MEK/ERKs Signaling Is Essential for Lithium-Induced Neurite Outgrowth in N2a Cells

Wang, Zhuyao, Wang, Juan, Li, Jingjin, Wang, Xiaohui, Yao, Yuzhen, Zhang, Xiaojin, Li, Chuanfu, Cheng, Yunlin, Ding, Guoxian, Liu, Li, Ding, Zhengnian

01 June 2011

Lithium, a drug used for the treatment of bipolar disorder, has been shown to affect different aspects of neuronal development such as neuritogenesis, neurogenesis and survival. The underlying mechanism responsible for lithium's influence on neuronal development, however, still remains to be elucidated. In the present study, we demonstrate that lithium increases the phosphorylation of extracellular-signal regulated kinases (ERKs) and protein kinase B (Akt) and promotes neurite outgrowth in mouse N2a neuroblastoma cells (N2a). The inactivation of mitogen-activated protein kinase kinase (MEK)/ERKs signaling with a MEK inhibitor inhibits neurite outgrowth, but it enhances Akt activation in lithium-treated N2a cells. Furthermore, the inactivation of phosphoinositide-3-kinase (PI3K)/Akt signaling with a PI3K inhibitor increases both lithium-induced ERKs activation and lithium-induced neurite outgrowth. Taken together, our study suggests that lithium-induced neurite outgrowth in N2a cells is regulated by cross-talk between the MEK/ERKs and PI3K/Akt pathways and requires the activation of the MEK/ERKs signaling.

cross-talk

lithium

MEK/ERKs pathway

neurite outgrowth

PI3K/Akt pathway

Surgery

Sphingosine kinase 1-interacting protein is a novel regulator of glucose-stimulated insulin secretion. / Sphingosine kinase 1-interacting protein はグルコース応答性インスリン分泌の新たな調節分子である。

Wang, Yu

24 July 2017

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20616号 / 医博第4265号 / 新制||医||1023(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 長船 健二, 教授 渡邊 直樹, 教授 岩田 想 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Sphingosine kinase-1 interacting protein

glucose-stimulated insulin secretion

triggering pathway

amplifying pathway

490

Overlapping Projections of Neighboring Direct and Indirect Pathway Neostriatal Neurons to Globus Pallidus External Segment / 線条体の隣接した直接路・間接路ニューロンからの淡蒼球外節投射は重複する

Okamoto, Shinichiro

24 November 2021

京都大学 / 新制・論文博士 / 博士(医学) / 乙第13453号 / 論医博第2246号 / 新制||医||1055(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 渡邉 大, 教授 林 康紀, 教授 高橋 淳 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

basal ganglia

direct pathway

indirect pathway

globus pallidus external segment

axon projection

490

Access to Algebra I, Gateway to Success: The Impact of Eighth-Grade Algebra I.

Darling, Emily Jean Skelton

08 May 2010

An understanding of Algebra I and the role that this foundational course plays as an entry to the college preparatory pathway in secondary education and its influence on mathematical achievement is an integral component for the education of American youth in the global world of science and technology. Achievements in high school curricula are cumulative; each course completed determines which paths will be open to the student and which postsecondary education options will be available. In today's world, these options are necessary for the competitive world market. Algebra I is the prerequisite course for subsequent high school math pathways. Students exposed to higher level math and science pathways in high school score higher on college entrance exams such as the American College Test (ACT), and they are more likely to be successful in college due to greater competence in math (Conley, 2006). This research examined the effect of early Algebra I exposure in the 8th grade on students in 2 city school systems in Northeast Tennessee. More specifically, this study explored the correlation between Algebra I completion in the 8th grade and subsequent student achievement. The number of math classes attempted by high school seniors and ACT achievement scores, suggested that early exposure to algebra yields more math class participation and higher levels of mathematic achievement. This study found that students who successfully completed Algebra I in the 8th grade were able to earn more higher level high school math course credits than students who did not successfully complete Algebra I in grade 8. Successful completion of Algebra I in middle school allowed students to enroll in more varied and higher level math courses throughout their high school career.

Algebra I

Delayed enrollment pathway

Early enrollment pathway

Education

Science and Mathematics Education

Integrative and Network-Based Approaches for Functional Interpretation of MetabolomicData

Patt, Andrew Christopher

January 2021

No description available.

