Aspergillus parasiticus cyclase catalyzes two dehydration steps in aflatoxin biosynthesis

In the aflatoxin biosynthetic pathway, 5'-oxoaverantin (OAVN) cyclase, the cytosolic enzyme, catalyzes the reaction from OAVN to (2'S,5'S)-averufin (AVR) (E. Sakuno, K. Yabe, and H. Nakajima, Appl. Environ. Microbiol. 69:6418-6426, 2003). Interestingly, the N-terminal 25-amino-acid sequence of OAVN cyclase completely matched an internal sequence of the versiconal (VHOH) cyclase that was deduced from its gene (vbs). The purified OAVN cyclase also catalyzed the reaction from VHOH to versicolorin B (VB). In a competition experiment using the cytosol fraction of Aspergillus parasiticus, a high concentration of VHOH inhibited the enzyme reaction from OAVN to AVR, and instead VB was newly formed. The recombinant Vbs protein, which was expressed in Pichia pastoris, showed OAVN cyclase activity, as well as VHOH cyclase activity. A mutant of A. parasiticus SYS-4 (= NRRL 2999) with vbs deleted accumulated large amounts of OAVN, 5'-hydroxyaverantin, averantin, AVR, and averufanin in the mycelium. These results indicated that the cyclase encoded by the vbs gene is also involved in the reaction from OAVN to AVR in aflatoxin biosynthesis. Small amounts of VHOH, VB, and aflatoxins also accumulated in the same mutant, and this accumulation may have been due to an unknown enzyme(s) not involved in aflatoxin biosynthesis. This is the first report of one enzyme catalyzing two different reactions in a pathway of secondary metabolism.     

Rapid proteasomal degradation of translocation-deficient UDP-glucuronosyltransferase 1A1 proteins in patients with Crigler-Najjar type II

UDP-glucuronosyltransferase form 1A1 (UGT1A1) is the only bilirubin-glucuronidating isoform of this protein, and genetic deficiencies of UGT1A1 cause Crigler-Najjar syndrome, a disorder resulting from nonhemolytic unconjugated hyperbilirubinemia. Here we have focused on the instability of a translocation-deficient UGT1A1 protein, which has been found in patients with Crigler-Najjar type II, to elucidate the molecular basis underlying the deficiency in glucuronidation of bilirubin. A substitution of leucine to arginine at position 15 (L15R/1A1) is predicted to disrupt the hydrophobic core of the signal peptide of UGT1A1. L15R/1A1 was synthesized in similar amounts to wild-type UGT1A1 protein (WT/1A1) in transfected COS cells. However, L15R/1A1 did not translocate across the endoplasmic reticulum membrane and was degraded rapidly with a half-life of about 50min, in contrast to the much longer half-life of about 12.8h for WT/1A1. Our findings demonstrate that L15R/1A1 was rapidly degraded by the proteasome owing to its mislocalization in the cell.     

Heat stability of carboxypeptidase R of experimental animals

Carboxypeptidase N (CPN) and carboxypeptidase R (CPR) are present in fresh serum, and cleave C-terminal arginine or lysine residues from bioactive peptides such as anaphylatoxins and kinins resulting in regulation of peptide activity. Although CPN is present in the active form in plasma, CPR is generated from proCPR by trypsin-like enzymes such as thrombin. CPR regulates not only inflammatory peptides but also restricts fibrinolysis. To elucidate the complex role of CPN and CPR in vivo, studies in animal models will be essential. CPR of guinea pig, rat and rabbit decayed at 37 C rapidly as in the case of human CPR. However, at 25 C, CPR of those species decayed to some extent, although human serum CPR did not decay within 60 min. In the presence of thrombin inhibitor, CPR in the sera of animals tested decayed more rapidly than CPR in serum without thrombin inhibitor suggesting that additional generation of CPR may have been prevented during decay evaluation. However, human serum CPR decayed more rapidly in the absence of thrombin inhibitor indicating that thrombin may accelerate the decay in human serum.     

