Project description:Vanillin is a natural dietary flavoring. Colorectal cancer (CRC) is one of the common malignancies in the world. Chronic intestinal inflammation is a risk factor for the development of CRC. We have previously found that vanillin improves and prevents the colitis in mice. Here, we evaluated the inhibitory activities of vanillin on a mouse model of colitis-induced colon cancer.

Project description:Colorectal cancer (CRC) is the third most deadly and fourth most diagnosed cancer worldwide. Despite the progress in early diagnosis and advanced therapeutic options, CRC shows a poor prognosis with a 5-year survival rate of ~45%. PRDM2/RIZ, a member of Positive Regulatory Domain (PRDM) gene family, expresses two main molecular variants, the PR-plus isoform (RIZ1) and the PR-minus (RIZ2). The imbalance in their expression levels in favour of RIZ2 is observed in many cancer types. The full length RIZ1 has been extensively investigated in several cancers where it acts as a tumour suppressor, whereas few studies have explored the RIZ2 oncogenic properties. PRDM2 is often target of frameshift mutations and aberrant DNA methylation in CRC. Accordingly, our analysis of Exome- and transcriptome public datasets available at The Cancer Genome Atlas (TCGA) portal revealed that PRDM2 gene is frequently mutated and transcriptionally deregulated in CRC. However, little is known about its role in CRC. In this study, we first evaluated the expression of the different PRDM2 transcripts by in silico analysis on TCGA CRC datasets. Our in-silico analysis on TCGA datasets revealed a highly significant downregulation of RIZ1 in CRC samples whereas a RIZ2 increase was observed in the same samples. Then, we assayed several CRC cell lines by qRT-PCR analysis for the main PRDM2 transcripts and selected DLD-1 cell line, which showed the lowest RIZ2 levels to mimic TCGA datasets analysis results and consequently to assess the PRDM2/RIZ2 role in CRC cells. RNAseq analysis revealed that RIZ2 overexpression induced an EGF overexpression suggesting that RIZ2 could be involved in the EGF autocrine regulation of DLD-1 cell behaviour. Noteworthy, the forced RIZ2 expression increased cell viability, growth, colony formation, migration and organoid formation thus confirming our previous findings on HEK-293 cells. These effects could be mediated by the release of high EGF levels by RIZ2 overexpressing DLD-1 cells. Our findings add novel insights on the putative RIZ2 tumor-promoting functions in CRC, although additional attempts are warranted to depict the underlying molecular mechanism of action

Project description:The cytokine IL-22 promotes tumor progression in murine models of colorectal cancer (CRC). However, the clinical significance of IL-22 in human CRC remained unclear. Using a rigorous discovery/verification analysis of tumor gene expression from over 1,000 patients, we discovered that among CRC patients with high expression of either or both subunits of the heterodimeric IL-22 receptor, KRAS mutation confers poor prognosis. Analysis of human CRC cell lines and primary tumor organoids, including a DLD-1 isogenic cell line pair that differed only in KRAS mutation status, showed that IL-22 and mutant KRAS cooperatively enhance cancer cell proliferation. The purpose of this study was to identify unique mechanisms of interaction between IL-22 signaling and mutant KRAS. Taking advantage of the DLD-1 isogenic pair with match IL-22 receptor expression, differing only in the presence or absence of mutant KRAS global transcriptomic changes were explored in an unbiased manner following IL-22 stimulation. RNA-sequencing was performed on DLD-1 isogenic cells stimulated with 10ng/mL IL-22 for 2h to identify early transcriptional changes and after 24h to explore late changes. Given that IL-6 receptor expression does not interact with mutant KRAS in a prognostically significant manner, nor did it enhance proliferation in KRAS mutant versus WT cells, DLD-1 isogenic cells were also stimulated with 10ng/mL IL-6 for 2 and 24h to identify pathways uniquely regulated by IL-22 and not IL-6.

