Growth and developmental responses of potato to osmotic stress under in vitro conditions

The effect of mannitol on different genotypes of potato was studied in callus and plantlet culture. In vitro responses of five potato genotypes with well-known field behaviour to water deficit were analysed. After a 4-week-long cultivation on media containing mannitol up to 0.8 M, different morpho-physiological parameters were determined and statistically analysed. The useful concentration of mannitol for in vitro screening the osmotic tolerance of different genotypes depended on the type of culture; it was 0.4 M in plantlet-test and 0.8 M in callus-test. In callus-test the relative increase of callus mass was a useful parameter for determination of osmotic tolerance of genotypes at cellular level. In plantlet culture, stress index calculated from the rate of surviving in vitro shoots, number and length of roots per surviving explant and the rate of rooted explants were applicable to determine three groups according to the tolerant, medium tolerant and sensitive categories in agreement with the field behaviour of these genotypes. Under in vitro stress conditions we were able to distinguish the examined genotypes with different drought tolerance.     

Expression and contribution of endogenous IL-13 in an experimental model of sepsis

IL-13 has been shown to exert potent anti-inflammatory properties. In this study, we elucidated the functional role of endogenous IL-13 in a murine model of septic peritonitis induced by cecal ligation and puncture (CLP). Initial studies demonstrated that the level of IL-13 increased in tissues including liver, lung, and kidney, whereas no considerable increase was found in either peritoneal fluid or serum after CLP. Immunohistochemically, IL-13-positive cells were Kupffer cells in liver, alveolar macrophages in lung, and epithelial cells of urinary tubules in kidney. IL-13 blockade with anti-IL-13 Abs significantly decreased the survival rate of mice after CLP from 53% to 14% on day 7 compared with control. To determine the potential mechanisms whereby IL-13 exerted a protective role in this model, the effects of anti-IL-13 Abs on both local and systemic inflammation were investigated. Administration of anti-IL-13 Abs did not alter the leukocyte infiltration and bacterial load in the peritoneum after CLP but dramatically increased the neutrophil influx in tissues after CLP, an effect that was accompanied by significant increases in the serum levels of aspartate transaminase, alanine transaminase, blood urea nitrogen, and creatinine. Tissue injury caused by IL-13 blockade was associated with increases in mRNA and the protein levels of CXC chemokines macrophage inflammatory protein-2 and KC as well as the CC chemokine macrophage inflammatory protein-1alpha and the proinflammatory cytokine TNF-alpha. Collectively, these results suggest that endogenous IL-13 protected mice from CLP-induced lethality by modulating inflammatory responses via suppression of overzealous production of inflammatory cytokines/chemokines in tissues.     

Size-dependent DNA mobility in cytoplasm and nucleus

The diffusion of DNA in cytoplasm is thought to be an important determinant of the efficacy of gene delivery and antisense therapy. We have measured the translational diffusion of fluorescein-labeled double-stranded DNA fragments (in base pairs (bp): 21, 100, 250, 500, 1000, 2000, 3000, 6000) after microinjection into cytoplasm and nucleus of HeLa cells. Diffusion was measured by spot photobleaching using a focused argon laser spot (488 nm). In aqueous solutions, diffusion coefficients of the DNA fragments in water (D(w)) decreased from 53 x 10(-8) to 0.81 x 10(-8) cm(2)/s for sizes of 21-6000 bp; D(w) was related empirically to DNA size: D(w) = 4.9 x 10(-6) cm(2)/s.[bp size](-0.72). DNA diffusion coefficients in cytoplasm (D(cyto)) were lower than D(w) and depended strongly on DNA size. D(cyto)/D(w) decreased from 0.19 for a 100-bp DNA fragment to 0.06 for a 250-bp DNA fragment and was <0.01 for >2000 bp. Diffusion of microinjected fluorescein isothiocyanate (FITC) dextrans was faster than that of comparably sized DNA fragments of 250 bp and greater. In nucleus, all DNA fragments were nearly immobile, whereas FITC dextrans of molecular size up to 580 kDa were fully mobile. These results suggest that the highly restricted diffusion of DNA fragments in nucleoplasm results from extensive binding to immobile obstacles and that the decreased lateral mobility of DNAs >250 bp in cytoplasm is because of molecular crowding. The diffusion of DNA in cytoplasm may thus be an important rate-limiting barrier in gene delivery utilizing non-viral vectors.     

