Faculty Bibliography

Mutations in the mitochondrial DNA (mtDNA) displacement loop (D-loop) region were investigated to clarify the possible molecular mechanisms underlying the development of lung tumors induced by N-nitrosobis(2-hydroxypropyl)amine (BHP) in rats. Male Wistar rats, 6 weeks of age, were given 2000 ppm BHP in their drinking water for 12 weeks and then maintained without further treatment until sacrifice at 25 weeks. Genomic DNA was extracted from paraffin-embedded tissues and polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP) analysis, followed by nucleotide sequencing, was performed. Eleven out of 24 hyperplasias (45.6%), 8 out of 16 adenomas (50.0%), and 14 out of 21 adenocarcinomas (66.7%) showed numerical changes, in a polymeric C-tract at positions 16,086-16,092 of the mtDNA D-loop, with a one base insertion of cytosine increasing the length of the C-tract, from the seven nucleotides observed in normal lung tissues from non-BHP treated rats, to eight. These changes were all homoplasmic and no changes were found in lung lesions when the length of the C-tract in the normal lung tissues adjacent to the lesions was seven. These results suggest that alterations in the mtDNA D-loop may occur in an early phase of lung carcinogenesis induced in rats by BHP

Abnormal increase in native long-chain ceramides (lcCer) in AD implicates roles in neuronal atrophy and cognitive dysfunction especially in view of divergent roles this second messenger plays in cell function. Since clearance is mediated by glucosylceramide synthase (GCS, EC 2.4.1.80) levels of the enzyme were compared for 18 samples of AD Brodmann area 9/10 frontal cortex with 11 age-matched controls. Western analysis for (ir)GCS showed a significant decrease in AD brain (p<0.01) consistent with the hypothesis that enzyme dysfunction contributes to neuronal decay. To examine kinetics and consequences to morphology, cerebellar granule cells were treated in vitro with d-threo-P4 (P4). This potent inhibitor of GCS induced a time- and concentration-dependent increase in lcCer parallel to loss of viability and dramatic changes in neuron/neurite morphology via caspase-independent pathways distinct from those of apoptosis or necrosis. Fluorescent labeling with NBD-sphingolipids or immunostaining with anti-synaptic or cytoskeletal markers showed unusual formation of globular swellings along neurites rich in synaptophysin that may resemble formation of dystrophic neurites in AD. Effects of the inhibitor were verified by changes in lcCer mass and turnover of (14)[C]-acetate and -galactose or NBD-labeled anabolic products. Addition of a panel of inhibitors of other pathways confirms GCS as the major route for clearance in the present model. Pretreatment with GM(1) whose turnover is compromised was protective and pointed to useful therapeutic applications by supplementing existing membrane stores prior to GSC dysfunction

Alcoholism is a heritable disease that afflicts about 8% of the adult population. Its development and symptoms, such as craving, loss of control, physical dependence, and tolerance, have been linked to changes in mesolimbic, mesocortical neurotransmitter systems utilizing biogenic amines, GABA, and glutamate. Identification of genes predisposing to alcoholism, or to alcohol-related behaviors in animal models, has been elusive because of variable interactions of multiple genes with relatively small individual effect size and sensitivity of the predisposing genotype to lifestyle and environmental factors. Here, using near-isogenic advanced animal models with reduced genetic background interactions, we integrate gene mapping and gene mRNA expression data in segregating and congenic mice and identify glutamate receptor metabotropic 7 (Grm7) as a cis-regulated gene for alcohol consumption. Traditionally, the mesoaccumbal dopamine reward hypothesis of addiction and the role of the ionotropic glutamate receptors have been emphasized. Our results lend support to an emerging direction of research on the role of metabotropic glutamate receptors in alcoholism and drug addiction. These data suggest for the first time that Grm7 is a risk factor for alcohol drinking and a new target in addiction therapy

Because most cases of secondary dengue virus infection are associated with an increased level of platelet-associated IgG, a high dose of intravenous immunoglobulin (IVIG) may have an effect on the development of severe thrombocytopenia in this disease. A randomized, controlled study was conducted with two treatment groups consisting of a treatment (IVIG) group (n = 15) and a non-treatment (non-IVIG) group (n = 16) to determine whether a high dose of IVIG is effective in hastening the recovery from thrombocytopenia in patients with secondary dengue virus infection. No significant difference was found in the baseline demographic data between the two groups. No adverse effect of IVIG was observed, but no effect in hastening the recovery of platelet counts was found in patients with secondary dengue infections. The lack of efficacy of IVIG suggests that platelet clearance by macrophages through Fc gamma receptors is not a primary mechanism in this disease

