Induction of histidine decarboxylase activity in mouse skin after application of indole alkaloids,a new class of tumor promoter

The effects of various promoters in two-step carcinogenesis on the induction of histidine decarboxylase in the skin of mice was investigated. The potencies of various phorbol esters in inducing histidine decarboxylase activity were parallel with their tumor-promoting activities. Indole alkaloids such as dihydroteleocidin B and lyngbyatoxin A, which induced ornithine decarboxylase and promoted tumor development in the skin of mice with the same potency as 12-O-tetradecanoylphorbol-13-acetate (TPA), also induced histidine decarboxylase activity. These results suggest that histamine produced by this inducible histidine decarboxylase may play some role in tumor promotion.     

Histochemical and cytochemical localization of blood group antigens.

The oligosaccharide structures of blood group antigens are not the primary gene products; they are constructed in a stepwise manner by adding particular sugar to precursor oligosaccharides via several glycosyltransferases coded for by different blood group genes (Watkins 1966, 1978, 1980). Consequently, final profiles of antigens expressed in each cell type are influenced by many different factors such as the intrinsic composition of glycosyltransferase species which are defined by the genotype of the individuals, relative activity or amount of these enzymes (repression, derepression or induction of the enzymes), competition between enzymes with overlapping substrate specificity, the organization of the enzymes in membranes, utilizability of precursors and specific substrate sugars, and the activity level of degradating enzymes. Changes in the antigen profiles during maturation, differentiation and malignant transformation are thought to be intimately related to the variability of these factors. Although great importance attaches to histo- and cytochemical information on the distribution and levels of glycosyltransferases and messenger RNA corresponding to the relevant enzyme, detailed and precise localization of the blood group antigens and their variants is the base line for analyzing these complex factors. On the basis of individual genotype and histochemical findings about the antigen distribution and the interrelationship between cells and cellular components producing different antigenic structures (cellular and subcellular mosaicism), we can deduce precursor oligosaccharide levels as well as the status of gene activation and its primary product, glycosyltransferases. Thus, these findings are a prerequisite for further analysis at the molecular genetic level. As emphasized in this article, lectin staining or immunostaining methods with MAbs combined with glycosidase digestion procedures are powerful tools for in situ analysis of carbohydrate structures in histochemical systems. Although in some cases valuable results have been obtained by applying the technique, our knowledge concerning the distribution of complex carbohydrate structures is still far from satisfactory. Along with well defined MAbs and lectins, the key to developing our methods further is successful introduction of glycosidases, in particular, endoglycosidases since these reagents are indispensable for analyzing the inner core structures and glycoconjugate species of the blood group antigens. Application of these techniques at the ultrastructural level is an alluring possibility, even though many difficulties must be overcome. Although their functional roles have not yet been determined, a diverse array of macromolecules is known to be decorated with blood group-related antigens.(ABSTRACT TRUNCATED AT 400 WORDS)     

Callus regeneration from cotyledon protoplasts ofChamaecyparis obtusa (Hinoki cypress)

Summary Protoplasts were isolated from cotyledons of 1- to 1.5-mo.-old seedlings ofChamaecyparis obtusa using 1% driselase or 0.25% pectolyase Y-23 in combination with 1% cellulase RS in 0.6M mannitol solution. Cell division and colony formation were induced efficiently in liquid Murashige and Skoog’s (MS) medium containing 0.6M mannitol and 10 to 30 μM 2,4-dichlorophenoxyacetic acid or 1 μM of naphthaleneacegic acid at the cell density of 1 to 2×10³ ml. Continued callus proliferations was observed by transferring tissue to fresh medium of the same composition as the induction medium without mannitol. Campbell and Durzan’s medium and ammonium nitrate-free MS medium were less effective than MS medium. High concentration of benzyladenine (1 or 10 μM) was inhibitory to cell division.     

A novel pathway of import of alpha-mannosidase, a marker enzyme of vacuolar membrane, in Saccharomyces cerevisiae

We have investigated the vacuolar delivery of alpha-mannosidase, a marker enzyme of the vacuolar membrane in the yeast Saccharomyces cerevisiae, and found that the enzyme has several unique characteristics in its biosynthesis and vacuolar delivery. alpha-Mannosidase has no typical signal sequence (Yoshihisa, T., and Anraku, Y. (1989) Biochem. Biophys. Res. Commun. 163, 908-915) but is located on the inner surface of the vacuolar membrane. The enzyme is synthesized as a 107-kDa polypeptide and converted to a 73-kDa polypeptide. Although the conversion depends on a vacuolar processing protease, proteinase A, it is much slower (t1/2 = 10 h) than the proteinase A-dependent processing of other vacuolar proteins. None of Asn-X-Thr/Ser sites on the 107-kDa alpha-mannosidase or on two alpha-mannosidase-invertase fusion proteins that are localized inside the vacuole receives N-linked oligosaccharide, whereas those sites on a carboxypeptidase Y-alpha-mannosidase fusion protein are N-glycosylated. The newly synthesized alpha-mannosidase is normally delivered to the vacuole and converted to the 73-kDa polypeptide even when the secretory pathway is blocked by a subset of sec mutations. These characteristics are different from those of other vacuolar proteins targeted to the vacuole via the secretory pathway. We conclude that alpha-mannosidase is delivered to the vacuole in a novel pathway separate from the secretory pathway.     