Determinants of the nuclear localization of the heterodimeric DNA fragmentation factor (ICAD/CAD)

Programmed cell death or apoptosis leads to the activation of the caspase-activated DNase (CAD), which degrades chromosomal DNA into nucleosomal fragments. Biochemical studies revealed that CAD forms an inactive heterodimer with the inhibitor of caspase-activated DNase (ICAD), or its alternatively spliced variant, ICAD-S, in the cytoplasm. It was initially proposed that proteolytic cleavage of ICAD by activated caspases causes the dissociation of the ICAD/CAD heterodimer and the translocation of active CAD into the nucleus in apoptotic cells. Here, we show that endogenous and heterologously expressed ICAD and CAD reside predominantly in the nucleus in nonapoptotic cells. Deletional mutagenesis and GFP fusion proteins identified a bipartite nuclear localization signal (NLS) in ICAD and verified the function of the NLS in CAD. The two NLSs have an additive effect on the nuclear targeting of the CAD-ICAD complex, whereas ICAD-S, lacking its NLS, appears to have a modulatory role in the nuclear localization of CAD. Staurosporine-induced apoptosis evoked the proteolysis and disappearance of endogenous and exogenous ICAD from the nuclei of HeLa cells, as monitored by immunoblotting and immunofluorescence microscopy. Similar phenomenon was observed in the caspase-3-deficient MCF7 cells upon expressing procaspase-3 transiently. We conclude that a complex mechanism, involving the recognition of the NLSs of both ICAD and CAD, accounts for the constitutive accumulation of CAD/ICAD in the nucleus, where caspase-3-dependent regulation of CAD activity takes place.     

Understanding the immutability of restriction enzymes: crystal structure of BglII and its DNA substrate at 1.5 A resolution

Restriction endonucleases are remarkably resilient to alterations in their DNA binding specificity. To understand the basis of this immutability, we have determined the crystal structure of endonuclease BglII bound to its recognition sequence (AGATCT), at 1. 5 A resolution. We compare the structure of BglII to endonuclease BamHI, which recognizes a closely related DNA site (GGATCC). We show that both enzymes share a similar alpha/beta core, but in BglII, the core is augmented by a beta-sandwich domain that encircles the DNA to provide extra specificity. Remarkably, the DNA is contorted differently in the two structures, leading to different protein-DNA contacts for even the common base pairs. Furthermore, the BglII active site contains a glutamine in place of the glutamate at the general base position in BamHI, and only a single metal is found coordinated to the putative nucleophilic water and the phosphate oxygens. This surprising diversity in structures shows that different strategies can be successful in achieving site-specific recognition and catalysis in restriction endonucleases.     

Measles Virus DNA Vaccination: Antibody Isotype Is Determined by the Method of Immunization and by the Nature of both the Antigen and the Coimmunized Antigen

Plasmids encoding the measles virus hemagglutinin (HA) and nucleoprotein (NP) proteins inoculated into the skin of BALB/c mice by the gene gun method induced both humoral and cytotoxic lymphocyte class I-restrict- ed immune responses. Although intramuscular immunization induces the immunoglobulin G2a (IgG2a) antibody isotype for both antigens, with gene gun immunization, the NP still generated mainly IgG2a and the major isotype induced by the HA was IgG1. Interestingly, gene gun coimmunization of HA and NP plasmids resulted in a dominant IgG1 HA response and the switching of antibodies generated against the NP to the IgG1 isotype.The initial studies showing that injection of DNA into muscle induces an immune response to the encoded protein opened a new approach to vaccination (for reviews, see references 19 and 22). Recent studies suggest that inoculated muscle cells probably act only as a source of antigen and that immune priming takes place elsewhere in the body (14). For example, excision of an injected muscle a few minutes after DNA inoculation did not affect antibody and cytotoxic T-lymphocyte (CTL) responses (21). Thus, it may be interesting to examine other DNA delivery systems to study how the immune system responds to DNA vaccination. One alternative system involves precipitating DNA onto gold beads which are then propelled into the skin by means of pressurized helium gas (12). When such a system is used, less DNA is required, but unlike the case with intramuscular inoculations, the response is Th2-like, generating immunoglobulin G1 (IgG1) antibodies (17). More recent observations suggest that this is probably due to the mode of inoculation rather than the route (10). We have been studying DNA vaccination against the paramyxovirus measles virus (MV). This disease is one of the primary causes of infant mortality in developing countries, and there is an urgent need for an effective vaccine in infants, as the present live attenuated vaccine is inefficient in the presence of maternal antibodies. Our previous studies established that in a mouse model at least three MV proteins play a role in protection (23). Both glycoproteins, hemagglutinin (HA) and fusion, induce neutralizing antibodies (9, 11), and HA and nucleoprotein (NP) induce CTLs (3, 4), which do not protect against infection but help in recovery (5). In our previous study on DNA vaccination, we showed that intramuscular inoculation of DNAs coding for the MV HA and NP (pV1J-HA and pV1J-NP [6]) induced class I-restricted CTLs and a humoral response corresponding to a Th1 response (6). In the present study, we have extended our observations to compare the same plasmids’ ability to induce an immune response when they are delivered into the skin by a gene gun (Bio-Rad, Ivry sur Seine, France). Gold beads were coated with DNA as follows: approximately 30 mg of gold powder (1.0-μm gold beads; Bio-Rad) was mixed with 100 μl of 0.1 M spermidine (Sigma, L’Isle D’Abeau, France). After sonication, 0.5, 2, or 5 μg of plasmid DNA was added per mg of gold powder, and then 200 μl of 2.5 M CaCl₂ was added to the mixture, with gentle vortexing. Pellets were washed three times and suspended in cold 100% ethanol. Tubes containing dried DNA-coated gold beads were stored at 4°C.

