellular localization of two anti-LNFPIII and three anti-Man3 scFv-Fc proteins. The results suggest that expression of anti-Man3 and other anti-carbohydrate antibodies in mammalian cells is disadvantageous for cell growth.     

Function of the HVCN1 proton channel in airway epithelia and a naturally occurring mutation,M91T

Airways secrete considerable amounts of acid. In this study, we investigated the identity and the pH-dependent function of the apical H⁺ channel in the airway epithelium. In pH stat recordings of confluent JME airway epithelia in Ussing chambers, Zn-sensitive acid secretion was activated at a mucosal threshold pH of ∼7, above which it increased pH-dependently at a rate of 339 ± 34 nmol × h⁻¹ × cm⁻² per pH unit. Similarly, H⁺ currents measured in JME cells in patch clamp recordings were readily blocked by Zn and activated by an alkaline outside pH. Small interfering RNA–mediated knockdown of HVCN1 mRNA expression in JME cells resulted in a loss of H⁺ currents in patch clamp recordings. Cloning of the open reading frame of HVCN1 from primary human airway epithelia resulted in a wild-type clone and a clone characterized by two sequential base exchanges (452T>C and 453G>A) resulting in a novel missense mutation, M91T HVCN1. Out of 95 human genomic DNA samples that were tested, we found one HVCN1 allele that was heterozygous for the M91T mutation. The activation of acid secretion in epithelia that natively expressed M91T HVCN1 required ∼0.5 pH units more alkaline mucosal pH values compared with wild-type epithelia. Similarly, activation of H⁺ currents across recombinantly expressed M91T HVCN1 required significantly larger pH gradients compared with wild-type HVCN1. This study provides both functional and molecular indications that the HVCN1 H⁺ channel mediates pH-regulated acid secretion by the airway epithelium. These data indicate that apical HVCN1 represents a mechanism to acidify an alkaline airway surface liquid.     

Chemical characterization of exopolysaccharides from the marine fouling diatom amphora coffeaeformis

Amphora coffeaeformis cells were grown in batch cultures under continuous illumination at 18°C for 10 d. Algal cells were removed by centrifugation, lyophilized and used for the extraction of exopolysaccharides using either 0.05 M EDTA, 1 M NaOH or 1.5 M NaCl. The 1.5 M NaCl treatment removed most exopolysaccharides. Glucose (81%) was the most abundant monosaccharide in the exopolysaccharides. The chemical composition data suggest that the exopolymers were acidic sulphated polysaccharides containing high concentrations of pyruvate (22%) and uronic acids (18%). These polysaccharides may play an important role in metal complexation and protection from desiccation in A. coffeaeformis.     

Theileria parva: cell culture analysis of clones of macroschizont-infected bovine lymphoblastoid cells

Three clones (H7, D7, and C5) were established from single cells of a bovine lymphoblastoid cell line (IR.TPM.1) infected with macroschizonts of the protozoan parasite Theileria parva. The cloning efficiency using feeder layers was 0.3–0.4. The mean parasite size (the number of parasite nuclei per cell) was different in each clone and was correlated to the growth rate. The fast growing clone, C5 (population doubling time 24 hr), contained smaller (mean parasite nuclear number, 12) parasites than a slow growing clone, D7 (population doubling time, 73 hr; mean number of parasite nuclei per cell, 35.3). The third clone, H7, had an intermediate growth rate (population doubling time, 49 hr) and parasite size (mean nuclei number, 18.1). There was variation in the incidence of microschizonts among the clones but microschizont-free clones were not isolated. When the clones were subjected to 4.3 × 10^?7M aminopterin, 20–25% of the cell population of clones H7 and C5 and the uncloned parent line lost their parasites in 4 days, while it took 7 days to reach a similar result (31% parasite-free cells) in clone D7. We were unable to isolate parasite-free clones from cells treated with aminopterin. Hydroxyurea (4 × 10^?4M) inhibited the growth of clone C5, but the macroschizonts continued to proliferate, and the incidence of cells with microschizonts increased. The size profile analysis showed that most of the aminopterin-treated cells were 9.0 μm, the hydroxyurea-treated cells 14.7 μm, and the untreated cells 10.8 μm in diameter.     

