Increased expression of heme oxygenase-1 and bilirubin accumulation in foam cells of rabbit atherosclerotic lesions.

Heme oxygenase-1 (HO-1) catalyzes the regiospecific oxidative degradation of heme to biliverdin IXalpha, iron, and carbon monoxide. Biliverdin IXalpha is subsequently reduced to bilirubin IXalpha by biliverdin reductase. HO-1 expression is induced under various disease conditions, including atherosclerosis, but it is unknown whether HO-1 catalyzes heme breakdown in the regions at risk. Using hypercholesterolemic rabbits fed a cholesterol-enriched diet, we attempted to demonstrate the involvement of HO-1 induction and bilirubin IXalpha production in atherosclerotic regions. Expression levels of HO-1 mRNA were elevated in the aortas of hypercholesterolemic rabbits. In situ hybridization and immunohistochemistry revealed that mRNA and protein of HO-1 are induced in endothelial cells and foam cells (lipid-filled macrophages) in atherosclerotic lesions. Furthermore, immunohistochemistry with the use of an anti-bilirubin-IXalpha monoclonal antibody, 24G7, demonstrated accumulation of bilirubin IXalpha in foam cells, indicating that heme is actually degraded in atherosclerotic lesions. Remarkably, bilirubin IXalpha, like HO-1 protein, is predominantly accumulated in the perinuclear regions of foam cells. These results provide the first in vivo evidence of the colocalization of HO-1 and bilirubin IXalpha in foam cells, suggesting a role of HO-1 induction in the modulation of macrophage activation in atherosclerosis.

Primary structure and expression of a 24-kD vacuolar protein (VP24) precursor in anthocyanin-producing cells of sweet potato in suspension culture.

A 24-kD vacuolar protein (VP24) accumulates abundantly in intravacuolar pigmented globules in anthocyanin-containing sweet potato (Ipomoea batatas) cells in suspension culture. A cDNA clone encoding VP24 was isolated from a cDNA library constructed from light-irradiated suspension-cultured cells. Sequence analysis revealed that a 2.9-kbp VP24 cDNA encodes a protein of 893 amino acid residues with a molecular mass of 96.3 kD. According to the deduced amino acid sequence of VP24 cDNA, VP24 is probably synthesized as a large precursor protein with an N-terminal extension composed of a signal peptide and a propeptide, plus the polypeptide of the mature VP24 and its C-terminal propeptide, which contains the multiple transmembrane domains. A search in the ProDom database revealed the mature VP24 domain belongs to the zinc metalloprotease family. Northern analysis revealed that the single 2.9-kb VP24 mRNA increases rapidly after light irradiation, whereas VP24 mRNA was undetectable in the dark-cultured cells or in the presence of a high concentration of 2,4-dichlorophenoxyacetic acid. Light-induced VP24 gene expression closely correlated with the accumulation of anthocyanin in the vacuoles. These results suggested that proteins derived from the VP24 precursor protein may be involved in vacuolar transport and/or accumulation of anthocyanin synthesized in the cytosol.

Development of a simple and efficient method for transformation of buckwheat plants (Fagopyrum esculentum) using Agrobacterium tumefaciens.

Apical meristems of seedlings of buckwheat (Fagopyrum esculentum var. Shinano No. 1) were pricked with a needle and inoculated with Agrobacterium tumefaciens (LBA4404, pBI121). The inoculated seedlings were grown to maturation and allowed to pollinate randomly to set the seeds (T1 plants). The transformation efficiency of the T1 plants was estimated by germination in the presence of geneticin (20 microg/ml) and by detection of beta-glucuronidase (GUS) gene with PCR, indicating that 36% and 70% of the T1 plants were transformed, respectively. Four plants taking on a mutated morphology were selected from T1 plants which were transformed with the method using A. tumefaciens harboring a modified pBI121 for plasmid rescue. Southern blot analysis of plasmids rescued from the 4 T1 plants demonstrated that each plasmid contained a different flanking DNA of the buckwheat genome, an evidence that T-DNA was integrated in different sites of the genomic DNA among the 4 T1 plants.

Detection and characterization of a 36-kDa peptide in C-terminal region of a 24-kDa vacuolar protein (VP24) precursor in anthocyanin-producing sweet potato cells in suspension culture.

A 24-kDa vacuolar protein (VP24) was found to accumulate in anthocyanin-producing sweet potato cells (Ipomoea batatas Lam.) in suspension culture [Nozue et al., Plant Physiol. 115 (1997) 1065]. VP24 cDNA (accession No. AB025531) encodes a 96.3-kDa large precursor protein with a C-terminal propeptide which contains the eight putative transmembrane domains. The mature VP24 is probably involved in the formation of intravacuolar pigmented globules (cyanoplasts) in highly anthocyanin-containing vacuoles, but the biological function of the C-terminal region including the putative transmembrane domains is unknown. To confirm the expression and characterize the C-terminal region in the VP24 protein precursor in the anthocyanin-producing cells, polyclonal antibodies were developed against the fusion protein, including the C-terminal region, expressed in Escherichia coli. Western blot analysis showed that a 36-kDa peptide (VP36) localized in anthocyanin-containing vacuoles was expressed under continuous illumination, but not in darkness. The expression pattern of VP36 showed high similarity to VP24. These results suggested that VP36 may be derived from the large VP24 protein precursor; it includes several of the hydrophobic domains in the C-terminal region.

M-31 mutant (virA::Tn5) of Agrobacterium tumefaciens is capable of transferring its T-DNA into the nucleus of host cell, but incapable of integrating it into the chromosome.

An avirulent mutant (M-31 strain) was produced by the transposon (Tn5) mutagenesis of Agrobacterium tumefaciens (A-208 strain). A binary vector, pIG121-Hm, containing a kanamycin resistance gene (nptII) and beta-glucuronidase (GUS) gene with an intron, was introduced into M-31 and A-208 strains. The resultant Agrobacteria were inoculated onto leaves of Kalanchoe daigremontiana and to tobacco BY-2 cells to assay GUS activity to monitor the T-DNA transfer into the nuclei of host cells. The results indicated that T-DNA was transferred into the nuclei of cells of both host plants inoculated with the M-31 mutant. The M-31 mutant strain had an insertion of Tn5 in the virA gene on its Ti plasmid. The introduction of the virA gene in the M-31 mutant complemented its avirulent phenotype. No kanamycin-resistant cells were observed when the M-31 mutant harboring the pIG121-Hm was inoculated to tobacco BY-2 cells. The M-31 mutant (virA::Tn5) seems to transfer T-DNA into the nucleus of the host cell, but is unable to integrate it to the chromosome.