Studying the adaptive immune system in zebrafish by transplantation of hematopoietic precursor cells.

Traditionally, transplantation has been a major experimental procedure to study the development and function of hematopoietic and immune systems. Here, we describe the use of a zebrafish strain lacking definitive hematopoiesis (cmybI181N) for interspecific analysis of hematopoietic and immune cell development. Without conditioning prior to transplantation, allogeneic and xenogeneic hematopoietic progenitor cells stably engraft in adult zebrafish homozygous for the cmyb mutation. This unique animal model can be used to genetically and functionally disentangle universal and species-specific contributions of the microenvironment to hematopoietic progenitor cell maintenance and development.

Role of natural killer cells in resistance against friend retrovirus-induced leukemia.

We have previously shown that immunization with a synthetic peptide that contains a single CD4(+) T-cell epitope protects mice against immunosuppressive Friend retrovirus infection. Cells producing infectious Friend virus were rapidly eliminated from the spleens of mice that had been immunized with the single-epitope peptide. However, actual effector mechanisms induced through T-helper-cell responses after Friend virus inoculation were unknown. When cytotoxic effector cells detected in the early phase of Friend retrovirus infection were separated based on their expression of cell surface markers, those lacking CD4 and CD8 but expressing natural killer cell markers were found to constitute the majority of effector cells that lysed Friend virus-induced leukemia cells. Depletion of natural killer cells by injecting anti-asialo-ganglio-N-tetraosylceramide antibody did not affect the number of CD4(+) or CD8(+) T cells in the spleen, virus antigen-specific proliferative responses of CD4(+) T cells, or cytotoxic activity against Friend virus-induced leukemia cells exerted by CD8(+) effector cells. However, the same treatment markedly reduced the killing activity of CD4(-) CD8(-) effector cells and completely abolished the effect of peptide immunization. Although the above enhancement of natural killer cell activity in the early stage of Friend virus infection was also observed in mice given no peptide, these results have demonstrated the importance and requirement of natural killer cells in vaccine-induced resistance against the retroviral infection.

Geranylgeranyl diphosphate synthase from Scoparia dulcis and Croton sublyratus. Plastid localization and conversion to a farnesyl diphosphate synthase by mutagenesis.

cDNAs encoding geranylgeranyl diphosphate synthase (GGPPS) of two diterpene-producing plants, Scoparia dulcis and Croton sublyratus, have been isolated using the homology-based polymerase chain reaction (PCR) method. Both clones contained highly conserved aspartate-rich motifs (DDXX(XX)D) and their N-terminal residues exhibited the characteristics of chloroplast targeting sequence. When expressed in Escherichia coli, both the full-length and truncated proteins in which the putative targeting sequence was deleted catalyzed the condensation of farnesyl diphosphate and isopentenyl diphosphate to produce geranylgeranyl diphosphate (GGPP). The structural factors determining the product length in plant GGPPSs were investigated by constructing S. dulcis GGPPS mutants on the basis of sequence comparison with the first aspartate-rich motif (FARM) of plant farnesyl diphosphate synthase. The result indicated that in plant GGPPSs small amino acids, Met and Ser, at the fourth and fifth positions before FARM and Pro and Cys insertion in FARM play essential roles in determination of product length. Further, when a chimeric gene comprised of the putative transit peptide of the S. dulcis GGPPS gene and a green fluorescent protein was introduced into Arabidopsis leaves by particle gun bombardment, the chimeric protein was localized in chloroplasts, indicating that the cloned S. dulcis GGPPS is a chloroplast protein.

Chalcone and stilbene synthases expressed in eucaryotes exhibit reduced cross-reactivity in vitro.

Chalcone synthase (CHS) and stilbene synthase (STS) catalyze different cyclization reactions of the common tetraketide to give different products, naringenin chalcone and resveratrol, respectively. We have previously observed in vitro cross-reaction of CHS and STS overexpressed in Escherichia coli, resveratrol production by CHS and chalcone production by STS. When expressed in eucaryotic cells, or in E. coli as thioredoxin-fusion proteins, CHS and STS exhibited reduced cross-reaction. STS refolded from inclusion bodies also showed reduced cross-reaction. While addition of bovine serum albumin and pH in the reaction were without noticeable effect, addition of glycerol decreased the cross-reaction of CHS likely due to its stabilizing effect on enzyme conformation. These results were interpreted to provide supporting evidence to our earlier proposition (Yamaguchi T. et al., FEBS Lett., 460, 457-4 61 (1999)) that the in vitro cross-reaction of CHS and STS is due to intrinsic capability of these enzymes to catalyze different types of cyclization, which, in turn, is endowed by conformational flexibility of their active sites.