Transkinetoplastidy—A Novel Phenomenon Involving Bulk Alterations of Mitochondrion-Kinetoplast DNA of a Trypanosomatid Protozoan1,2

ABSTRACT. Dramatic and consistent changes of mitochondrial or kinetoplast DNA (kDNA) were observed in certain variants of Leishmania amazonensis (A variants) selected in vitro for arsenite-resistance. This was found initially by comparing different lots of wild-type cells and their respective A variants resistant to 30 μM arsenite. The kDNAs isolated from these two groups had different restriction patterns and hybridized poorly to each other, whereas those from different lots within each of the two groups were identical. Hybridization data showed an overall identity of less than 10^?3 between total kDNAs of the two groups. This difference was further examined in three independent series of variants, which were selected from three different clones for resistance to graded concentrations of arsenite (5–30 μM). In all three series, their kDNAs were found to change abruptly in an identical pattern at a late step of the selection process, i.e. A variants resistant to 15 μM or 30 μM arsenite. There was no apparent loss of kDNA in the process. Most of the changes observed appear to involve a shift in either the dominance or the copy number of different minicircle subclasses. Surprisingly, the kDNAs of tunicamycin-resistant variants (T variants) were also found to undergo similar changes. Genetic changes previously described in both A and T variants are limited to their nuclei. Namely, different chromosomal regions are amplified to produce large DNA circles which are responsible for the drug-resistant phenotypes. Interestingly, other arsenite-resistant clones without such chromosomal DNA amplification (A'variants) had kDNA of the wild-type pattern. The profound changes of kDNA observed are unprecedented. We propose the term “transkinetoplastidy” for this phenomenon to distinguish it from dyskinetoplastidy or the loss of kDNA described previously in trypanosomatid protozoa. This phenomenon is discussed with respect to the possible mechanisms of its generation, regulation and relation to the drug-resistant phenotypes.     

Giardia duodenalis: adhesion-deficient clones have reduced ability to establish infection in Mongolian gerbils

The role of Giardia duodenalis surface molecules in the attachment of trophozoites to epithelial cells has been established through the dual strategies of characterizing G. duodenalis clones with deficient adhesion and blocking experiments with surface-specific monoclonal antibodies. Also, the infectivity of the analyzed clones was tested using Mongolian gerbils as experimental model. Two adhesion-deficient G. duodenalis clones, C6 and C7, were isolated from the wild type C5 clone which in turn was obtained from the WB strain. The adhesion efficiencies of C6 and C7 clones (48.2 ± 4.9 and 32.6 ± 2.4, respectively) were significantly lower as compared with WB strain or C5 clone (82.8 ± 6.4 and 79.9 ± 7.9). Analysis of radiolabel surface proteins by 1D and 2D SDS-PAGE revealed prominently labelled 28 and 88 kDa components in C6 and C7 clones and a major 200 kDa protein in the C5 clone and the WB strain. The 88 and 200 kDa components are acidic proteins by two-dimensional electrophoretic analyses. The most striking difference between wild-type and adhesion-deficient Giardia trophozoites was the reduced expression of a 200 kDa surface protein in the latter. Significantly, a mAb (IG3) specific for the 200 kDa protein that reacted with more than 99% of WB and C5 trophozoites and less than 1% of C6 and C7 trophozoites as determined by indirect immunofluorescence inhibited the adhesion of trophozoites from WB and C5 clone to Madin Darby Canine Kidney cells by 52% and 40.9%, respectively, suggesting a participation of this antigen in adherence. Finally, the functional relevance of trophozoite adhesion to epithelial cells was indicated by the reduced capacity of the adhesion-deficient clones to establish the infection in Mongolian gerbils.     