Accelerated degradation of mislocalized UDP-glucuronosyltransferase family 1 (UGT1) proteins in Gunn rat hepatocytes

Gunn rat is a hyperbilirubinemic rat strain that is inherently deficient in the activity of UDP-glucuronosyltransferase form 1A1 (UGT1A1). A premature termination codon is predicted to produce truncated UGT1 proteins that lack the COOH-terminal 116 amino acids in Gunn rat. Pulse-chase experiments using primary cell cultures showed that the truncated UGT1A1 protein in Gunn rat hepatocytes was synthesized similarly to wild-type UGT1A1 protein in normal Wistar rat hepatocytes. However, the truncated UGT1A1 protein was degraded rapidly with a half-life of about 50 min, whereas the wild-type UGT1A1 protein had a much longer half-life of about 10 h. The rapid degradation of truncated UGT1A1 protein was inhibited partially but not completely by treating Gunn rat hepatocytes with proteasome inhibitors such as carbobenzoxy-Leu-Leu-leucinal and lactacystin. By contrast, neither the lysosomal cysteine protease inhibitor nor the calpain inhibitor slowed the degradation. Our findings show that the absence of UGT1 protein from Gunn rat hepatocytes is due to rapid degradation of the truncated UGT1 protein by the proteasome and elucidate the molecular basis underlying the deficiency in bilirubin glucuronidation.     

Chemoprevention of precursors to colon cancer by dehydroepiandrosterone (DHEA)

Although dehydroepiandrosterone (DHEA) is recognized as one of the major adrenal androgens, its precise physiological role in the human endocrine system remains to be elucidated. In particular, the effect of DHEA on carcinogenesis has not been fully characterized. We undertook this study to determine whether DHEA has a chemopreventative effect on the precursors of colon cancer in a murine model of azoxymethane (AOM)-induced aberrant crypt foci (ACF). The number of ACF was significantly decreased in mice treated with 0.4% (p < 0.001) and 0.8% DHEA (p < 0.001), but there were no significant differences between DHEA-treated and control mice in terms of the ACF size, 3-catenin expression or level of dysplasia. This is the first study of colon cancer carcinogenesis demonstrating that DHEA treatment can decrease the number of ACF without apparently modifying their malignant potential. These data strongly suggest that DHEA might be a potential chemopreventative agent against human colon cancer.     

Uptake and physiological function of vitamin B12 in a photosynthetic unicellular coccolithophorid alga, Pleurochrysis carterae

The photosynthetic coccolithophoid alga, Pleurochrysis (Hymenomonas) carterae, could take up and accumulate exogenous vitamin B12, most of which was converted into the coenzyme forms of vitamin B12. Two vitamin B12-dependent enzyme activities (methylmalonyl-CoA mutase, 2.6+/-0.4 nmol/min/mg protein and methionine synthase, 85.1+/-38.9 pmol/min/mg protein) could be found in a cell homogenate of the vitamin B12-supplemented alga. Most of the methylmalonyl-CoA mutase activity and 19.2% of the vitamin B12 accumulated by the algal cells were recovered in the macromolecular fractions with Mr of 150 kDa, although the remaining vitamin B12 was found only in free vitamin B12 fractions.     

Phylogeography and the maternal origin of the tetraploid form of the Japanese spined loach, <Emphasis Type="Italic">Cobitis biwae</Emphasis>, revealed by mitochondrial DNA analysis

The Japanese spined loach Cobitis biwae includes the tetraploid form, which has 96 chromosomes, as well as the diploid form, which has 48 chromosomes. In the present study, we analyzed the mitochondrial DNA (mtDNA) to examine the genetic relationships among 82 populations of diploid–tetraploid complexes of C. biwae. Restriction fragment length polymorphism (RFLP) analysis of the ND1 region on 202 individuals revealed that C. biwae contains three genetically divergent major groups corresponding to geographical proximities (the Eastern, Western, and Kochi groups). Phylogenetic analyses (neighbor-joining, NJ and maximum-parsimony, MP) of a part of the cytochrome b gene sequence (748bp) in 31 individuals supported the three major groups recognized by RFLP, and indicated considerable genetic differentiation between the Western group and the other two groups (average, 15.2%). The genetic relationship and distribution pattern of the three major groups hypothesized two major dispersions of C. biwae during the middle Miocene: first, the ancestor of the Eastern and Kochi groups had spread from the West through wide regions of present-day Honshu and Shikoku Islands, and following that period, the ancestor of the Western group with a different mtDNA composition, probably resulting from the mtDNA introgression from C. takatsuensis, moved into western Japan and pushed the former north eastward. All tetraploid form populations were included in the Western group and treated as a monophyletic cluster with low genetic divergence. It is notable that two diploid populations geographically adjacent to the tetraploid range were genetically closely related to the tetraploid forms. This result suggests that these diploid populations were directly related to the maternal origin of the tetraploid form.     