Bioinformatics

Biomedical Research

Metabolomics

Pathway analysis

Pathway databases

Biological network analysis

Liposarcoma

Impact of altered polyamine metabolism on Streptococcus pneumoniae capsule

Ayoola, Moses Babatunde

30 April 2021

This dissertation is a compilation of published works and a manuscript that seek to understand the possible role of polyamines in the regulation of capsule in Streptococcus pneumoniae (Spn, pneumococcus). Spn remains a major health risk worldwide while the capsule is widely recognized as the principal virulence factor. Polyamines on the other hand are small hydrocarbon molecules known to regulate a number of cellular processes in bacteria. This work investigates the impact of deletion of polyamine biosynthesis gene, SP_0916 (cadA, lysine decarboxylase at the time of first and second publication), on protein expression and the capsule biosynthesis of virulent pneumococcal serotype 4 (TIGR4). We identify loss of capsular polysaccharide (CPS) in the deletion strain and based on proteomics results, we hypothesized that a shift in metabolism that favors the pentose phosphate pathway (PPP) over glycolytic pathway, that could reduce the availability of precursors for CPS had occurred. Comparison of transcriptomic and untargeted metabolomics profile of ∆SP_0916 with TIGR4 shows impaired glycolysis and Leloir pathways that provide CPS precursors, in the mutant strain. Furthermore, gene expression changes indicate possible reduction of common polyamines (cadaverine, putrescine, spermidine and spermine). Targeted metabolomics analysis confirmed reduced levels of polyamines in SP_0916. However, the result suggests that SP_0916 encodes an arginine decarboxylase, contrary to its existing annotation as a lysine decarboxylase in many bioinformatics databases. Biochemical characterization of the purified protein encoded by SP_0916 confirms that it is indeed catalyzes arginine decarboxylation, and exogenous supplementation of agmatine, the product of the reaction, successfully restores capsule biosynthesis. This study fixes an error in annotation of the TIGR4 genome and further establishes the essentiality of agmatine, a product of arginine decarboxylation as the key polyamine molecule modulating pneumococcal capsule. We later compared the impact of deletion of polyamine synthesis by gene deletion (ΔSP_0916) with chemical inhibition of synthesis using α- difluoromethylornithine (DFMO), in multiple pneumococcal serotypes. Results of this dissertation confirmed that pneumococcal pathways impacted by the disruption of polyamine biosynthesis either by gene deletion or chemical intervention are conserved and could regulate capsule synthesis.

Streptococcus pneumoniae

capsule

polyamines

agmatine

metabolomics

proteomics

DFMO

Leloir pathway

glycolysis

pentose phosphate pathway.

Enzymatic fuel cells via synthetic pathway biotransformation

Zhu, Zhiguang

11 June 2013

Enzyme-catalyzed biofuel cells would be a great alternative to current battery technology, as they are clean, safe, and capable of using diverse and abundant renewable biomass with high energy densities, at mild reaction conditions. However, currently, three largest technical challenges for emerging enzymatic fuel cell technologies are incomplete oxidation of most fuels, limited power output, and short lifetime of the cell. Synthetic pathway biotransformation is a technology of assembling a number of enzymes coenzymes for producing low-value biocommodities. In this work, it was applied to generate bioelectricity for the first time. Non-natural enzymatic pathways were developed to utilize maltodextrin and glucose in enzymatic fuel cells. Three immobilization approaches were compared for preparing enzyme electrodes. Thermostable enzymes from thermophiles were cloned and expressed for improving the lifetime and stability of the cell. To further increase the power output, non-immobilized enzyme system was demonstrated to have higher power densities compared to those using immobilized enzyme system, due to better mass transfer and retained native enzyme activities. With the progress on pathway development and power density/stability improvement in enzymatic fuel cells, a high energy density sugar-powered enzymatic fuel cell was demonstrated. The enzymatic pathway consisting of 13 thermostable enzymes enabled the complete oxidation of glucose units in maltodextrin to generate 24 electrons, suggesting a high energy density of such enzymatic fuel cell (300 Wh/kg), which was several folds higher than that of a lithium-ion battery. Maximum power density was 0.74 mW/cm2 at 50 deg C and 20 mM fuel concentration, which was sufficient to power a digital clock or a LED light. These results suggest that enzymatic fuel cells via synthetic pathway biotransformation could achieve high energy density, high power density and increased lifetime. Future efforts should be focused on further increasing power density and enzyme stability in order to make enzymatic fuel cells commercially applicable. / Ph. D.