Replication origin of the Escherichia coli K-12 chromosome: The size and structure of the minimum DNA segment carrying the information for autonomous replication

Summary A DNA fragment containing the replication origin of the Escherichia coli K-12 chromosome was inserted in two orientations at either the BamHI or SalI site of pBR322 DNA. All the resulting hybrid plasmids were found to replicate in both polA and polA ⁺ cells, whereas pBR322 replicates only in polA ⁺ cells. This characteristic provided a method for assaying the autonomously replicating ability (Ori function) of the E. coli origin.In order to define the minimum DNA region (ori) that determines Ori function, deletions of various sizes were introduced from either side of the ori-containing segment in the hybrid plasmids by in vitro techniques, and the correlation between the Ori phenotype and nucleotide sequence of the deletion derivatives was analyzed. It was found that the left end of ori is between positions 23 and 35, and the right end is either position 266 or 267 in our nucleotide coordinate (Sugimoto et al., 1979). Therefore, ori is present within a region of minimum 232 base pairs and maximum 245 base pairs in length. The Ori⁺ and Ori^- phenotypes were clearly resolved at both sides of these boundaries by the above assay procedure.To obtain information about the effect of mutations in the internal region of the defined ori stretch, short sequences were inserted or deleted in vitro in the vicinity of several restriction sites within ori on the hybrid plasmids. Most of these plasmids carrying modified sequences showed Ori^- phenotype, suggesting that most parts of the ori stretch play important roles in Ori function.     

Gene dosage effects of the structural gene for a lipoprotein of the Escherichia coli outer membrane.

The gene dosage effects of the structural gene (lpp) for the lipoprotein of the Escherichia coli outer membrane were examined. A novel F-prime factor containing the lpp gene was constructed. The amount of the free-form lipoprotein in the merodiploid strain carrying the F-prime factor was found to be about two times as great as that in the corresponding haploid strain. On the other hand, the amount of the bound-form lipoprotein, which is vovalently linked to the peptidoglycan, was not significantly different in the merodiploid strain as compared with the corresponding haploid strain. The present results suggest that the lpp gene is expressed constitutively in contrast to another major protein of the E. coli outer membrane, tolG protein (protein II, D. B. Datta et al., J. Bacteriol. 128:834-841, 1976). The F-prime factor isolated may include a portion of the E. coli chromosome (located between 33 and 36 min on the genetic map) that is not covered by any other F-prime factor.     

Appearance of new hepatic glucocorticoid binding proteins under various stressful conditions: relation to endogenous glucocorticoid secretion

When rats were subjected to the stress of burns, tumors, or partial hepatectomy, a notable new peak of glucocorticoid binding protein appeared on DEAE-cellulose chromatography. This peak accompanied the original peak, which was the only dominant peak in intact rats. The appearance of the new binding protein was concomitant with a high rise in serum corticosterone levels. The new peak was eluted with 0.12-0.14 M NaCl and another, small new peak with 0.02-0.03 M NaCl, while the original peak of intact rats was eluted with 0.05-0.08 M NaCl. In rats adrenalectomized prior to the stress, the new peaks did not appear. To mimic these stressful conditions which provoked a burst of endogenous glucocorticoid, rats were administered with an exogenous high dose of dexamethasone (100 micrograms/100 g B.W.) in vivo. The new peak eluted with 0.12-0.14 M NaCl was again observed and was more dominant in the hormone-treated rats than the stressed rats. These three peaks eluted with 0.02-0.03 M, 0.05-0.08 M, and 0.12-0.14 M NaCl are called here Peak A, B, and C, respectively. This is the first demonstration of the effect of physiological changes in serum levels of glucocorticoid hormone on the nature of glucocorticoid binding protein by DEAE-cellulose chromatography.     

Molecular characterization of mouse CREB3 regulatory factor in Neuro2a cells

We performed expression and functional analysis of mouse CREB3 regulatory factor (CREBRF) in Neuro2a cells by constructing several expression vectors. Overexpressed full-length (FL) CREBRF protein was stabilized by MG132; however, the intrinsic CREBRF expression in Neuro2a cells was negligible under all conditions. On the other hand, N- or C-terminal deletion of CREBRF influenced its stability. Cotransfection of CREBRF together with GAL4-tagged FL CREB3 increased luciferase reporter activity, and only the N-terminal region of CREBRF was sufficient to potentiate luciferase activity. Furthermore, this positive effect of CREBRF was also observed in cells expressing GAL4-tagged cleaved CREB3, although CREBRF hardly influenced the protein stability of NanoLuc-tagged cleaved CREB3 or intracellular localization of EGFP-tagged one. In conclusion, this study suggests that CREBRF, a quite unstable proteasome substrate, positively regulates the CREB3 pathway, which is distinct from the canonical ER stress pathway in Neuro2a cells.