Prevention of diabetes,hepatic injury,and colon cancer with dehydroepiandrosterone

The levels of dehydroepiandrosterone (DHEA) and its sulfate (DHEA-S) peak in human in their twenties, then decrease gradually with age. The physiological importance of DHEA was not clear until recent research reports showing that DHEA has beneficial effects on preventing diabetes, malignancy, inflammation, osteoporosis, and collagen disease. We summarize our results concerning diabetes, hepatitis, and colon cancer.

In 1982, Coleman et al. [Diabetes 31 (1982) 830] reported that DHEA decreased hyperglycemia in diabetic db/db mice, which become insulin resistant. We measured hepatic gluconeogenic enzymes in an attempt to elucidate the mechanical mechanism of DHEA action. The activity and gene expression of hepatic gluconeogenic enzyme such as glucose-6-phosphatase (G6Pase) was increased in db/db mice despite hyperinsulinemia compared to control db/+m mice. DHEA, like troglitazone, decreased these levels in db/db mice. We also showed that DHEA improved the insulin resistance caused by aging or obesity using the glucose clamp technique in another animal model. In humans, the serum DHEA concentration was shown to be associated with hyperinsulinemia in diabetes. It also became clear that DHEA increased insulin secretion in old-aged db/db mice. DHEA increases not only insulin sensitivity due to the effects in the liver and muscle, but also insulin secretion.

As an effect of DHEA on T-cell mediated hepatitis induced by concanavalin A (ConA), DHEA reduced hepatic injury by inhibiting several inflammatory mediators and apoptosis. As an effect of DHEA on carcinogenesis, DHEA would be a potential chemopreventative agent against colon cancer because it decreases the number of azoxymethane (AOM) induced aberrant crypt foci, which is a possible precursor to adenoma and cancer in a murine model.

Thus, since DHEA has many beneficial effects experimentally, we should consider administration of DHEA in the future, and common mechanisms among these actions of DHEA should be elucidated in further studies.     

Resource use of insect seed predators during general flowering and seeding events in a Bornean dipterocarp rain forest

Insect seed predators of 24 dipterocarp species (including the genera ot Dipterocarpus, Dryobalanops and Shorea) and five species belonging to the Moraceae, Myrtaceae, Celastraceae and Sapotaceae were investigated. In a tropical lowland dipterocarp forest in Sarawak, Malaysia, these trees produces seeds irregularly by intensely during general flowering and seeding events in 1996 and/or 1998. Dipterocarp seeds were preyed on by 51 insect species (11 families), which were roughly classified into three taxonomic groups: smaller moths (Trotricidae, Pyralidae, Crambidae, Immidae, Sesiidae, and Cosmopterigidae), scolytids (Scolydae) and weevils (Curdulionidae, Apionidae, Anthribidae, and Attelabidae). Although the host-specificity of invertebrate seed predators has been assumed to be high in tropical forests, it was found that the diet ranges of some insect predators were relatively wide and overlapped one another. Most seed predators that were collected in both study years changes their diets between general flowering and seeding events. The results of cluster analyses based on the number of adult of each predator species that emerged from 100 seeds of each tree species, suggested that the dominant species was not consistent, alternating between the two years.     

26Al incorporation into the brain of suckling rats through maternal milk

Aluminium inhibits prenatal and postnatal brain development. However, aluminium incorporation into the brain of sucklings through maternal milk has not yet been well clarified because aluminium lacks a suitable isotope for radioactive tracer experiments. Using 26Al (26AlCl(3)) as a tracer, we measured 26Al incorporation into the brain of suckling rats by accelerator mass spectrometry. Lactating rats were subcutaneously injected with 26AlCl(3) from day 1 to day 20 postpartum. Suckling rats were weaned from day 21 postpartum. From day 5 to day 20 postpartum, the amounts of 26Al measured in the cerebrum, cerebellum, spinal cord, liver, and kidneys of suckling rats increased significantly. After weaning, the amounts of 26Al in the liver and kidneys decreased remarkably. Alternatively, in the cerebrum, cerebellum, and spinal cord, as much as 12 to 20% of the 26Al amounts present on day 20 postpartum remained in the tissues on day 730 postpartum. As the life span of rats is about 2 years, we conclude that considerable amounts of the 26Al taken up into the brain of suckling rats through maternal milk remained in their brain throughout their lifetime.