Infectivity of a Pseudorabies Virus Mutant Lacking Attachment Glycoproteins C and D

Initiation of herpesvirus infection requires attachment of virions to the host cell followed by fusion of virion envelope and cellular cytoplasmic membrane during penetration. In several alphaherpesviruses, glycoprotein C (gC) is the primary attachment protein, interacting with cell-surface heparan sulfate proteoglycans. Secondary binding is mediated by gD, which, normally, is also required for penetration. Recently, we described the isolation of a gD-negative infectious pseudorabies virus (PrV) mutant, PrV gD⁻ Pass (J. Schmidt, B. G. Klupp, A. Karger, and T. C. Mettenleiter, J. Virol. 71:17–24, 1997). In PrV gD⁻ Pass, attachment and penetration occur in the absence of gD. To assess the importance of specific attachment for infectivity of PrV gD⁻ Pass, the gene encoding gC was deleted, resulting in mutant PrV gCD⁻ Pass. Deletion of both known attachment proteins reduced specific infectivity compared to wild-type PrV by more than 10,000-fold. Surprisingly, the virus mutant still retained significant infectivity and could be propagated on normal noncomplementing cells, indicating the presence of another receptor-binding virion protein. Selection of bovine kidney (MDBK) cells resistant to infection by PrV gCD⁻ Pass resulted in the isolation of a cell clone, designated NB, which was susceptible to infection by wild-type PrV but refractory to infection by either PrV gCD⁻ Pass or PrV gD⁻ Pass, a defect which could partially be overcome by polyethylene glycol (PEG)-induced membrane fusion. However, even after PEG-induced infection plaque formation of PrV gCD⁻ Pass or PrV gD⁻ Pass did not ensue in NB cells. Also, phenotypic gD complementation of PrV gCD⁻ Pass or PrV gD⁻ Pass rescued the defect in infection of NB cells but did not restore plaque formation. Glycosaminoglycan analyses of MDBK and NB cells yielded identical results, and NB cells were normally susceptible to infection by other alphaherpesviruses as well as vesicular stomatitis virus. Infectious center assays after PEG-induced infection of NB cells with PrV gD⁻ Pass on MDBK cells indicated efficient exit of virions from infected NB cells. Together, our data suggest the presence of another receptor and receptor-binding virion protein which can mediate PrV entry and cell-to-cell spread in MDBK cells.     

Origin of thymidine kinase deficient (TK-) haploid frog cells via an intermediate thymidine transport deficient (TT-) phenotype

Wild-type cultured cells of the frog cell line ICR 2A give rise to 5-bromodeoxyridine (BUdR)-resistant colonies only when the selecting concentration of the drug is 5 × 10^?5 M or lower. The progeny of these colonies multiply in 10^?4 M BUdR; resistance is correlated with the absence of a thymidine (TdR)-specific transport reaction with a K^m in the range of 2–7 × 10^?4 M. All of the TdR transport-deficient (TT-) isolates examined (25) had TdR kinase activity (4% to 100% of wild-type). Variants deficient in TdR kinase activity (5% of wild-type) were obtained by exposing TT-cultures to 10^?3 M BUdR. The TK - variants multply continuously in 10^?3 M BUdR and retain the phenotype after prolonged culture in the absence of the drug. The frequency with which they occur is increased 20 to 50 fold by prior treatment of the culture with ICR 191, an acridine mustard mutagen. In haploid cells, it would be expected that TK- variants would arise in equal numbers from wild-type and TT- cultures if loss TdR kinase occurred independently of loss of the transport reaction. However, wild-type cells give no colonies resistant to 10^?3 M BUdR under conditions the give 1 to 50 colonies per million TT- cells. The TT- phenotype seems to be a required intermediate state in the origin of the TK- phenotype. Therefore, the TK- clones described above are unlikely to be products of mutation at a single genetic locus.     