Project description:ZEB2-mediated EMT in CRC cell line DLD-1

Project description:Every three samples of pelvic CRC (DLD-1 clone#1-Luc cell) in the control and Chemically-modified miR-143 (CM-miR143) groups, which were frozen in liquid nitrogen, were prepared. Every three samples were resected four times, three days after the administration of the control miRNA or CM-miR143 lipoplexes.

Project description:Background: Distant metastasis remains a major reason for the high recurrence and mortality of colorectal cancer (CRC). However, the underlying molecular mechanisms driving metastasis in CRC remain poorly understood. In this study, we investigated the mechanisms underlying the inhibitory effects of lipocalin-2 (LCN2) on CRC metastasis. Methods: We assessed the expression and clinical significance of LCN2 in human CRC specimens and CRC cell lines using, immunohistochemistry, and western blot analyses. We evaluated the migratory and invasive capabilities of CRC cells influenced by LCN2 using in vitro transwell assays and in vivo lung metastatic models. RNA sequencing and proteome analysis were employed to identify potential downstream targets of LCN2. Rescue experiments were conducted to further elucidate the potential mechanisms of LCN2 and its downstream effectors in CRC. Results: LCN2 exhibited high expression levels in human CRC tissues and an inverse correlation with N classification, advanced AJCC stages, and shorter overall survival. LCN2 expression independently predicted a more favorable outcome for CRC patients. Upregulation of LCN2 effectively suppressed CRC cell metastasis both in vitro and in vivo. Mechanistically, Transforming growth factor beta 1 (TGFB1) and C-X-C motif chemokine ligand 5 (CXCL5) were identified as downstream effectors of LCN2, with LCN2 inhibiting CRC metastasis through repression of the TGFB1/CXCL5 axis. Furthermore, either TGF-βR1 inhibitor SB431542 or CXCR2 antagonist SB225002 treatment moderately decreased the migratory and invasive capabilities of DLD-1-LV-shLCN2 cells, whereas the combination treatment of the two agents dramatically decreased the migratory and invasive capabilities of DLD-1-LV-shLCN2 cells. Conclusions: This study underscores LCN2 as an independent protective factor and prognostic biomarker for CRC patients. Combined treatment with the SB431542 and the SB225002 significantly attenuated LCN2-related CRC metastasis. Targeting the LCN2/TGFB1/CXCL5 axis emerges as a promising therapeutic strategy for managing LCN2-related metastatic CRC.

