Genetic Association Analysis of iTGB3 Polymorphisms With Age at Onset of Schizophrenia

Wang, Ke Sheng, Liu, Xuefeng, Arana, Tania Bedard, Thompson, Nicholas, Weisman, Henry, Devargas, Cecilia, Mao, Chunxiang, Su, Brenda Bin, Camarillo, Cynthia, Escamilla, Michael A., Xu, Chun

01 October 2013

Schizophrenia (SCZ) is a debilitating disorder with a prevalence of approximately 1 % worldwide. SCZ is known to have a high degree of genetic and clinical heterogeneity and is a major health problem worldwide. The integrin-β 3 subunit gene (ITGB3) gene at 17q21.32 has been implicated in psychiatric disorders. We therefore hypothesized that ITGB3 gene polymorphisms might also play a role in SCZ and age at onset (AAO) of SCZ. We investigated the genetic associations of 23 single-nucleotide polymorphisms (SNPs) of the ITGB3 gene with AAO in SCZ in two Caucasian samples (2,166 cases and 2,525 controls) using linear regression analysis and meta-analysis. We observed four ITGB3-SNPs associated with AAO in SCZ in a non-Genetic Association Information Network (GAIN) sample (p < 10-3). Three of these four SNPs were replicated in the GAIN sample. The SNP rs16941771 was most significantly associated with AAO (p = 7.47 × 10-5). Meta-analysis showed that 6 of 23 SNPs were associated with AAO. The haplotype analysis also supports the association of ITGB3 with AAO. Three disease-associated SNPs were located at species-conserved regions, indicating functional importance. This is the first report which shows that ITGB3 variants are associated with AAO in SCZ, providing direct evidence of the use of AAO as an intermediate phenotype to dissect the complex genetics of SCZ.

17q21.32

age at onset

Iitegrin-β 3 subunit gene (ITGB3) gene

meta-analysis

schizophrenia

single-nucleotide polymorphisms

Biostatistics and Epidemiology

Genetic Association Analysis of iTGB3 Polymorphisms With Age at Onset of Schizophrenia

Wang, Ke Sheng, Liu, Xuefeng, Arana, Tania Bedard, Thompson, Nicholas, Weisman, Henry, Devargas, Cecilia, Mao, Chunxiang, Su, Brenda Bin, Camarillo, Cynthia, Escamilla, Michael A., Xu, Chun

01 October 2013

Schizophrenia (SCZ) is a debilitating disorder with a prevalence of approximately 1 % worldwide. SCZ is known to have a high degree of genetic and clinical heterogeneity and is a major health problem worldwide. The integrin-β 3 subunit gene (ITGB3) gene at 17q21.32 has been implicated in psychiatric disorders. We therefore hypothesized that ITGB3 gene polymorphisms might also play a role in SCZ and age at onset (AAO) of SCZ. We investigated the genetic associations of 23 single-nucleotide polymorphisms (SNPs) of the ITGB3 gene with AAO in SCZ in two Caucasian samples (2,166 cases and 2,525 controls) using linear regression analysis and meta-analysis. We observed four ITGB3-SNPs associated with AAO in SCZ in a non-Genetic Association Information Network (GAIN) sample (p < 10-3). Three of these four SNPs were replicated in the GAIN sample. The SNP rs16941771 was most significantly associated with AAO (p = 7.47 × 10-5). Meta-analysis showed that 6 of 23 SNPs were associated with AAO. The haplotype analysis also supports the association of ITGB3 with AAO. Three disease-associated SNPs were located at species-conserved regions, indicating functional importance. This is the first report which shows that ITGB3 variants are associated with AAO in SCZ, providing direct evidence of the use of AAO as an intermediate phenotype to dissect the complex genetics of SCZ.

17q21.32

age at onset

Iitegrin-β 3 subunit gene (ITGB3) gene

meta-analysis

schizophrenia

single-nucleotide polymorphisms

Biostatistics and Epidemiology

Antinociception Depends on the Presence of G Protein γ₂- Subunits in Brain

Varga, Eva V., Hosohata, Keiko, Borys, Dariusz, Navratilova, Edita, Nylen, Anders, Vanderah, Todd W., Porreca, Frank, Roeske, William R., Yamamura, Henry I.

31 January 2005

We have shown previously [Hosohata, K., Logan, J.K., Varga, E., Burkey, T.H., Vanderah, T.W., Porreca, F., Hruby, V.J., Roeske, W.R., Yamamura, H.I., 2000. The role of the G protein γ2 subunit in opioid antinociception in mice. Eur. J. Pharmacol. 392, R9-R11] that intracerebroventricular (i.c.v.) treatment of mice with a phosphorothioate oligodeoxynucleotide antisense to the γ2 subunit (Gγ2) of the heterotrimeric G proteins (antisense ODN) significantly attenuates antinociception by a δ-opioid receptor agonist. In the present study, we examined the involvement of Gγ2 in antinociception mediated by other (μ- or κ-opioid, cannabinoid, α2-adrenoreceptor) analgesic agents in a warm (55°C) water tail-flick test in mice. Interestingly, i.c.v. treatment with the antisense ODN attenuated antinociception by each analgesic agent. Missense phosphorothioate oligodeoxynucleotide treatment, on the other hand, had no effect on antinociception mediated by these agonists. The antinociceptive response recovered in 6 days after the last antisense ODN injection, indicating a lack of nonspecific tissue damage in the animals. These results suggest a pervasive role for the G protein γ2 subunits in supraspinal antinociception.