Differences in growth,total lipid content and fatty acid composition among 60 clones of <Emphasis Type="Italic">Cylindrotheca fusiformis</Emphasis>

Differences between clones of the diatom Cylindrotheca fusiformi were studied with respect to growth rate, total lipid content and fatty acid composition. Sixty clones were isolated and cultivated under batch conditions. All clones were grown under identical conditions (temperature 22±1°C, light intensity 100 μmol photon m⁻² s⁻¹, salinity 28, F/2 medium) and were harvested in the late exponential growth phase for lipid and fatty acid analysis. The results show a wide variation in growth, total lipid content and fatty acid profiles among clones (p<0.05). The major fatty acids in the 60 clones were 14:0 (4.6–9.1%), 16:0 (18.2–32.0%), 16:1n-7 (21.6–33.1%), 20:4n-6 (4.1–13.5%) and 20:5n-3 (6.2–17.2%), with the highest proportion of 20:4n-6 in clone CF13 (13.5%), and the highest proportion of 20:5n-3 in clone CF5 (17.2%). The results support the view that some microalgal fatty acid variation is not restricted to interspecific variation and external factors, but also varies from clone to clone within the same species.     

Use of Stable-Isotope Probing, Full-Cycle rRNA Analysis, and Fluorescence In Situ Hybridization-Microautoradiography To Study a Methanol-Fed Denitrifying Microbial Community

A denitrifying microbial consortium was enriched in an anoxically operated, methanol-fed sequencing batch reactor (SBR) fed with a mineral salts medium containing methanol as the sole carbon source and nitrate as the electron acceptor. The SBR was inoculated with sludge from a biological nutrient removal activated sludge plant exhibiting good denitrification. The SBR denitrification rate improved from less than 0.02 mg of NO₃⁻-N mg of mixed-liquor volatile suspended solids (MLVSS)⁻¹ h⁻¹ to a steady-state value of 0.06 mg of NO₃⁻-N mg of MLVSS⁻¹ h⁻¹ over a 7-month operational period. At this time, the enriched microbial community was subjected to stable-isotope probing (SIP) with [¹³C]methanol to biomark the DNA of the denitrifiers. The extracted [¹³C]DNA and [¹²C]DNA from the SIP experiment were separately subjected to full-cycle rRNA analysis. The dominant 16S rRNA gene phylotype (group A clones) in the [¹³C]DNA clone library was closely related to those of the obligate methylotrophs Methylobacillus and Methylophilus in the order Methylophilales of the Betaproteobacteria (96 to 97% sequence identities), while the most abundant clone groups in the [¹²C]DNA clone library mostly belonged to the family Saprospiraceae in the Bacteroidetes phylum. Oligonucleotide probes for use in fluorescence in situ hybridization (FISH) were designed to specifically target the group A clones and Methylophilales (probes DEN67 and MET1216, respectively) and the Saprospiraceae clones (probe SAP553). Application of these probes to the SBR biomass over the enrichment period demonstrated a strong correlation between the level of SBR denitrification and relative abundance of DEN67-targeted bacteria in the SBR community. By contrast, there was no correlation between the denitrification rate and the relative abundances of the well-known denitrifying genera Hyphomicrobium and Paracoccus or the Saprospiraceae clones visualized by FISH in the SBR biomass. FISH combined with microautoradiography independently confirmed that the DEN67-targeted cells were the dominant bacterial group capable of anoxic [¹⁴C]methanol uptake in the enriched biomass. The well-known denitrification lag period in the methanol-fed SBR was shown to coincide with a lag phase in growth of the DEN67-targeted denitrifying population. We conclude that Methylophilales bacteria are the dominant denitrifiers in our SBR system and likely are important denitrifiers in full-scale methanol-fed denitrifying sludges.     

