Takako Kaneko

Potential Role for Purple Acid Phosphatase in the Dephosphorylation of Wall Proteins in Tobacco Cells

It is not yet known whether dephosphorylation of proteins catalyzed by phosphatases occurs in the apoplastic space. In this study, we found that tobacco (Nicotiana tabacum) purple acid phosphatase could dephosphorylate the phosphoryl residues of three apoplastic proteins, two of which were identified as α-xylosidase and β-glucosidase. The dephosphorylation and phosphorylation of recombinant α-xylosidase resulted in a decrease and an increase in its activity, respectively, when xyloglucan heptasaccharide was used as a substrate. Attempted overexpression of the tobacco purple acid phosphatase NtPAP12 in tobacco cells not only decreased the activity levels of the glycosidases but also increased levels of xyloglucan oligosaccharides and cello-oligosaccharides in the apoplast during the exponential phase. We suggest that purple acid phosphatase controls the activity of α-xylosidase and β-glucosidase, which are responsible for the degradation of xyloglucan oligosaccharides and cello-oligosaccharides in the cell walls.

Activation of β-Glucan Synthases by Wall-Bound Purple Acid Phosphatase in Tobacco Cells

Wall-bound purple acid phosphatases have been shown to be potentially involved in the regulation of plant cell growth. The aim of this work was to further investigate the function of one of these phosphatases in tobacco (Nicotiana tabacum), NtPAP12, using transgenic cells overexpressing the enzyme. The transgenic cells exhibited a higher level of phosphatase activity in their walls. The corresponding protoplasts regenerating a cell wall exhibited a higher rate of β-glucan synthesis and cellulose deposition was increased in the walls of the transgenic cells. A higher level of plasma membrane glucan synthase activities was also measured in detergent extracts of membrane fractions from the transgenic line, while no activation of Golgi-bound glycan synthases was detected. Enzymatic hydrolysis and methylation analysis were performed on the products synthesized in vitro by the plasma membrane enzymes from the wild-type and transgenic lines extracted with digitonin and incubated with radioactive UDP-glucose. The data showed that the glucans consisted of callose and cellulose and that the amount of each glucan synthesized by the enzyme preparation from the transgenic cells was significantly higher than in the case of the wild-type cells. The demonstration that callose and cellulose synthases are activated in cells overexpressing the wall-bound phosphatase NtPAP12 suggests a regulation of these carbohydrate synthases by a phosphorylation/dephosphorylation process, as well as a role of wall-bound phosphatases in the regulation of cell wall biosynthesis.

Purple acid phosphatase in the walls of tobacco cells

Purple acid phosphatase isolated from the walls of tobacco cells appears to be a 220kDa homotetramer composed of 60kDa subunits, which is purple in color and which contains iron as its only metal ion. Although the phosphatase did not require dithiothreitol for activity and was not inhibited by phenylarsine oxide, the enzyme showed a higher catalytic efficiency (k(cat)/K(m)) for phosphotyrosine-containing peptides than for other substrates including p-nitrophenyl-phosphate and ATP. The phosphatase formed as a 120kDa dimer in the cytoplasm and as a 220kDa tetramer in the walls, where Brefeldin A blocked its secretion during wall regeneration. According to our double-immunofluorescence labeling results, the enzyme might be translocated through the Golgi apparatus to the walls at the interphase and to the cell plate during cytokinesis.

Isolation and characterization of four cell wall purple acid phosphatase genes from tobacco cells

Four full-length cDNAs were isolated from a cDNA library prepared from tobacco cultured cells and designated NtPAP4, NtPAP12, NtPAP19 and NtPAP21, which could correspond to purple acid phosphatase (PAP). Levels of both NtPAP12 and NtPAP21 mRNA in the protoplasts immediately increased after the protoplasts were transferred to a medium for cell wall regeneration, and the accumulation of the mRNA was correlated with cell wall regeneration for 3 h. It is likely that the NtPAP12 and NtPAP21 gene products are wall-bound PAPs at the early stage of regenerating walls in tobacco protoplasts.