Geranylgeranyl diphosphate synthases from Scoparia dulcis and Croton sublyratus. cDNA cloning, functional expression, and conversion to a farnesyl diphosphate synthase.

cDNAs encoding geranylgeranyl diphosphate synthase (GGPPS) of two diterpene producing plants, Scoparia dulcis and Croton sublyratus, were isolated using the homology-based polymerase chain reaction method. Both cloned genes showed high amino acid sequence homology (60-70%) to other plant GGPPSs and contained highly conserved aspartate-rich motifs. The obtained clones were functionally expressed in Escherichia coli and showed sufficient GGPPS activity to catalyze the condensation of farnesyl diphosphate (FPP) and isopentenyl diphosphate to form geranylgeranyl diphosphate. To investigate the factor determining the product chain length of plant GGPPSs, S. dulcis GGPPS mutants in which either the small amino acids at the fourth and fifth positions before the first aspartate-rich motif (FARM) were replaced with aromatic amino acids or in which two additional amino acids in FARM were deleted were constructed. Both mutants behaved like FPPS-like enzymes and almost exclusively produced FPP when dimethylallyl diphosphate was used as a primer substrate, and failed to accept FPP as a primer substrate. These results indicate that both small amino acids at the fourth and fifth positions before FARM and the amino acid insertion in FARM play essential roles in product length determination in plant GGPPSs.

Inhibition effects of 5-S-glutathionyl-N-beta-alanyl-L-dopa analogues against Src protein tyrosine kinase.

Twelve analogues of the antibacterial phenolic peptide 5-S-glutathionyl-N-beta-alanyl-L-dopa (5-S-GA-L-D, 1) were synthesized via orthoquinone using tyrosinase. Several synthesized compounds inhibited the v-Src autophosphorylation tyrosine kinase reaction with an IC50 value comparable to that of herbimycin A. The inhibition of c-Src substrate phosphorylation was much less active than v-Src autophosphorylation inhibition. 5-S-GA-L-D (1) and its analogous competed with peptide substrate and non-compared with ATP. The analogues showed no effects on substrate phosphorylation by epidermal growth factor receptor (EGFR), and this selectivity is the most characteristic feature of the 5-S-GA-L-D and its analogues (1-12).

Different inhibitory effects of 5-S-glutathionyl-beta-alanyl-L-dopa (5-S-GA-L-D) analogues on autophosphorylation and substrate phosphorylation of Src protein tyrosine kinase.

Starting with 5-S-glutathionyl-beta-alanyl-L-dopa (1) and 5-S-glutathionyl-beta-alanyl-dopamine (2), a series of analogues with truncated glutathionyl and beta-alanyl-dopa moieties were synthesized, and their inhibitory effects on autophosphorylation and substrate phosphorylation reaction by c-Src and by epidermal growth factor receptor (EGFR) were evaluated. When the glutamyl residue was removed, the inhibitory effects on v-Src autophosphorylation decreased about 4- to 5-fold, and concomitant removal of the glutamyl and beta-alanyl residues resulted in a 40- to 60-fold decrease in the inhibition of v-Src autophosphorylation. On the other hand, these modifications had little effect on the inhibitory activity of substrate (Raytide) phosphorylation by c-Src. Interestingly, 5-S-cysteinyl dopamine inhibited the Src substrate phosphorylation reaction with comparable potency to that of genistein. Nonpeptide lipophilic derivatives had a similar inhibition on v-Src autophosphorylation but decreased inhibitory effects on substrate phosphorylation when compared to the lead compounds. Most compounds showed little effect on substrate phosphorylation by EGFR.

Induction of cross-reactivity in an endogenous viral peptide non-reactive to FBL-3 tumor-specific helper T-cell clones.