Differences in membrane unsaturated fatty acids and electron spin resonance in different types of myeloid leukemia cells

The fatty acid composition and some physical properties of intact cells and isolated plasma membranes of two types of mouse myeloid leukemia cell clone grown in culture have been examined. One clone type, MGI⁺D⁺, can be induced by the macrophage and granulocyte-inducing protein (MGI) to differentiate into mature macrophages and granulocytes. The other clone type, MGI⁺D^?, could not be induced to differentiate into mature cells. A two-fold increase in the ratio of saturated fatty acid to unsaturated fatty acid was found in the MGI⁺D^? compared to the MGI⁺D⁺ clones. The MGI⁺D^? clones produced an unusual polyunsaturated C_20:5 fatty acid at 28°C, whereas the MGI⁺D⁺ clones did not grow at this temperature. The cells and their isolated plasma membranes were studied by electron spin resonance. The motion of the 5-nitroxide stearate spin label was found to be higher in the intact cells and in the membranes of MGI⁺D^? clones than of the MGI⁺D⁺ clones. The cells of MGI⁺D⁺ clones showed a similar freedom of motion to normal myeloblasts from the bone marrow. The results indicate that myeloid leukemia cells which differ in their competence to be induced to differentiate into mature cells have different physical properties of their plasma membranes and that this is correlated with their fatty acid acyl chain composition.     

Effect of B7.1 Costimulation on T-Cell Based Immunity against TAP-Negative Cancer Can Be Facilitated by TAP1 Expression

Tumors deficient in expression of the transporter associated with antigen processing (TAP) usually fail to induce T-cell-mediated immunity and are resistant to T-cell lysis. However, we have found that introduction of the B7.1 gene into TAP-negative (TAP⁻) or TAP1-transfected (TAP1⁺) murine lung carcinoma CMT.64 cells can augment the capacity of the cells to induce a protective immune response against wild-type tumor cells. Differences in the strength of the protective immune responses were observed between TAP⁻ and TAP1⁺ B7.1 expressing CMT.64 cells depending on the doses of γ-irradiated cell immunization. While mice immunized with either high or low dose of B7.1-expressing TAP1⁺ cells rejected TAP⁻ tumors, only high dose immunization with B7.1-expressing TAP⁻ cells resulted in tumor rejection. The induced protective immunity was T-cell dependent as demonstrated by dramatically reduced antitumor immunity in mice depleted of CD8 or CD4 cells. Augmentation of T-cell mediated immune response against TAP⁻ tumor cells was also observed in a virally infected tumor cell system. When mice were immunized with a high dose of γ-irradiated CMT.64 cells infected with vaccinia viruses carrying B7.1 and/or TAP1 genes, we found that the cells co-expressing B7.1 and TAP1, but not those expressing B7.1 alone, induced protective immunity against CMT.64 cells. In addition, inoculation with live tumor cells transfected with several different gene(s) revealed that only B7.1- and TAP1-coexpressing tumor cells significantly decreased tumorigenicity. These results indicate that B7.1-provoked antitumor immunity against TAP⁻ cancer is facilitated by TAP1-expression, and thus both genes should be considered for cancer therapy in the future.     

Regulatory role of CD1d in neurotropic virus infection

The GDVII strain of Theiler's murine encephalomyelitis virus (TMEV) causes an acute fatal polioencephalomyelitis in mice. Infection of susceptible mice with the DA strain of TMEV results in an acute polioencephalomyelitis followed by chronic immune-mediated demyelination with virus persistence in the central nervous system (CNS); DA virus infection is used as an animal model for multiple sclerosis. CD1d-restricted natural killer T (NKT) cells can contribute to viral clearance and regulation of autoimmune responses. To investigate the role of CD1d in TMEV infection, we first infected CD1d-deficient mice (CD1^−/−) and wild-type BALB/c mice with GDVII virus. Wild-type mice were more resistant to virus than CD1^−/− mice (50% lethal dose titers: wild-type mice, 10 PFU; CD1^−/− mice, 1.6 PFU). Wild-type mice had fewer viral antigen-positive cells with greater inflammation in the CNS than CD1^−/− mice. Second, an analysis of DA virus infection in CD1^−/− mice was conducted. Although both wild-type and CD1^−/− mice had similar clinical signs during the first 2 weeks after infection, CD1^−/− mice had an increase in neurological deficits over those observed in wild-type mice at 3 to 5 weeks after infection. Although wild-type mice had no demyelination, 20 and 60% of CD1^−/− mice developed demyelination at 3 and 5 weeks after infection, respectively. TMEV-specific lymphoproliferative responses, interleukin-4 (IL-4) production, and IL-4/gamma interferon ratios were higher in CD1^−/− mice than in wild-type mice. Thus, CD1d-restricted NKT cells may play a protective role in TMEV-induced neurological disease by alteration of the cytokine profile and virus-specific immune responses.     