antinociception

cannabinoid receptor agonist

clonidine

G protein γ subunit 2

guanine nucleotide binding protein

opioid receptor agonist

The Exocyst Subunit Sec6 Interacts with Assembled Exocytic Snare Complexes: A Dissertation

Dubuke, Michelle L.

18 December 2015

In eukaryotic cells, membrane-bound vesicles carry cargo between intracellular compartments, to and from the cell surface, and to the extracellular environment. Many conserved families of proteins are required for properly localized vesicle fusion, including the multi-subunit tethering complexes and the SNARE complexes. These protein complexes work together to promote proper vesicle fusion in other trafficking pathways. Contrary to these other pathways, our lab previously suggested that the exocyst subunit Sec6, a component of the exocytosis-specific tethering complex, inhibited Sec9:Sso1 SNARE complex assembly due to interactions in vitro with the SNARE protein Sec9 (Sivaram et al., 2005). My goal for this project was to test the hypothesis that Sec6 inhibited SNARE complex assembly in vivo. I therefore chose to generate Sec6:Sec9 loss-of-binding mutants, and study their effect both in vitro and in vivo. I identified a patch of residues on Sec9 that, when mutated, are sufficient to disrupt the novel Sec6-SNARE interaction. Additionally, I found that the previous inhibitory role for Sec6 in SNARE assembly was due to a data mis-interpretation; my re-interpretation of the data shows that Sec6 has a mild, if any, inhibitory effect on SNARE assembly. My results suggest a potential positive role for Sec6 in SNARE complex assembly, similar to the role observed for other tether-SNARE interactions.

SNARE Proteins

Saccharomyces cerevisiae Proteins

Vesicular Transport Proteins

Exocysts

Exocyst Subunit Sec6

Dissertations, UMMS

Biochemistry

Cell and Developmental Biology

Molecular Biology

Insights into the biogenesis of the human mitochondrial ribosomal large subunit – Characterisation of mL44 and mL45

Hanitsch, Elisa

02 November 2021

No description available.

570

mitochondrial ribosome

mitoribosome

55S

39S

mitochondrial ribosomal large subunit

mL44

mL45

human mitoribosome purification

Biologie (PPN619462639)

An Investigation of Bacterial Ribonucleases as an Antibiotic Target

Frazier, Ashley Denise

05 May 2012

Antibiotics have been commonly used in medical practice for over 40 years. However, the misuse and overuse of current antibiotics is thought to be the primary cause for the increase in antibiotic resistance. Many current antibiotics target the bacterial ribosome. Antibiotics such as aminoglycosides and macrolides specifically target the 30S or 50S subunits to inhibit bacterial growth. During the assembly of the bacterial ribosome, ribosomal RNA of the 30S and 50S ribosomal subunits is processed by bacterial ribonucleases (RNases). RNases are also involved in the degradation and turnover of this RNA during times of stress, such as the presence of an antibiotic. This makes ribonucleases a potential target for novel antibiotics. It was shown that Escherichia coli mutants that were deficient for RNase III, RNase E, RNase R, RNase G, or RNase PH had an increase in ribosomal subunit assembly defects. These mutant bacterial cells also displayed an increased sensitivity to neomycin and paromomycin antibiotics. My research has also shown that an inhibitor of RNases, vanadyl ribonucleoside complex, potentiated the effects of an aminoglycoside and a macrolide antibiotic in wild type Escherichia coli, methicillin sensitive Staphylococcus aureus, and methicillin resistant Staphylococcus aureus. RNases are essential enzymes in both rRNA maturation and degradation. Based on this and previous work, the inhibition of specific RNases leads to an increased sensitivity to antibiotics. This work demonstrates that the inhibition of RNases might be a new target to combat antibiotic resistance.

Staphylococcus aureus

Vanadyl Ribonucleoside Complex

Aminoglycosides

Ribosomal Subunit Assembly

Ribonuclease Mutants

Protein Synthesis

Escherichia coli

Bacteriology

Life Sciences

Microbiology

The Role of Subunit III in the Functional and Structural Regulation of Cytochrome <i>c</i> Oxidase in <i>Rhodobacter spheroids</i>

Alnajjar, Khadijeh Salim

28 August 2014

No description available.

Biochemistry

Biophysics

Cytochrome c Oxidase

Subunit III

Proton Collecting Antenna

v-Shaped Cleft

Phospholipids

Cardiolipin

Forster Resonance Energy Transfer

Cytochrome c Oxidase from Rhodobacter sphaeroides: Oligomeric Structure in the Phospholipid Bilayer and the Structural and Functional Effects of a C-Terminal Truncation in Subunit III

Cvetkov, Teresa L.