Immune response to MV HA DNA.

Six- to eight-week-old female BALB/c mice (Iffa-Credo, Domaine des Oncins, France) were immunized via the shaved abdominal epidermis one to three times at 21-day intervals with 0.5, 2, or 5 μg of pV1J-HA DNA/mg of gold beads. Two gene gun inoculations (each containing 0.5 mg of gold beads) were given for each dose. The antibody levels measured by enzyme-linked immunosorbent assay, as previously described (6), reached a plateau after two inoculations and did not significantly increase with a third inoculation (result not shown).Our previous studies with intramuscular inoculation established that pV1J-HA induced IgG2a antibodies which are associated with a Th1-type response. When we studied the antibody isotype induced in BALB/c by the gene gun immunization, we observed that it was mainly IgG1 (Fig. ​(Fig.1).1). These data are similar to those described for influenza hemagglutinin by Feltquate et al. (10). The antibody isotype did not vary with time after immunization, number of immunizations, or the amount of plasmid used (data not shown) and was not influenced by genetic background, as pV1J-HA-immunized DBA/2 (H-2^d), C3H (H-2^k), and C57/Black (H-2^b) mice induced mainly the IgG1 isotype (Fig. ​(Fig.11).Open in a separate windowFIG. 1Anti-MV HA isotype of antibodies induced in BALB/c, DBA/2 (H-2^d), C3H (H-2^k), and C57/Black (H-2^b) mice immunized with 0.5, 2, or 5 μg of pV1J-HA by epidermal gene gun. Sera were collected 3 weeks after the immunization. Sera from mice immunized with a control pV1J had means ± standard deviations of 158 ± 198 ng/ml for IgG1 anti-HA antibodies (n = 11) and 10 ± 18 ng/ml for IgG2a anti-HA antibodies (n = 11). Data represent individual animals. To study CTL activity, spleen cells from the immunized mice were stimulated in vitro and analyzed in a cytolytic assay as previously described (6). Despite the apparent Th2-type response, good memory CTL responses were obtained with all protocols used, even when responses were measured just 8 days after a single immunization (Fig. ​(Fig.2),2), and persisted for several months. Open in a separate windowFIG. 2Anti-MV HA and NP CTL response after immunization with pV1J-HA or -NP, respectively. BALB/c mice were immunized with 0.5 (circle), 2 (triangle), or 5 (square) μg of pV1J-HA by epidermal gene gun one (a, d), two (b, e), or three (c, f) times at 3-week intervals. The spleen cells were removed 3 weeks (continuous line) or 8 days (dotted line) after the last immunization. After in vitro stimulation with P815-HA or -NP cells, respectively, lysis was measured on P815-HA or -NP cells, and P815 cells were used as a negative control. The results show the specific lysis of targets at graded effector/target ratios. Each curve represents an individual animal.

Immune response to MV NP DNA.