We previously reported a helper T-cell (Th) epitope (peptide i) which corresponded to the sequence ranging from positions 462 to 479 from the N-terminus of the Friend-murine leukemia virus (F-MuLV) envelope protein (env462-479). Homologous sequences exist in both Moloney-murine leukemia (M-MuLV env452-469) and endogenous AKV (AKV env453-470) viruses, which differ from F-MuLV env462-479 in 5 and 7 amino acids, respectively. However, peptide i-specific Th clones did not respond to either of the corresponding exogenous or endogenous peptides. One amino acid substitution in M-MuLV env452-469 (Asn to Tyr at position 465: N465Y) and three amino acids in AKV env453-470 (H460S, A466Y and Y468H) endowed both peptides with the reactivity to one of the Th clones, F5-5, almost to the same degree as peptide i. However, the other Th clones responded differently to each of the modified endogenous peptides substituted by one to three amino acids. The cells responsive to the cross-reactive peptides occupied only a minor portion, if any, of the bulk cultured lymph node cells from peptide i-immune mice, and in particular, no significant response to the modified endogenous peptides was observed in repeated experiments. The exchange of at least 3 residues was necessary for the endogenous peptide to acquire sufficient cross-reactivity to two of the three Th clones. However, it was noticeable that a single substitution of alanine by tyrosine at the dominant T-cell receptor (TCR) contact position of the peptide i(e) generated a weak but significant cross-reactivity to one of the three Th clones in this study. Thus, peptides of endogenous retroviral origin that would be modified by mutational events might become 'non-self' and prime Th cells leading to auto-antibody production and resulting in autoimmune disease.

Overlapping epitopes of friend murine leukemia virus gag-encoded leader sequence recognized by single cytotoxic T-lymphocyte clones.

The leader signal sequence of the non-structural gag-encoded glycoprotein precursor, Pr75gag, of Friend murine leukemia virus (F-MuLV) contains overlapping epitopes, SIVLCCLCL (p71-79) and CCLCLTVFL (p75 83) that activate Friend virus (FV)-induced tumor (FBL-3)-specific cytotoxic T-lymphocytes (CTL) (Kondo et al., J. Virol., 69, 1995, 6735-6741; Chen et al., J. Virol., 70, 1996, 7773-7782). It was investigated whether these two peptides are recognized by a single CTL clone or by individual clones with different specificities. The results show that both hydrophobic and cysteine-containing peptides are bound to H-2Db class I major histocompatibility complex (MHC) molecules and cross-recognized by a single CTL clone as well as bulk-cultured CTL from the spleens of mice immunized with FBL-3. The peptide p71-79 was effective for sensitizing target cells to lysis by CTL in the concentration of common antigenic peptides. Moreover, peptide p75-83 was 1000-fold more potent than the peptide p71-79. Specific cytotoxicity assays with variant peptides with alanine- and serine-substitutions suggested a highly complex function of the disulfide bond-forming peptides potentially sensitive to small sequence differences. The dominance of CTL responses to the transmembrane region is discussed in light of the high affinity of a novel hydrophobic peptide to compete with other peptides for binding to MHC molecules.

Selective inhibition of Src protein tyrosine kinase by analogues of 5-S-glutathionyl-beta-alanyl-L-dopa.

Twelve analogues of the antibacterial phenolic peptide 5-S-glutathionyl-beta-alanyl-L-dopa (5-S-GA-L-D: 1) were synthesized via orthoquinones using tyrosinase. Several synthesized compounds inhibited the v-Src autophosphorylation tyrosine kinase reaction with an IC50 value comparable to that of herbimycin. The inhibition of c-Src substrate phosphorylation was much less active than v-Src autophosphorylation inhibition. The analogues showed no effects on substrate phosphorylation by epidermal growth factor receptor (EGFR), and this selectivity is the most characteristic feature of the analogues (1-12).

Chiral discrimination of 2'-deoxy-L-cytidine and L-nucleotides by mouse deoxycytidine kinase: low stereospecificities for substrates and effectors.

The effects of four kinds of 2'-deoxy-L-nucleoside 5'-triphosphates and L-ATP, which are enantiomers of natural D-dNTPs and D-ATP, on deoxycytidine kinase (dCK) partially purified from mouse leukemic P388 cells were investigated. Only L-dCTP did not act as a phosphate donor while other L-dNTPs and L-ATP showed 15-30% of the activity of the corresponding D-dNTP or D-ATP. L-dCTP inhibited dCK non-competitively with 2'-deoxycytidine (D-dCyd) and competitively with phosphate donor D-ATP. These inhibitory effects of L-dCTP on dCK were similar to the results of earlier studies using D-dCTP. Thus, L-dCTP was shown to be capable of serving as a feedback inhibitor for dCK instead of D-dCTP. Mouse dCK was also able to phosphorylate L-dCyd, as demonstrated in the case of human dCK. The present results suggest that the chirality of not only dCyd as the substrate but also nucleotides as the substrate or effector is not strictly discriminated by dCK.

Inhibition of IL-1-induced IL-6 production by synthetic retinoids.