Characteristics of spontaneous and induced thymidine and 5-iodo-2-deoxyuridine resistant clones of mouse lymphoma cells

Clones resistant to 5-iodo-2-deoxyuridine (IUdR) were isolated from P388 cells and cultured in the absence of selective medium. Thymidine kinase assays were performed on 8 clones which had arisen spontaneously and 19 isolated after exposure to X-rays or alkylating agents. All the clones tested showed significantly reduced thymidine kinase activity relative to wild-type cultures, but none showed zero levels. 14 of these clones were tested for thymidine (TdR) uptake and all showed a marked reduction in the rate of [³H]TdR incorporation into acid soluble fractions and into DNA. 7 IUdR-resistant (IUdR^r) clones were tested for revertibility as measured by growth of colonies in HAT medium. 5 of the 7 were found to revert at measurable rates either spontaneously or after a low dose of mutagen.Thymidine kinase activity was also measured in 8 thymidine resistant P388 clones (TdR^r). Initial rates of thymidine phosphorylation were not significantly altered in 5 of the 8 clones tested but significantly lower amounts of phosphorylated products were observed in 6 of the 8 clones. [³H]TdR uptake was reduced in 9 of 12 clones tested, and 2 of them showed no corresponding reduction in the thymidine kinase activity, suggesting the occurence of mutants with altered permeability for thymidine.IUdR resistant L5178Y clones could not be isolated. Thymidine resistant L5178Y clones were similar to TdR^r P388 clones, i.e. they showed changes in initial rates of thymidine kinase activity and reduced accumulation of phosphorylated products. Only one clone could be shown to be a membrane mutant. These results are discussed in relation to the genetic nature of the thymidine kinase locus in the two cell lines.     

Effects of amino acids on calcium uptake by glial and neuroblastoma cells

The uptake of [⁴⁵Ca] has been studied in clonal glial and neuronal cells. It was somewhat more efficient in the neuroblastoma clone M₁ compared to glial clones. In all cases [⁴⁵Ca] uptake was shown to depend on the phosphate concentration in the incubation medium. It was decreased by the ionophore A 23187 at 200 μM concentration in both neuronal and glial clones. The influence of amino acids some of which are putative neurotransmitters was investigated; the interactions between [⁴⁵Ca] uptake and these amino acids were related to their concentration and the type of cells used (neuronal or glial). L-aspartate and taurine for example had two opposite effects on [⁴⁵Ca] uptake by the glial clone NN at two different concentrations; they could therefore play a role in the control of calcium level in the synaptic cleft.     

Cloning of Two Genetically Transmitted Moloney Leukemia Proviral Genomes: Correlation Between Biological Activity of the Cloned DNA and Viral Genome Activation in the Animal