BALB/c mice were immunized with pV1J-NP with the gene gun and a similar schedule of immunizations. The antibody response with the different number of doses and different plasmid concentrations was similar to that observed for HA, i.e., increased levels after one boost. Similar antibody levels were induced in the range of 0.5 to 5 μg of DNA (data not shown). As was previously shown by intramuscular inoculation (6), the antibody isotype induced was mainly IgG2a (Fig. ​(Fig.3),3), in contrast to the HA results. One explanation for this could be that as the NP is a cytosolic protein and the HA is membrane bound, the potential processing and presentation of the two proteins may be different. However, the same argument would be valid for intramuscular inoculation. Furthermore, it has been reported that gene gun immunization with influenza NP induces a Th2 response (17), so clearly the directed differentiation of T cells is more complicated than a simple distinction between cytosol and membrane-bound proteins. The two methods of immunization (intramuscular versus gene gun) target different cell types, possibly influencing the T-cell response. Furthermore, 9 weeks after immunization, one-third of the 18 mice analyzed showed increased levels of anti-NP IgG1 over IgG2a, regardless of the quantity of DNA injected or the number of inoculations (data not shown). CTL responses were also high, even after a single inoculation (Fig. ​(Fig.2).2). Open in a separate windowFIG. 3Anti-MV NP antibody response as measured by enzyme-linked immunosorbent assay in BALB/c mice immunized with 5 μg of pV1J-NP by epidermal gene gun. Sera were collected 3 weeks after immunization. Each pair of bars represents an individual animal. Sera from mice immunized with a control pV1J had means ± standard deviations of 13 ± 45 ng/ml of IgG1 anti-NP antibodies (n = 11) and 83 ± 276 ng/ml of IgG2a anti-NP antibodies (n = 11).

Coimmunization of HA and NP DNA.

Our results show that when injected by the gene gun, the different MV proteins induce different antibody isotypes. This phenomenon has been suggested to parallel the induction of Th1 and Th2 pathways (1). The pathway taken has been shown to be influenced by the induction of certain cytokines. To determine if coimmunization of these two plasmids would influence the isotype of the antibody response, BALB/c mice were immunized with a mixture of pV1J-HA and pV1J-NP in ratios of 1:1, 4:1, or 1:4 while the total amount of DNA was kept constant (5 μg).Measurement of the anti-HA isotype antibody in mice vaccinated with the different mixtures showed it to be mainly IgG1, similar to that for HA alone (data not shown). In contrast, the anti-NP antibodies switched from the IgG2a to the IgG1 isotype after coimmunization (Fig. ​(Fig.4).4). The proximity of expression of the two antigens was not important in this switching effect, as when pV1J-HA and -NP were inoculated separately in different areas of the skin, the antibody response induced 3 weeks later was the same as that induced when the mixture was inoculated (Fig. ​(Fig.4).4). When analyzed 6 weeks later, only one of six mice showed IgG2a predominance. Open in a separate windowFIG. 4Relationship between the isotype of anti-NP antibodies in sera from mice immunized with 5 μg of pV1J-NP or mixtures of pV1J-HA and pV1J-NP at ratios of 1:1, 4:1, and 1:4 so that the total quantity of DNA/mg gold beads was 5 μg, or pV1J-HA and pV1J-NP injected in different skin area. BALB/c mice were immunized by epidermal gene gun. Sera were collected 3 weeks after immunization. Data are results for individual animals.Cytokines have been used to direct the immune response in several studies. Expression of interleukin-12 either alone or with immunizing antigens can increase protection against microbial pathogens (2) or tumors in animal models (13, 18), in parallel with a Th1 response. Expression or addition of interleukin-4 with the immunogen induces a Th2 response (16, 20). The local concentrations of the cytokines in the initial priming of the immune response are probably critical, as once the T cells have been committed, they cannot be modified. Although some studies have suggested the possibility of Th1 and Th2 switching, a more recent study has shown that once differentiated, T cells cannot switch (15). In agreement with this, Feltquate et al. (10) have shown that initial immunization establishes the Th-cell type of the immune response and that this is not modified by subsequent alternative methods of immunization.Acute viral infections induce a Th1 response, whereas soluble proteins favor a Th2 response (7). When tetanus toxoid was administered 1 day after viral infection, the response to this soluble protein changed from Th2 to Th1 (8). Presumably, this change is due to the domination by the cytokines induced by the viral infection of those produced by the tetanus toxoid. In our studies, we observed that after the coexpression of MV HA and NP, the HA-induced Th2 response was dominant. These observations will obviously have an impact on DNA vaccination, as DNAs coding for several pathogens should ideally be administered concomitantly.     