Project description:Quantifying the Contribution of the Liver to Glucose Homeostasis: A Detailed Kinetic Model of Human Hepatic Glucose Metabolism Kinetic Model of Human Hepatic Glucose Metabolism Authors Matthias Koenig, Sascha Bulik and Hermann-Georg Holzhuetter Corresponding Author Matthias Koenig matthias.koenig@charite.de Charite Berlin, Computational Systems Biochemistry, Germany Keywords hepatic glucose metabolism; kinetic model; glucose homeostasis; liver Despite the crucial role of the liver in glucose homeostasis, a detailed mathematical model of human hepatic glucose metabolism is lacking so far. Here we present, a detailed kinetic model of glycolysis, gluconeogenesis and glycogen metabolism in human hepatocytes integrated with the hormonal control of these pathways by insulin, glucagon and epinephrine. Model simulations are in excellent agreement with experimental data on (i) the quantitative contributions of glycolysis, gluconeogenesis, and glycogen metabolism to hepatic glucose production and hepatic glucose utilization under varying physiological states. (ii) the time courses of postprandial glycogen storage as well as glycogen depletion in overnight fasting and short term fasting (iii) the switch from hepatic glucose production under hypoglycemia to hepatic glucose utilization under hyperglycemia essential for glucose homeostasis. Response analysis reveals an extra high capacity of the liver to counteract changes of plasma glucose level below 5 mM (hypoglycemia) and above 7.5 mM (hyperglycemia). Our model may serve as an important module of a whole-body model of human glucose metabolism and as a valuable tool for understanding the role of the liver in glucose homeostasis under normal conditions and in diseases like diabetes or glycogen storage diseases. Compartments Id Name Dimension Constant SBO GO cyto cytosol 3 Y SBO:0000290 physical compartment GO:0005829 cytosol blood blood 3 Y SBO:0000290 physical compartment GO:0005615 extracellular space mito mitochondrion 3 Y SBO:0000290 physical compartment GO:0005739 mitochondrion mm mitochondrial membrane 2 Y SBO:0000290 physical compartment GO:0031966 mitochondrial membrane pm plasma membrane 2 Y SBO:0000290 physical compartment GO:0005886 plasma membrane Species Id Name Compartment Constant Init [mM] KEGG CHEBI UNIPROT SBO atp ATP cyto Y 2.8 KEGG:C00002 CHEBI:15422 SBO:0000299 metabolite adp ADP cyto Y 0.8 KEGG:C00008 CHEBI:16761 SBO:0000299 metabolite amp AMP cyto Y 0.16 KEGG:C00020 CHEBI:16027 SBO:0000299 metabolite utp UTP cyto N 0.27 KEGG:C00075 CHEBI:15713 SBO:0000299 metabolite udp UDP cyto N 0.09 KEGG:C00015 CHEBI:17659 SBO:0000299 metabolite gtp GTP cyto N 0.29 KEGG:C00044 CHEBI:15996 SBO:0000299 metabolite gdp GDP cyto N 0.10 KEGG:C00035 CHEBI:17552 SBO:0000299 metabolite nad NAD+ cyto Y 1.22 KEGG:C00003 CHEBI:15846 SBO:0000299 metabolite nadh NADH cyto Y 5.60E-004 KEGG:C00004 CHEBI:16908 SBO:0000299 metabolite p phosphate cyto Y 5 KEGG:C00009 SBO:0000299 metabolite pp pyrophosphate cyto N 0.008 KEGG:C00013 SBO:0000299 metabolite h2o H2O cyto Y 55000 KEGG:C00001 CHEBI:15377 SBO:0000299 metabolite co2 CO2 cyto Y 5 KEGG:C00011 CHEBI:16526 SBO:0000299 metabolite h H+ cyto Y 5.00E-008 KEGG:C00080 CHEBI:24636 SBO:0000299 metabolite glc1p glucose-1-phosphate cyto N 0.012 KEGG:C00103 CHEBI:16077 SBO:0000299 metabolite udpglc