The Mov-7 and Mov-9 substrains of mice, carrying Moloney murine leukemia virus (M-MuLV) in their germ line at the Mov-7 locus and Mov-9 locus, respectively, are different with respect to virus activation. Infectious virus appears in all mice carrying the Mov-9 locus but is not activated in animals carrying the Mov-7 locus. Consequently, only Mov-9 mice develop viremia and subsequent leukemia. The endogenous M-MuLV provirus with flanking mouse sequences corresponding to the Mov-7 and Mov-9 loci was molecularly cloned. Detailed restriction maps obtained from the cloned DNAs revealed no detectable differences in the proviral genomes. The flanking mouse sequences, however, were different, confirming that the Mov-7 and Mov-9 loci represent different integration sites of M-MuLV. Both clones induced XC plaques in a transfection assay. The specific infectivity of the clones, however, was different. A total of 10⁻⁵ XC plaques per genome equivalent were induced by the Mov-9 clone, whereas only 10⁻⁹ XC plaques per genome equivalent were induced by the Mov-7 clone. Moreover, NIH 3T3 cells transfected with the Mov-9 clone produced NB-tropic M-MuLV, whereas cells transfected with the Mov-7 clone did not produce infectious virus. The results suggest that M-MuLV integrated at the Mov-7 locus carries a mutation which prevents synthesis of infectious virus but permits XC plaque induction by partial genome expression or synthesis of noninfectious particles. Thus, the pattern of virus expression in Mov-7 and Mov-9 mice correlates with the biological properties of the respective clones. Genomic DNA from Mov-9 mice was not infectious in the transfection assay (specific infectivity < 10⁻⁷ PFU per genome equivalent). As the only difference between the genomic and the cloned Mov-9 DNA appears to be the presence of 5-methylcytosine in CpG sequences, our results suggest that removal of methyl groups by molecular cloning in procaryotes permits genome expression in transfected eucaryotic cells. Our results support the hypothesis that DNA methylation is relevant not only in genome expression in the animal but also in expression of genes transfected into eucaryotic cells.     

Milligram Production and Biological Activity Characterization of the Human Chemokine Receptor CCR3

Human chemokine receptor CCR3 (hCCR3) belongs to the G protein-coupled receptors (GPCRs) superfamily of membrane proteins and plays major roles in allergic diseases and angiogenesis. In order to study the structural and functional mechanism of hCCR3, it is essential to produce pure protein with biological functions on a milligram scale. Here we report the expression of hCCR3 gene in a tetracycline-inducible stable mammalian cell line. A cell clone with high hCCR3 expression was selected from 46 stably transfected cell clones and from this cell line pure hCCR3 on a milligram scale was obtained after two-step purification. Circular dichroism spectrum with a characteristic shape and magnitude for α-helix indicated proper folding of hCCR3 after purification. The biological activity of purified hCCR3 was verified by its high binding affinity with its endogenous ligands CCL11 and CCL24, with K _D in the range of 10⁻⁸ M to 10⁻⁶ M.     

Interference in DNA Replication Can Cause Mitotic Chromosomal Breakage Unassociated with Double-Strand Breaks

Morphological analysis of mitotic chromosomes is used to detect mutagenic chemical compounds and to estimate the dose of ionizing radiation to be administered. It has long been believed that chromosomal breaks are always associated with double-strand breaks (DSBs). We here provide compelling evidence against this canonical theory. We employed a genetic approach using two cell lines, chicken DT40 and human Nalm-6. We measured the number of chromosomal breaks induced by three replication-blocking agents (aphidicolin, 5-fluorouracil, and hydroxyurea) in DSB-repair-proficient wild-type cells and cells deficient in both homologous recombination and nonhomologous end-joining (the two major DSB-repair pathways). Exposure of cells to the three replication-blocking agents for at least two cell cycles resulted in comparable numbers of chromosomal breaks for RAD54^−/−/KU70^−/− DT40 clones and wild-type cells. Likewise, the numbers of chromosomal breaks induced in RAD54^−/−/LIG4^−/− Nalm-6 clones and wild-type cells were also comparable. These data indicate that the replication-blocking agents can cause chromosomal breaks unassociated with DSBs. In contrast with DSB-repair-deficient cells, chicken DT40 cells deficient in PIF1 or ATRIP, which molecules contribute to the completion of DNA replication, displayed higher numbers of mitotic chromosomal breaks induced by aphidicolin than did wild-type cells, suggesting that single-strand gaps left unreplicated may result in mitotic chromosomal breaks.