The mesotelencephalic dopamine system shows substantial genetic variation which fundamentally affects normal and pathological behaviors related to motor function, motivation, and learning. Our earlier radioenzyme assay studies demonstrated significantly higher activity of tyrosine hydroxylase (TH), the first and rate limiting enzyme in the biosynthesis of catecholamine neurotransmitters, in the substantia nigra-ventral tegmental area of BALB/cJ mice in comparison with that of C57BL/6ByJ mice. Here, using quantitative immunoblotting and immunocytochemistry, we tested the hypothesis that mesencephalic TH protein content and number of nigral TH-positive neurons show strain-dependent differences in C57BL/6ByJ and BALB/cJ parallel to those observed in the TH activity studies. Immunoblotting experiments detected significantly higher mesencephalic TH protein content in BALB/cJ in comparison to C57BL/6ByJ (P<0.05). Immunocytochemical studies demonstrated that the number of TH-positive cells in substantia nigra was 31.3% higher in BALB/cJ than that in C57BL/6ByJ (P<0.01), while the average dopamine neuron volume was not significantly different. In a search for candidate genes that modulate TH content and the size of mesencephalic dopamine neuron populations we also studied near-isogenic mouse sublines derived from the C57BL/6ByJ and BALB/cJ progenitor strains. A whole-genome scan with 768 single nucleotide polymorphism markers indicated that two sublines, C4A6/N and C4A6/B, were genetically very similar (98.3%). We found significantly higher mesencephalic TH protein content in C4A6/B in comparison to C4A6/N (P=0.01), and a tendency for higher number of dopamine neurons in the substantia nigra in C4A6/B in comparison to C4A6/N, which, however, did not reach statistical significance. To identify the genetic source of the TH content difference we analyzed the single nucleotide polymorphism (SNP) genotype data of the whole-genome scan, and detected two small differential chromosome segments on chr. 13 and chr. 14. Microarray gene expression studies and bioinformatic analysis of the two differential regions implicated two cis-regulated genes (Spock1 and Cxcl14, chr. 13), and two growth factor genes [bone morphogenetic protein 6 (Bmp6) (chr. 13), and fibroblast growth factor 14 (Fgf14) (chr. 14)]. Taken together, the results suggest that (1) nigral dopamine neuron number and TH protein content may be genetically associated but further studies are needed to establish unequivocally this linkage, and (2) Spock1, Cxcl14, Bmp6, and Fgf14 are novel candidates for modulating the expression and maintenance of TH content in mesencephalic dopamine neurons in vivo

Previously, we have shown that ethanol-induced apoptosis in cultured neurons is accompanied by changes in cellular lipid profiles. In the present study, the effects of ethanol on brain lipid metabolism were studied using 7-day-old C57BL/6ByJ mice, which display apoptotic neurodegeneration upon exposure to ethanol. The brain lipids were extracted 4-24 h after the ethanol or saline treatment, and analyzed by TLC. We found that the levels of triglyceride, cholesterol ester, ceramide, and N-acylphosphatidylethanolamine increased significantly in the brains of ethanol-treated mice compared to those of saline-treated mice. Concomitantly, ethanol reduced Thr172 phosphorylation of AMP-activated protein kinase (AMPK) alpha subunits. Ethanol also reduced phosphorylation of acetyl-CoA carboxylase, a substrate of AMPK and a lipogenic enzyme known to be activated by dephosphorylation. In contrast, lipid profiles of 19-day-old mouse brains, which scarcely manifested neurodegeneration upon ethanol exposure, were not significantly affected by ethanol. Also, the basal levels of Thr172-phosphorylated AMPK alpha were lower in these brains than in 7-day-old mouse brains, and no detectable changes in the phosphorylation status were observed by ethanol treatment. Our findings indicate that the ethanol-induced apoptotic neurodegeneration observed in mice during restricted developmental periods is accompanied by alterations in both the lipid content and the activity of AMPK in the brain

