Myeloid Differentiation Factor 88 (MyD88)-Deficiency Increases Risk of Diabetes in Mice

Background

Multiple lines of evidence suggest innate immune response pathways to be involved in the development of obesity-associated diabetes although the molecular mechanism underling the disease is unknown. Recent observations suggest that saturated fatty acids can act as a ligand for toll-like receptor (TLR) 4, which is thought to mediate obesity-associated insulin resistance. Myeloid differentiation factor 88 (MyD88) is an adapter protein for TLR/IL-1 receptor signaling, which is involved in the activation of inflammatory pathways. To evaluate molecular mechanisms linking obesity-associated diabetes down-stream of TLR4, we investigated physiological role of MyD88 in high-fat diet (HFD)-induced obesity.

Methodology/Principal Findings

In the present study, we found MyD88-deficient mice fed a HFD had increased circulating levels of insulin, leptin and cholesterol, as well as liver dysfunction (increased induction of ALT levels, increased activation of JNK and cleavage of PARP), which were linked to the onset of severe diabetes. On the other hand, TNF-α would not be involved in HFD-induced diabetes in MyD88-deficient mice, because TNF-α level was attenuated in MyD88-deficient mice fed with HFD.

Conclusions/Significance

The present finding of an unexpected role for MyD88 in preventing diabetes may provide a potential novel target/strategy for treating metabolic syndrome.     

Overexpression of wheat mitochondrial uncoupling protein in rice plants confers tolerances to oxidative stresses promoted by exogenous hydrogen peroxide and low temperature

To obtain a better understanding of the function of mitochondrial uncoupling protein (UCP) in higher plants, the wheat gene for mitochondrial uncoupling protein (WhUCP) in rice was overexpressed by Agrobacterium-mediated transformation with a construct containing the WhUCP ORF under control of the 35S promoter. The transgenic rice plants showed a significant increase in tolerance against oxidative stress promoted by exogenous hydrogen peroxide at the seedling stage. The transgenic rice plants overexpressing WhUCP also exhibited greater tolerance against cold stress than did the wild-type plants. These results demonstrated that the mitochondrial UCP in higher plants is positively involved in the pathway for abiotic stress tolerance, probably through a decrease in cellular oxidative damage, and that controlled uncoupling by UCP could be used for improvement of stress tolerance in higher plants.Kenjirou Ozawa and Seiji Murayama are contributed equally to the work     

Assignment of 101 genes localized in HSA10 to a swine RH (IMpRH) map to generate a dense human-swine comparative map

Economically important traits such as growth and backfat in pigs have been shown to be influenced by genes in swine chromosome (SSC) 10q12-->qter corresponding to human chromosome (HSA) 10p. However, since gene information in the swine chromosomal region was limited, we attempted to generate a dense comparative map between SSC10 and HSA10 by mapping the 115 genes of HSA10 to a swine RH map (IMpRH map). In the mapping ten genes were assigned to SSC10, 88 to SSC14, and one to SSC3. One gene was suggested to link to SSC3, and another to SSC9. The correspondences between HSA10 and SSC10 and between HSA10 and SSC14 were essentially consistent with the observations obtained from bi/uni-directional chromosome painting or other results. This study further indicated that a large number of intrachromosomal rearrangements occurred in the synteny-conserved regions following species separation.     

Molecular phylogeny suggests polyphyly of both the turban shells (family Turbinidae) and the superfamily Trochoidea (Mollusca: Vetigastropoda)

Bayesian and parsimony phylogenetic analyses of sequence from two nuclear and two mitochondrial genes suggest that neither the molluscan superfamily Trochoidea, nor the family Turbinidae are monophyletic. The family Turbinidae s.l. divides into two main groups. The first group includes taxa previously referred to the five subfamilies Angariinae, Colloniinae, Phasianellinae, Tricoliinae, Gabrieloninae, and the liotiine genus Cinysca; these subfamilies are here recognized as Angariidae, Colloniidae, and Phasianellidae (with subfamilies Phasianellinae, Tricoliinae, and Gabrieloninae). The second group, which corresponds to Turbinidae sensu stricto, includes Prisogasterinae, Turbininae, and the liotiine genus Liotina, all of which are more closely related to trochids than they are to the first group. Several morphological studies have suggested previously that the family Phasianellidae is distinct from Turbinidae. However, this is the first study to suggest that Phasianellidae forms a group with some taxa previously thought of as turbinids, but excluding the nominotypical genus Turbo and its allies. The family Turbinidae has traditionally been described as the only family in the Vetigastropoda group that has a calcified operculum. The non-monophyly of Turbinidae suggests that calcareous opercula may have arisen independently more than once within the Vetigastropoda.     