UDP-glucose cyto N 0.38 KEGG:C00029 CHEBI:18066 SBO:0000299 metabolite glc glucose cyto N 5 KEGG:C00031 CHEBI:4167 SBO:0000299 metabolite glyglc glycogen cyto N 250 KEGG:C00182 CHEBI:28087 SBO:0000299 metabolite fru6p fructose-6-phosphate cyto N 0.05 KEGG:C00085 CHEBI:15946 SBO:0000299 metabolite glc6p glucose-6-phosphate cyto N 0.12 KEGG:C00092 CHEBI:4170 SBO:0000299 metabolite fru26bp fructose-2,6-bisphospate cyto N 0.004 KEGG:C00665 CHEBI:28602 SBO:0000299 metabolite fru16bp fructose-1,6-bisphospate cyto N 0.02 KEGG:C00354 CHEBI:16905 SBO:0000299 metabolite dhap dihydroxyacetone phosphate cyto N 0.03 KEGG:C00111 CHEBI:16108 SBO:0000299 metabolite grap glyceraldehyde 3-phosphate cyto N 0.1 KEGG:C00118 CHEBI:29052 SBO:0000299 metabolite pg3 3-phosphoglycerate cyto N 0.27 KEGG:C00197 CHEBI:17794 SBO:0000299 metabolite bpg13 1,3-bisphospho-glycerate cyto N 0.3 KEGG:C00236 CHEBI:16001 SBO:0000299 metabolite pep phosphoenolpyruvate cyto N 0.15 KEGG:C00074 CHEBI:44897 SBO:0000299 metabolite pg2 2-phosphoglycerate cyto N 0.03 KEGG:C00631 CHEBI:17835 SBO:0000299 metabolite oaa oxaloacetate cyto N 0.01 KEGG:C00036 CHEBI:30744 SBO:0000299 metabolite pyr pyruvate cyto N 0.1 KEGG:C00022 CHEBI:32816 SBO:0000299 metabolite glc_blood glucose blood Y 5 KEGG:C00031 CHEBI:4167 SBO:0000299 metabolite lac lactate cyto N 0.5 KEGG:C00186 CHEBI:422 SBO:0000299 metabolite p_mito phosphate mito Y 5 KEGG:C00009 SBO:0000299 metabolite oaa_mito oxaloacetate mito N 0.01 KEGG:C00036 CHEBI:30744 SBO:0000299 metabolite lac_blood lactate blood Y 1.2 KEGG:C00186 CHEBI:422 SBO:0000299 metabolite co2_mito CO2 mito Y 5 KEGG:C00011 CHEBI:16526 SBO:0000299 metabolite pyr_mito pyruvate mito N 0.1 KEGG:C00022 CHEBI:32816 SBO:0000299 metabolite cit_mito citrate mito Y 0.32 KEGG:C00158 CHEBI:30769 SBO:0000299 metabolite pep_mito pep mito N 0.15 KEGG:C00074 CHEBI:44897 SBO:0000299 metabolite acoa_mito acetyl-coenzyme A mito Y 0.04 KEGG:C00024 CHEBI:15351 SBO:0000299 metabolite gtp_mito GTP mito N 0.29 KEGG:C00044 CHEBI:15996 SBO:0000299 metabolite gdp_mito GDP mito N 0.10 KEGG:C00035 CHEBI:17552 SBO:0000299 metabolite atp_mito ATP mito Y 2.8 KEGG:C00002 CHEBI:15422 SBO:0000299 metabolite adp_mito ADP mito Y 0.8 KEGG:C00008 CHEBI:16761 SBO:0000299 metabolite nad_mito NAD+ mito Y 0.98 KEGG:C00003 CHEBI:15846 SBO:0000299 metabolite h_mito H+ mito Y 1.00E-008 KEGG:C00011 CHEBI:24636 SBO:0000299 metabolite coa_mito coenzymeA mito Y 0.055 KEGG:C00010 CHEBI:15346 SBO:0000299 metabolite nadh_mito NADH mito Y 0.24 KEGG:C00004 CHEBI:16908 SBO:0000299 metabolite epinephrine_blood epinephrine blood N 206.11 KEGG:C00547 CHEBI:18357 SBO:0000299 metabolite glucagon_blood glucagon blood N 4.36E-008 KEGG:C01501 UNIPROT:P01275 SBO:0000299 metabolite insulin_blood insulin blood N 7.61E-008 KEGG:C00723 UNIPROT:P01308 SBO:0000299 metabolite h20_mito H2O mito Y 55000 KEGG:C00080 CHEBI:15377 SBO:0000299 metabolite Reactions Id Name Compartment Irreversible