4-Hydroxybenzoate 3-geranyltransferase from Lithospermum erythrorhizon: purification of a plant membrane-bound prenyltransferase

Geranyldiphosphate:4-hydroxybenzoate 3-geranyltransferase is a regulatory enzyme in the biosynthesis of shikonin, a phytoalexin and pharmaceutical produced by cell cultures of Lithospermum erythrorhizon Sieb. et Zucc.. In Linsmaier-Skoog medium, the activity of this enzyme could be enhanced more than 200-fold by addition of methyl jasmonate, and this culture material was used for the solubilization and purification of the enzyme. Of various detergents examined, digitonin was the most suitable for the solubilization of the enzyme. The solubilized enzyme was purified 800-fold by chromatography over diethylaminoethyl (DEAE)-Sephacel, Heparin-Sepharose, Reactive Green 19-Agarose, and Cholic Acid-Agarose. The purified enzyme required magnesium ions as cofactor and was highly specific for geranyldiphosphate (GPP) and 4-hydroxybenzoate (4HB) as substrates. The K _m values for 4HB and GPP were calculated by the method of Lineweaver and Burk as 18.4 μM and 13.8 μM, respectively. Received: 2 July 1997 / Accepted: 14 October 1997     

Investigation of 15q11-q13, 16p11.2 and 22q13 CNVs in Autism Spectrum Disorder Brazilian Individuals with and without Epilepsy

Copy number variations (CNVs) are an important cause of ASD and those located at 15q11-q13, 16p11.2 and 22q13 have been reported as the most frequent. These CNVs exhibit variable clinical expressivity and those at 15q11-q13 and 16p11.2 also show incomplete penetrance. In the present work, through multiplex ligation-dependent probe amplification (MLPA) analysis of 531 ethnically admixed ASD-affected Brazilian individuals, we found that the combined prevalence of the 15q11-q13, 16p11.2 and 22q13 CNVs is 2.1% (11/531). Parental origin could be determined in 8 of the affected individuals, and revealed that 4 of the CNVs represent de novo events. Based on CNV prediction analysis from genome-wide SNP arrays, the size of those CNVs ranged from 206 kb to 2.27 Mb and those at 15q11-q13 were limited to the 15q13.3 region. In addition, this analysis also revealed 6 additional CNVs in 5 out of 11 affected individuals. Finally, we observed that the combined prevalence of CNVs at 15q13.3 and 22q13 in ASD-affected individuals with epilepsy (6.4%) was higher than that in ASD-affected individuals without epilepsy (1.3%; p<0.014). Therefore, our data show that the prevalence of CNVs at 15q13.3, 16p11.2 and 22q13 in Brazilian ASD-affected individuals is comparable to that estimated for ASD-affected individuals of pure or predominant European ancestry. Also, it suggests that the likelihood of a greater number of positive MLPA results might be found for the 15q13.3 and 22q13 regions by prioritizing ASD-affected individuals with epilepsy.     

The bimodal quasi-static and dynamic elastance of the murine lung.

The double sigmoidal nature of the mouse pressure-volume (PV) curve is well recognized but largely ignored. This study systematically examined the effect of inflating the mouse lung to 40 cm H2O transrespiratory pressure (Prs) in vivo. Adult BALB/c mice were anesthetized, tracheostomized, and mechanically ventilated. Thoracic gas volume was calculated using plethysmography and electrical stimulation of the intercostal muscles. Lung mechanics were tracked during inflation-deflation maneuvers using a modification of the forced oscillation technique. Inflation beyond 20 cm H2O caused a shift in subsequent PV curves with an increase in slope of the inflation limb and an increase in lung volume at 20 cm H2O. There was an overall decrease in tissue elastance and a fundamental change in its volume dependence. This apparent "softening" of the lung could be recovered by partial degassing of the lung or applying a negative transrespiratory pressure such that lung volume decreased below functional residual capacity. Allowing the lung to spontaneously recover revealed that the lung required approximately 1 h of mechanical ventilation to return to the original state. We propose a number of possible mechanisms for these observations and suggest that they are most likely explained by the unfolding of alveolar septa and the subsequent redistribution of the fluid lining the alveoli at high transrespiratory pressure.