Fission yeast Schizosaccharomyces pombe is amenable to genetics and is an excellent model system for studying eukaryotic cell biology. However, auxotrophic markers that can be used for both targeted gene integration and disruption are very limited. Here we performed a forward genetic screen in an effort to develop a new set of selectable markers for use in this yeast. Mutants that were auxotrophic for arginine, asparagine, cysteine, lysine, methionine and phenylalanine were isolated. Six genes were analyzed in detail and the mutations in the genes were identified. Among these six are three new genes: asn1 (+), cys2 (+) and pha2 (+) were required for biosynthesis of asparagine, cysteine and phenylalanine, respectively. New alleles of arg1 (+), lys3 (+) and met6 (+) were also identified. All of these genes proved to be suitable as selectable markers for targeted gene integration and disruption. We also showed that in Schizosaccharomyces pombe there are two apparent homologues of Saccharomyces cerevisiae MET2: the previously known met6 (+), and SPBC106.17c (named cys2 (+)). The cys2 mutation required cysteine rather than methionine. These new tools, specifically, new selectable markers, will be useful in further genetic and biological studies in fission yeast

One strategy to identify neurochemical pathways of addiction is to map the relevant genes. In the present study we used 43 B6.C and 35 B6.I inbred RQI mouse strains, carrying <3% donor genome on C57BL/6ByJ background, for gene mapping. The strains were phenotyped for consumption of alcohol (12% v/v) in a two-bottle-choice paradigm, and genotyped for 396 microsatellite markers. The current mapping study extends our earlier experiment scanning five mouse chromosomes (Vadasz et al. (2000) Scanning of five chromosomes for alcohol consumption loci. Alcohol 22:25-34) to a whole-genome study, and discusses the differences and limitations. Data were analyzed with composite interval (CIM) and multiple interval (MIM) QTL mapping methods. CIM of B6.C strains detected significant QTLs on chrs. 6 and 12. A suggestive, but not significant, locus was detected in the B6.I strains on chr. 12. The best MIM model for B6.C strains confirmed one QTL on chr. 6 and one QTL on chr. 12, while the MIM model for the B6.I strains confirmed the suggestive locus on chr. 12. Some of the QTLs for alcohol consumption are new, while others confirm previously reported QTLs for alcohol preference, and alcohol acceptance

The incidence and geographical distribution of dengue has gradually increased during the past decade. This review is an update on dengue virus infections, based on our clinical and laboratory experiences in the Philippines and on other relevant literature. The differential diagnosis of this disease is discussed, especially for use by clinicians where dengue is not endemic. The complex pathogenesis of thrombocytopenia and increased vascular permeability in dengue illness is also discussed. Our recent data suggest that platelet-associated immunoglobulins involving anti-dengue virus activity play a pivotal role in the development of dengue hemorrhagic fever (DHF), as well as thrombocytopenia in secondary dengue virus infections. Further elucidation is needed on the involvement of platelet-associated immunoglobulins on the molecular mechanisms of thrombocytopenia and the increased vascular permeability

BACKGROUND: Ethanol exposure induces apoptotic neurodegeneration in the developing rodent brain during synaptogenesis. This process has been studied as a model for fetal alcohol syndrome. Previously, we have shown that gangliosides and LIGA20 (a semisynthetic derivative of GM1 ganglioside) attenuate ethanol-induced apoptosis in cultured neurons. In the present study, the effects of GM1 and LIGA20 on ethanol-induced apoptotic neurodegeneration were examined using an in vivo neonatal mouse model. METHODS: Seven-day-old C57BL/6By (B6By) mice were pretreated twice with intraperitoneal administration of GM1 (30 mg/kg), LIGA20 (2.5 mg/kg), or saline, followed by subcutaneous injection of either saline or ethanol (2.5 g/kg) twice with a 2 hours interval. Then the brains were: (1) perfusion-fixed 24 hours after the first ethanol injection, and the extent of neurodegeneration was assessed by cupric silver staining of the brain sections, or (2) perfusion-fixed 8 hours after the first ethanol injection, and the sections were immunostained with anti-cleaved (activated) caspase-3 antibody to evaluate caspase-3 activation. RESULTS: The comparison of cupric silver stained coronal sections indicates that ethanol-induced widespread neurodegeneration in the forebrains of B6By mice was reduced overall by GM1 and LIGA20 pretreatments. The extent of neurodegeneration detected by silver impregnation and activated caspase-3 immunostaining was quantified in the cingulate and retrosplenial cortices, which were the regions most severely affected by ethanol. The results indicate that GM1 and LIGA20 pretreatments induced statistically significant reductions-approximately 50% of the ethanol-treated samples-in silver impregnation and activated caspase-3 immunostaining. No significant differences were observed between saline controls and samples treated with GM1 or LIGA20 alone. CONCLUSIONS: These results indicate that GM1 and LIGA20, which have been shown to be neuroprotective against insults caused by various agents, partially attenuate ethanol-induced apoptotic neurodegeneration in the developing mouse brain