Vmax [µmol/kg/min] EC KEGG UNIPROT SBO GLUT2 GLUT2 glucose transporter (facilitated diffusion) pm N 420 UNIPROT:P11168 SBO:0000284 transporter GK Glucokinase, hexokinase IV cyto Y 25.2 EC:2.7.1.2 KEGG:R00299 UNIPROT:P35557 SBO:0000014 enzyme G6PASE Glucose-6-phosphatase cyto Y 18.9 EC:3.1.3.9 KEGG:R00303 UNIPROT:P35575 SBO:0000014 enzyme GPI Glucose-6-phosphate isomerase cyto N 420 EC:5.3.1.9 KEGG:R00771 UNIPROT:P06744 SBO:0000014 enzyme G16PI glucose-1-phosphate 1,6-phosphomutase cyto N 100 EC:5.4.2.2 KEGG:R00959 UNIPROT:P36871, UNIPROT:Q96G03 SBO:0000014 enzyme UPGASE UTP:Glucose-1-phosphate uridylyltransferase cyto N 80 EC:2.7.7.9 KEGG:R00289 UNIPROT:Q16851 SBO:0000014 enzyme PPASE Pyrophosphate phosphohydrolase cyto Y 2.4 EC:3.6.1.1 KEGG:R00004 UNIPROT:Q15181 SBO:0000014 enzyme GS Glycogen synthase cyto Y 13.2 UNIPROT:P54840 SBO:0000014 enzyme GP Glycogen phosphorylase cyto N 6.8 UNIPROT:P06737 SBO:0000014 enzyme NTKGTP Nucleosid diphosphate kinase (GTP) cyto N 0 EC:2.7.4.6 KEGG:R00330 SBO:0000014 enzyme NTKUTP Nucleosid diphosphate kinase (UTP) cyto N 2940 EC:2.7.4.6 KEGG:R00156 SBO:0000014 enzyme AK Adenylat kinase cyto N 0 EC:2.7.4.3 KEGG:R00127 SBO:0000014 enzyme PFK2 Phosphofructo kinase 2 cyto Y 0.0042 EC:2.7.1.105 KEGG:R02732 UNIPROT:P16118 SBO:0000014 enzyme FBP2 Fructose-2,6-bisphosphatase cyto Y 0.126 EC:3.1.3.46 KEGG:R02731 UNIPROT:P16118 SBO:0000014 enzyme PFK1 Phosphofructo kinase 1 cyto Y 7.182 EC:2.7.1.11 KEGG:R00756 UNIPROT:P17858 SBO:0000014 enzyme FBP1 Fructose-1,6-bisphosphatase cyto Y 4.326 EC:3.1.3.11 KEGG:R00762 UNIPROT:O00757, UNIPROT:P09467 SBO:0000014 enzyme TPI Triosephosphate isomerase cyto N 420 EC:5.3.1.1 KEGG:R01015 UNIPROT:P60174 SBO:0000014 enzyme ALD Aldolase cyto N 420 EC:4.1.2.13 KEGG:R01068 UNIPROT:P05062 SBO:0000014 enzyme PGK Phosphoglycerate kinase cyto N 420 EC:2.7.2.3 KEGG:R01512 UNIPROT:P00558 SBO:0000014 enzyme GAPDH Glyceraldehydephosphate dehydrogenase cyto N 420 EC:1.2.1.12 KEGG:R01061 UNIPROT:P04406 SBO:0000014 enzyme EN Enolase cyto N 35.994 EC:4.2.1.11 KEGG:R00658 UNIPROT:P06733, UNIPROT:P09104, UNIPROT:P13929 SBO:0000014 enzyme PGAM 3-Phosphoglycerate mutase cyto N 420 EC:5.4.2.1 KEGG:R01518 UNIPROT:P18669 SBO:0000014 enzyme PEPCK Phosphoenolpyruvate carboxykinase cyto N 0 EC:4.1.1.32 KEGG:R00431 UNIPROT:P35558 SBO:0000014 enzyme PK Pyruvate kinase cyto Y 46.2 EC:2.7.1.40 KEGG:R00200 UNIPROT:P30613 SBO:0000014 enzyme PC Pyruvate Carboxylase mito Y 168 EC:6.4.1.1 KEGG:R00344 UNIPROT:P11498 SBO:0000014 enzyme PEPCK_mito Phosphoenolpyruvate carboxykinase mito N 546 EC:4.1.1.32 KEGG:R00431 UNIPROT:Q16822 SBO:0000014 enzyme LACT Lactate transporter pm N 5.418 SBO:0000284 transporter LDH Lactate dehydrogenase cyto N 12.6 EC:1.1.1.27 -KEGG:R00703 UNIPROT:P00338, UNIPROT:P07195, UNIPROT:P07864 SBO:0000014 enzyme PEPT PEP transporter mm N 33.6 SBO:0000284 transporter PYRT Pyruvate transporter mm N 42 SBO:0000284 transporter CS Citrate synthase