enzymatic fuel cells

bioelectricity

synthetic pathway biotransformation

enzymatic pathway

energy density

power density

A Study of Machine Learning Approaches for Integrated Biomedical Data Analysis

Chang, Yi Tan

29 June 2018

This thesis consists of two projects in which various machine learning approaches and statistical analysis for the integration of biomedical data analysis were explored, developed and tested. Integration of different biomedical data sources allows us to get a better understating of human body from a bigger picture. If we can get a more complete view of the data, we not only get a more complete view of the molecule basis of phenotype, but also possibly can identify abnormality in diseases which were not found when using only one type of biomedical data. The objective of the first project is to find biological pathways which are related to Duechenne Muscular Dystrophy(DMD) and Lamin A/C(LMNA) using the integration of multi-omics data. We proposed a novel method which allows us to integrate proteins, mRNAs and miRNAs to find disease related pathways. The goal of the second project is to develop a personalized recommendation system which recommend cancer treatments to patients. Compared to the traditional way of using only users' rating to impute missing values, we proposed a method to incorporate users' profile to help enhance the accuracy of the prediction. / Master of Science

Data integration

Machine learning

pathway enrichment

pathway prioritization

matrix completion

treatment recommendation.

The Golgi apparatus is a functionally distinct Ca2+ store regulated by PKA and Epac branches of the β1-adrenergic signaling pathway.

Yang, Z., Kirton, H.M., MacDougall, D.A., Boyle, J.P., Deuchars, J., Frater, B., Ponnambalam, S., Hardy, Matthew E., White, M., Calaghan, S.C., Peers, C., Steele, D.S.

13 October 2015

Yes / Ca2+ release from the Golgi apparatus regulates key functions of the organelle, including vesicle trafficking. However, the signaling pathways that control this form of Ca2+ release are poorly understood and evidence of discrete Golgi Ca2+ release events is lacking. Here, we identified the Golgi apparatus as the source of prolonged Ca2+ release events that originate from the nuclear ‘poles’ of primary cardiac cells. Once initiated, Golgi Ca2+ release was unaffected by global depletion of sarcoplasmic reticulum Ca2+, and disruption of the Golgi apparatus abolished Golgi Ca2+ release without affecting sarcoplasmic reticulum function, suggesting functional and anatomical independence of Golgi and sarcoplasmic reticulum Ca2+ stores. Maximal activation of β1-adrenoceptors had only a small stimulating effect on Golgi Ca2+ release. However, inhibition of phosphodiesterase (PDE) 3 or 4, or downregulation of PDE 3 and 4 in heart failure markedly potentiated β1-adrenergic stimulation of Golgi Ca2+ release, consistent with compartmentalization of cAMP signaling within the Golgi apparatus microenvironment. β1-adrenergic stimulation of Golgi Ca2+ release involved activation of both Epac and PKA signaling pathways and CaMKII. Interventions that stimulated Golgi Ca2+ release induced trafficking of vascular growth factor receptor-1 (VEGFR-1) from the Golgi apparatus to the surface membrane. These data establish the Golgi apparatus as a juxtanuclear focal point for Ca2+ and β1-adrenergic signaling, which functions independently from the sarcoplasmic reticulum and the global Ca2+ transients that underlie the primary contractile function of the cell.

Golgi apparatus

Ca2+ store

PKA

Epac signaling pathway

β1-adrenergic signaling pathway

Signaling pathways

Physiological and biochemical studies on microbial 2´-deoxyribonucleotide biosynthesis and oxidative pyrimidine metabolism / 微生物の2′-デオキシリボヌクレオチド生合成および酸化的ピリミジン代謝に関する生理学的ならびに生化学的研究

Deguchi, Kengo

25 March 2024

京都大学 / 新制・課程博士 / 博士(農学) / 甲第25332号 / 農博第2598号 / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 小川 順, 教授 栗原 達夫, 教授 菅瀬 謙治 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Rebonucleotide reductase

DERA pathway

Pyrimidine oxidative pathway

Uracil/thymine dehydrogenase

Ureidomlonase

610