Acceleration of Cell Growth by Xyloglucan Oligosaccharides in Suspension-Cultured Tobacco Cells

The incorporation of xyloglucan oligosaccharide (XXXG) into the walls of suspension-cultured tobacco cells accelerated cell expansion followed by cell division, changed cell shape from cylindrical to spherical, decreased cell size, and caused cell aggregation. Fluorescent XXXG added to the culture medium was found to be incorporated into the surface of the entire wall, where strong incorporation occurred not only on the surface, but also in the interface walls between cells during cell division. Cell expansion was always greater in the transverse direction than in the longitudinal direction and then, immediately, expansion led to cell division in the presence of XXXG; this process might result in the high level of cell aggregation seen in cultured tobacco cells. We concluded that the integration of this oligosaccharide into the walls could accelerate not only cell expansion, but also cell division in cultured cells.

Purification and properties of native cell wall acid phosphatase from cultured tobacco cells.

Abstract The native cell wall acid phosphatase fraction was eluted at 0.6 M sodium chloride from a column of isolated cell walls of tobacco XD-6S cells with a linear increasing gradient of sodium chloride. A 48-fold purification was obtained by protein fractionation with hydroxyapatite, DEAE-Sephacel and butyl-Toyopearl 650. Native electrophoresis showed a diffuse protein band corresponding to the enzyme activity. The K m of the enzyme for p -nitrophenyl phosphate ( p NPP) at pH 5.6 was 0.38 mM. The activation energy for the denaturation of hydrolysis activity was 10.4 kJ mol −1 in the range of 30–80°. The enzyme showed rather broad substrate specificity toward several compounds.

Two isoforms of acid phosphatase secreted by tobacco protoplasts : differential effect of brefeldin A on their secretion

SummaryThe effects of brefeldin A (BFA) on the secretion of acid phosphatase (APase) by tobacco protoplasts were investigated. Secretion of APase was inhibited by BFA in a dose-dependent manner, with a concomitant intracellular accumulation of the enzyme. The secreted APase was composed of two isoforms. BFA (10/ μg/ml) inhibited the secretion of one of the isoforms without inhibiting that of the other, and this phenomenon explains the partial inhibition of APase secretion as a whole. The inhibition of APase secretion was accompanied by changes in the morphology of the Golgi apparatus and also by an increment in massdensity of cells.

Behavior of phosphatase isoforms during sclerotium formation in Physarum polycephalum.

The behavior of phosphatase isoforms under dark-starvation from plasmodium of Physarum polycephalum were investigated to determine their possible roles in sclerotium formation. Two and a half days after dark-starvation, approximately 95% of plasmodia plates formed sclerotia. Specific phosphatase activity increased markedly up to ca. two-fold within the first day of starvation, after which the enzymatic activity decreased rapidly to a level less than the initial level within 2 days of the starvation period. Among the two isoforms of enzyme detected just before sclerotization under dark-starvation conditions, the enzymatic activity of the major isoform (Rm value of 0.6) decreased gradually within 1.5 days of starvation, then linearly to less than 20% of that at the beginning of the observation. Those of other major isoform (Rm value of 0.7) increased up to ca. two-fold within the first day of starvation, then decreased linearly to levels less than that of the first 2 days of the starvation period. Behavior of this isoform strongly suggests that it initiates the formation of sclerotium under dark-starvation conditions.

60kD polypeptide of cell wall acid phosphatase from tobacco cells

Abstract The native cell wall acid phosphatase (APase), WP-II, of tobacco XD-6 cells was purified by chromatographic procedures. The purified WP-II yielded one major band of M r of 60kD on SDS-polyacrylamide gel electrophoresis(PAGE) after SDS treatment at 100°C for 5 min. The preparation, however, yielded an additional smear band with M r of 120 kD that retained phosphatase activity after the treatment with SDS at 20°C for 3 hr. Two dimensional SDS-PAGE with different denaturation suggested that the 120 kD band consisted of the 60 kD polypeptide. Renaturation of the 60 kD polypeptide recovered about 30% of the activity of the crude WP-II and 8% of that of the purified WP-II, respectively.

Transphosphorylation activity of acid phosphatase of Physarum polycephalum KH 25

Abstract Acid phosphatase was extracted and partially purified from plasmodia of Physarum polycephalum KH 25. The enzyme was assayed by its ability to transfer the phosphate group from p-nitrophenyl-phosphate (pNPP) to n-butanol. It was suggested that the mechanism of transphosphorylation was the double displacement(replacement)mechanism.