mito N 4.2 EC:2.3.3.1 -KEGG:R00351 UNIPROT:O75390 SBO:0000014 enzyme PDH Pyruvate dehydrogenase mito Y 13.44 EC:1.2.4.1 KEGG:R00209 UNIPROT:P08559, UNIPROT:P11177, UNIPROT:P10515, UNIPROT:P09622, O00330 SBO:0000014 enzyme ACOAFLX Acetyl-CoA flux mito N 0 SBO:0000014 enzyme VCITFLX Citrate flux mito N 0 SBO:0000014 enzyme NDK_mito Nucleosid diphosphate kinase (GTP) mito N 420 EC:2.7.4.6 KEGG:R00330 SBO:0000014 enzyme OAAFLX Oxalacetate flux mito N 0 SBO:0000014 enzyme

Project description:We report the induction of epithelial-mesenchymal transition (EMT) in the epithelial colorectal cancer (CRC) cell line DLD-1. ZEB2 expression is sufficient to induce the downregulation of epithelial markers such as E-cadherin, claudins, keratins and occludins, while upregulating the expression of several mesenchymal markers as vimentin and fibronectin.

Project description:Mutant KRAS activates cancer stem cells (CSCs) contributing transformation of colorectal cancer (CRC) cells harboring adenomatous polyposis coli (APC) mutations. The factors mediating activation of CSCs by KRAS mutation were systematically investigated through a microarray analysis of the APC-mutated isogenic DLD-1 CRC cells harboring homogeneous wild-type KRAS (D-WT) or mutant KRAS (D-MT). The objective of the study was to find the factors specifically induced in the spheroids harboring both APC and KRAS mutations.

Project description:Kinetic Modeling of Human Hepatic Glucose Metabolism in Type 2 Diabetes Mellitus Predicts Higher Risk of Hypoglycemic Events in Rigorous Insulin Therapy* Kinetic Model of Human Hepatic Glucose Metabolism in T2DM Authors Matthias Koenig and Hermann-Georg Holzhuetter Corresponding Author Matthias Koenig matthias.koenig@charite.de Charite Berlin, Computational Systems Biochemistry, Germany Keywords hepatic glucose metabolism; kinetic model; glucose homeostasis; liver, T2DM A major problem in the insulin therapy of patients with diabetes type 2 (T2DM) is the increased occurrence of hypoglycemic events which, if left untreated, may cause confusion or fainting and in severe cases seizures, coma, and even death. To elucidate the potential contribution of the liver to hypoglycemia in T2DM we applied a detailed kinetic model of human hepatic glucose metabolism to simulate changes in glycolysis, gluconeogenesis, and glycogen metabolism induced by deviations of the hormones insulin, glucagon, and epinephrine from their normal plasma profiles. Our simulations reveal in line with experimental and clinical data from a multitude of studies in T2DM, (i) significant changes in the relative contribution of glycolysis, gluconeogenesis, and glycogen metabolism to hepatic glucose production and hepatic glucose utilization; (ii) decreased postprandial glycogen storage as well as increased glycogen depletion in overnight fasting and short term fasting; and (iii) a shift of the set point defining the switch between hepatic glucose