Safety assessment of transgenic potatoes with soybean glycinin by feeding studies in rats

Feeding studies of transgenic potatoes with native and designed soybean glycinins in rats were done for four weeks. The designed glycinin has four additional methioninyl residues in the middle of the glycinin molecule. Rats were divided into four groups fed (I) only a commercial diet, (II) the diet plus non-transgenic potatoes, (III) the diet plus transgenic potatoes with native glycinin, and (IV) the diet plus transgenic potatoes with designed glycinin. Rats were fed 2,000 mg/kg-weight potatoes every day by oral administration. During the period tested, rats in each group (groups II, III, and IV) grew well without marked differences in appearance, food intake, body weight, or in cumulative body weight gain. No significant differences were also found in blood count, blood composition, and in internal organ weights among the rats after feeding potatoes (groups II, III, and IV) for four weeks. Necropsy at the end of experiment indicated neither pathologic symptoms in all rats tested nor histopathological abnormalities in liver and kidney. Judging from these results, the transgenic potatoes with glycinins are confirmed to have nearly the same nutritional and biochemical characteristics as non-transgenic one.     

Occurrence of stereoisomers of 1-(2'-pyrrolidinethione-3'-yl)- 1,2,3,4-tetrahydro-beta-carboline-3-carboxylic acid in fermented radish roots and their different mutagenic properties

Stereoisomers of the tetrahydro-beta-carboline derivative, 1-(2-pyrrolidinethione)-3-yl)-1,2,3,4-tetrahydro-beta-carboline- 3-carboxylic acid (PTCC), were formed from L-tryptophan with 4-methylthio-3-butenyl isothiocyanate, and their mutagenic properties and contents in different types of the radish products were studied. The isomers were identified as (1S*, 3S*, 3R*)- and (1R*, 3S*, 3R*)-PTCCs; the former was found as the major compound but had no mutagenic activity, while the latter was mutagenic toward Salmonella typhimurium TA 98 in the presence of a rat microsomal fraction. Both (1S*, 3S*, 3R*)- and (1R*, 3S*, 3R*)-PTCC were detected in a ratio of about 4:1 in a product fermented for 8 months, but only a trace was apparent in products manufactured within a few weeks.     

Maturation ameloblasts of the porcine tooth germ do not express amelogenin

 Amelogenins are the most abundant constituent in the enamel matrix of developing teeth. Recent investigations of rodent incisors and molar tooth germs revealed that amelogenins are expressed not only in secretory ameloblasts but also in maturation ameloblasts, although in relatively low levels. In this study, we investigated expression of amelogenin in the maturation stage of porcine tooth germs by in situ hybridization and immunocytochemistry. Amelogenin mRNA was intensely expressed in ameloblasts from the differentiation to the transition stages, but was not detected in maturation stage ameloblasts. C-terminal specific anti-amelogenin antiserum, which only reacts with nascent amelogenin molecules, stained ameloblasts from the differentiation to the transition stages. This antiserum also stained the surface layer of immature enamel at the same stages. At the maturation stage, no immunoreactivity was found within the ameloblasts or the immature enamel. These results indicate that, in porcine tooth germs, maturation ameloblasts do not express amelogenins, suggesting that newly secreted enamel matrix proteins from the maturation ameloblast are not essential to enamel maturation occurring at the maturation stage. Accepted: 14 January 1999     

Mitochondrial Genome Mutation in Cell Death and Aging

This article reviews the concept, molecular genetics, and pathology of cell death and agingin relation to mitochondrial genome mutation. Accumulating evidence emphasizes the role ofgenetic factors in the development of naturally occurring cell death and aging. The ATPrequired for a cell's biological activity is almost exclusively produced by mitochondria. Eachmitochondrion possesses its own DNA (mtDNA) that codes essential subunits of themitochondrial energy-transducing system. Recent studies confirm that mtDNA is unexpectedly fragileto hydroxyl radical damage, hence to the oxygen stress. Cellular mtDNA easily fragmentsinto over a hundred-types of deleted mtDNA during the life of an individual. Cumulativeaccumulation of these oxygen damages and deletions in mtDNA results in a defective energytransducing system and in bioenergetic crisis. The crisis leads cells to the collapse ofmitochondrial trans-membrane potential, to the release of the apoptotic protease activating factors intocytosol, to uncontrolled cell death, to tissue degeneration and atrophy, and to aging. Thetotal base sequencing of mtDNA among individuals revealed that germ-line point mutationstransmitted from ancestors accelerate the somatic oxygen damages and mutations in mtDNAleading to phenotypic expression of premature aging and degenerative diseases. A practicalsurvey of point mutations will be useful for genetic diagnosis in predicting the life-span ofan individual.