The effects of retinoids and retinoid antagonists on IL-6 production in MC3T3-E1 cells were investigated. None of the synthetic retinoids examined stimulated IL-6 production, but all of them strongly inhibited IL-6 production induced by mouse IL-1 alpha. Their inhibitory activities correlated well with their differentiation-inducing activities in HL-60 assay or their binding affinities to nuclear retinoic acid receptors (RARs). Among three retinoid antagonists, two weak antagonists exhibited similar inhibition of mouse IL-1 alpha-induced IL-6 production, whereas a potent retinoid antagonist, 4-(13H-10,11,12,13-tetrahydro-10,10,13,13,15-pentamethyl-dinaph tho[2,3-b] [1,2-e]diazepin-7-yl)benzoic acid (LE540, 14), enhanced IL-6 production under the same conditions.

meso-DNAs with homopurine sequences: analysis of their interaction with natural DNAs.

Two homopurine sequences of meso-DNAs (DNAs having an alternating sequence of 2-deoxy-L-ribose and 2-deoxy-D-ribose in their sugar moieties), d(LADG)5 and d(LGDA)5, were prepared. Both d(LADG)5 and d(LGDA)5 interacted with the corresponding complementary natural DNAs, d(DCDT)5 and d(DTDC)5, respectively. In the interactions, pH-dependent duplex/triplex selectivity was observed, i.e., meso-d(Pu)10 formed a duplex at pH 7.5 and a triplex at pH 5.0 with the complementary D-d(Py)10. The meso-d(Pu)10/D-d(Py)10 complex showed a CD spectrum similar in shape to that of the natural complex, suggesting that meso/natural complexes form right-handed helices. At pH 7.5, ethidium bromide intercalated into both d(LADG)5/d(DCDT)5 and d(LGDA)5/d(DTDC)5 duplexes. A clear difference between d(LADG)5/d(DCDT)5 and d(LGDA)5/d(DTDC)5 was observed at pH 5.0. Addition of ethidium bromide did not affect the formed d(LADG)5/d(DCDT)5 triplex, and ethidium bromide did not intercalate into the triplex. On the other hand, d(LGDA)5 did not form a triplex with d(DTDC)5 in the presence of ethidium bromide even at pH 5.0, but it formed a duplex. Ethidium bromide intercalated into the duplex at pH 5.0.

Chiral discrimination of enantiomeric 2'-deoxythymidine 5'-triphosphate by HIV-1 reverse transcriptase and eukaryotic DNA polymerases.

Inhibitory effects of 2'-deoxy-L-thymidine 5'-triphosphate (L-dTTP), the enantiomer of the natural substrate D-dTTP, on the activity of mammalian DNA polymerases alpha, beta and gamma, Escherichia coli DNA polymerase I and human immunodeficiency virus 1 (HIV-1) reverse transcriptase were examined. When poly(rA)n-oligo(dT)12-18 was used as the template-primer, L-dTTP showed remarkable inhibitory effect on HIV-1 reverse transcriptase in competitive fashion with respect to the substrate dTTP. In contrast, L-dTTP did not inhibit DNA polymerases alpha and was slightly inhibitory to DNA polymerase beta. These results suggest that the nuclear DNA polymerases alpha and beta showed high specificity for the substrate with the natural configuration of the sugar moiety, D-dTTP, exhibiting little or no ability to recognize L-dTTP, whereas HIV-1 reverse transcriptase essentially lacked the ability to differentiate the D- and L-sugar moieties.

Enantio- and meso-oligodeoxyribonucleotides.

As sugar-modified oligodeoxyribonucleotides, L-homooligomers (L-dA12 and L-dT12) and a L/D-alternative oligomer ((L-dA-D-dA)6) were synthesized. These oligomers were quite resistant towards phosphodiesterase degradations. L-dA12 formed complexes with poly(dT) and poly(U) at 0 degree C with different stabilities, on the other hand L-dT12 did not show obvious hypochromicities after mixing with complementary natural homopolymers. An alternative sequence, (L-dA-D-dA)6, interacted with both type homopolymers and stabilities of the complexes increased compared to that of L-dA12.

A new approach to detection of heterozygotes for adenosine deaminase deficiency: a hypothetical method.

In a second and third families with ADA deficiency found in Japan, we tried a new approach to evaluate heterozygote detection. This is based on the hypothesis that ADA activity of red blood cell is the quantitative sum of the activities of ADA proteins expressed by two allelic genes at the ADA autosomal locus, and that these activities are not changed by the gene transmission from parents to children. We have detected red blood cell-ADA activities expressed by the one normal allelic gene in heterozygotes (including parents and paternal or maternal grandfather or grandmother) and from these values have determined combinations for the pair of ADA activities expressed by the two allelic genes of other family members. These combinations were consistently made in all relatives examined in the two families, and we conclude that several members of each family who were judged to have nil activity in the combinations were heterozygotes for ADA deficiency.