production and hepatic glucose utilization to elevated plasma glucose levels, respectively, in T2DM relative to normal, healthy subjects. Intriguingly, our model simulations predict a restricted gluconeogenic response of the liver under impaired hormonal signals observed in T2DM, resulting in an increased risk of hypoglycemia. The inability of hepatic glucose metabolism to effectively counterbalance a decline of the blood glucose level becomes even more pronounced in case of tightly controlled insulin treatment. Given this Janus face mode of action of insulin, our model simulations underline the great potential that normalization of the plasma glucagon profile may have for the treatment of T2DM. Compartments Id Name Dimension Constant SBO GO cyto cytosol 3 Y SBO:0000290 physical compartment GO:0005829 cytosol blood blood 3 Y SBO:0000290 physical compartment GO:0005615 extracellular space mito mitochondrion 3 Y SBO:0000290 physical compartment GO:0005739 mitochondrion mm mitochondrial membrane 2 Y SBO:0000290 physical compartment GO:0031966 mitochondrial membrane pm plasma membrane 2 Y SBO:0000290 physical compartment GO:0005886 plasma membrane Species Id Name Compartment Constant Init [mM] KEGG CHEBI UNIPROT SBO atp ATP cyto Y 2.8 KEGG:C00002 CHEBI:15422 SBO:0000299 metabolite adp ADP cyto Y 0.8 KEGG:C00008 CHEBI:16761 SBO:0000299 metabolite amp AMP cyto Y 0.16 KEGG:C00020 CHEBI:16027 SBO:0000299 metabolite utp UTP cyto N 0.27 KEGG:C00075 CHEBI:15713 SBO:0000299 metabolite udp UDP cyto N 0.09 KEGG:C00015 CHEBI:17659 SBO:0000299 metabolite gtp GTP cyto N 0.29 KEGG:C00044 CHEBI:15996 SBO:0000299 metabolite gdp GDP cyto N 0.10 KEGG:C00035 CHEBI:17552 SBO:0000299 metabolite nad NAD+ cyto Y 1.22 KEGG:C00003 CHEBI:15846 SBO:0000299 metabolite nadh NADH cyto Y 5.60E-004 KEGG:C00004 CHEBI:16908 SBO:0000299 metabolite p phosphate cyto Y 5 KEGG:C00009 SBO:0000299 metabolite pp pyrophosphate cyto N 0.008 KEGG:C00013 SBO:0000299 metabolite h2o H2O cyto Y 55000 KEGG:C00001 CHEBI:15377 SBO:0000299 metabolite co2 CO2 cyto Y 5 KEGG:C00011 CHEBI:16526 SBO:0000299 metabolite h H+ cyto Y 5.00E-008 KEGG:C00080 CHEBI:24636 SBO:0000299 metabolite glc1p glucose-1-phosphate cyto N 0.012 KEGG:C00103 CHEBI:16077 SBO:0000299 metabolite udpglc UDP-glucose cyto N 0.38 KEGG:C00029 CHEBI:18066 SBO:0000299 metabolite glc glucose cyto N 5 KEGG:C00031 CHEBI:4167 SBO:0000299 metabolite glyglc glycogen cyto N 250 KEGG:C00182 CHEBI:28087 SBO:0000299 metabolite fru6p fructose-6-phosphate cyto N 0.05 KEGG:C00085 CHEBI:15946 SBO:0000299 metabolite glc6p glucose-6-phosphate cyto N 0.12 KEGG:C00092 CHEBI:4170 SBO:0000299 metabolite fru26bp fructose-2,6-bisphospate cyto N 0.004 KEGG:C00665 CHEBI:28602 SBO:0000299 metabolite fru16bp fructose-1,6-bisphospate cyto N 0.02 KEGG:C00354 CHEBI:16905 SBO:0000299 metabolite dhap dihydroxyacetone phosphate cyto N 0.03 KEGG:C00111 CHEBI:16108 SBO:0000299 metabolite grap glyceraldehyde 3-phosphate