13 July 2010

No description available.

Biochemistry

Biophysics

cytochrome c oxidase

membrane protein

oligomeric structure

cytochrome c oxidase subunit III

mitochondrial disease

phospholipids in protein structure

Expression of CTB-proinsulin in transgenic chloroplasts

Hickey, Ashley N.

01 January 2008

Diabetes mellitus is presently recognized as the sixth leading cause of death in the United States, affecting over 20 million people. Diabetes is a condition characterized by high blood glucose due to an insulin deficiency or resistance. Type I, which comprises 5-10% of all cases, results from the destruction of pancreatic beta cells in the islets of Langerhans. The current treatment for type I diabetes is insulin administration through injection or pump. Purification, production, and storage of this insulin proves to be quite costly. By producing biologically functional insulin with oral delivery capabilities through chloroplast genetic engineering, many of these costs could be cut back. In addition, the possibility of providing the C-peptide currently lacking in commercially available insulin becomes available. The Daniell lab inserted cholera toxin B-subunit (CTB) fused proinsulin, containing three furin cleavage sites, (CTB-pins Fx3) into the tobacco chloroplasts of Petit Havana via particle gun bombardment. The insertion of three furin cleavage sites along with fusion to CTB will enable the insulin to sustain function when orally administered. Transgenic plants from the second generation were then analyzed and tested for quantification of the CTB-pins Fx3 gene. Tobacco leaves of varying ages were compared to determine expression levels. The resulting data is pertinent for future production of both orally deliverable insulin and more cost effective injectable insulin.

Microbiology

Molecular Biology

Characterisation of nicotine binding sites on human blood lymphocytes

Wongsriraksa, Anong

January 2008

Nicotine exerts a therapeutic effect in ulcerative colitis (UC) but the mechanism underlying this effect, is not clear. However, this effect may imply that nicotine has some, as yet to be discovered, effect on the immune system. The aim of the work described in this thesis was to characterise the nicotinic acetylcholine receptors (nAChRs) on human peripheral blood lymphocytes in term of receptor subtype. To achieve this, a combination of radioligand binding assays, pharmacological and molecular biological techniques were used. The data obtained from the binding studies suggested that the presence of one binding site for (-)- nicotine on human peripheral blood lymphocytes with a Kd 15 ± 5.759 nM (1.5 ± 5.759 x 10-8 M) and Bmax 2253 ± 409 sites/cell. The competition studies showed that ligands competing with [3H]-(-)-nicotine were (-)-nicotine, epibatidine and α-bungarotoxin, while others ligands for nAChRs displaced radiolabelled nicotine in insignificant quantities. Thus, radioligand-binding experiments suggest that the binding site for nicotine on human peripheral blood lymphocytes is a nAChR containing α7 and possibly α4 or/and b2 containing nAChR subunits. No evidence was obtained to suggest the presence of a non-cholinergic nicotine receptor. Furthermore, considerable subject to subject variation in the specific binding of radiolabelled nicotine was observed. Because of this only tentative conclusions could be drawn from radioligand binding data. Polymerase chain reaction (RT-PCR) was then used to demonstrate mRNA for the subunits of nAChRs suggested by radioligand binding studies. Data obtained show that the human peripheral blood lymphocytes tested, expressed mRNAs for α4, α5, α7, β2 neuronal nAChRs subunits and β1 muscle nAChR subunit. Expression of the α5 mRNA subunit of nAChR was observed in the lymphocytes in each sample of lymphocytes tested. In contrast, the expression pattern of mRNAs for α4, α7, β1, and β2 mRNAs subunits of nAChRs, varied between individuals. Finally, Western blot analysis was used to confirm that mRNA expression resulted in the expression of protein for nAChR subunits in human peripheral lymphocytes using monoclonal antibodies against α4, α5, α7, and β2 nAChR subunits, which had been detected by RT-PCR. The results obtained from the Western blot analysis show that protein for α4, α5, and α7 nAChR subunits was expressed in most, but not all of the human peripheral blood lymphocyte samples tested and some of the bands obtained were faint. In contrast, protein for the β2 nAChR subunit was observed in a few samples tested and the bands were faint. From the results obtained in this study, it is possible to conclude that human peripheral blood lymphocytes may contain nAChRs with subunit compositions of α4β2, α4β2α5, and/or α7. However, further studies are necessary to show whether or not the single binding site for nicotine demonstrated by radioligand binding experiments is due to one or all of these nAChRs. Thus, the findings of the present study suggest the presence of nAChR on human peripheral blood lymphocytes. Nicotine and its effect may occur through these non- neuronal nAChRs mechanisms. Such a mechanism of action could account for the beneficial of nicotine in ulcerative colitis. Furthermore, a compound that acts on these receptors, but not on nAChRs found on other cells may have therapeutic utility in the treatment of inflammation.

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