cyto N 0.1 KEGG:C00118 CHEBI:29052 SBO:0000299 metabolite pg3 3-phosphoglycerate cyto N 0.27 KEGG:C00197 CHEBI:17794 SBO:0000299 metabolite bpg13 1,3-bisphospho-glycerate cyto N 0.3 KEGG:C00236 CHEBI:16001 SBO:0000299 metabolite pep phosphoenolpyruvate cyto N 0.15 KEGG:C00074 CHEBI:44897 SBO:0000299 metabolite pg2 2-phosphoglycerate cyto N 0.03 KEGG:C00631 CHEBI:17835 SBO:0000299 metabolite oaa oxaloacetate cyto N 0.01 KEGG:C00036 CHEBI:30744 SBO:0000299 metabolite pyr pyruvate cyto N 0.1 KEGG:C00022 CHEBI:32816 SBO:0000299 metabolite glc_blood glucose blood Y 5 KEGG:C00031 CHEBI:4167 SBO:0000299 metabolite lac lactate cyto N 0.5 KEGG:C00186 CHEBI:422 SBO:0000299 metabolite p_mito phosphate mito Y 5 KEGG:C00009 SBO:0000299 metabolite oaa_mito oxaloacetate mito N 0.01 KEGG:C00036 CHEBI:30744 SBO:0000299 metabolite lac_blood lactate blood Y 1.2 KEGG:C00186 CHEBI:422 SBO:0000299 metabolite co2_mito CO2 mito Y 5 KEGG:C00011 CHEBI:16526 SBO:0000299 metabolite pyr_mito pyruvate mito N 0.1 KEGG:C00022 CHEBI:32816 SBO:0000299 metabolite cit_mito citrate mito Y 0.32 KEGG:C00158 CHEBI:30769 SBO:0000299 metabolite pep_mito pep mito N 0.15 KEGG:C00074 CHEBI:44897 SBO:0000299 metabolite acoa_mito acetyl-coenzyme A mito Y 0.04 KEGG:C00024 CHEBI:15351 SBO:0000299 metabolite gtp_mito GTP mito N 0.29 KEGG:C00044 CHEBI:15996 SBO:0000299 metabolite gdp_mito GDP mito N 0.10 KEGG:C00035 CHEBI:17552 SBO:0000299 metabolite atp_mito ATP mito Y 2.8 KEGG:C00002 CHEBI:15422 SBO:0000299 metabolite adp_mito ADP mito Y 0.8 KEGG:C00008 CHEBI:16761 SBO:0000299 metabolite nad_mito NAD+ mito Y 0.98 KEGG:C00003 CHEBI:15846 SBO:0000299 metabolite h_mito H+ mito Y 1.00E-008 KEGG:C00011 CHEBI:24636 SBO:0000299 metabolite coa_mito coenzymeA mito Y 0.055 KEGG:C00010 CHEBI:15346 SBO:0000299 metabolite nadh_mito NADH mito Y 0.24 KEGG:C00004 CHEBI:16908 SBO:0000299 metabolite epinephrine_blood epinephrine blood N 206.11 KEGG:C00547 CHEBI:18357 SBO:0000299 metabolite glucagon_blood glucagon blood N 4.36E-008 KEGG:C01501 UNIPROT:P01275 SBO:0000299 metabolite insulin_blood insulin blood N 7.61E-008 KEGG:C00723 UNIPROT:P01308 SBO:0000299 metabolite h20_mito H2O mito Y 55000 KEGG:C00080 CHEBI:15377 SBO:0000299 metabolite Reactions Id Name Compartment Irreversible Vmax [µmol/kg/min] EC KEGG UNIPROT SBO GLUT2 GLUT2 glucose transporter (facilitated diffusion) pm N 420 UNIPROT:P11168 SBO:0000284 transporter GK Glucokinase, hexokinase IV cyto Y 25.2 EC:2.7.1.2 KEGG:R00299 UNIPROT:P35557 SBO:0000014 enzyme G6PASE Glucose-6-phosphatase cyto Y 18.9 EC:3.1.3.9 KEGG:R00303 UNIPROT:P35575 SBO:0000014 enzyme GPI Glucose-6-phosphate isomerase cyto N 420 EC:5.3.1.9 KEGG:R00771 UNIPROT:P06744 SBO:0000014 enzyme G16PI glucose-1-phosphate 1,6-phosphomutase cyto N 100 EC:5.4.2.2 KEGG:R00959 UNIPROT:P36871, UNIPROT:Q96G03 SBO:0000014 enzyme UPGASE UTP:Glucose-1-phosphate uridylyltransferase cyto N 80 EC:2.7.7.9 KEGG:R00289 UNIPROT:Q16851 SBO:0000014 enzyme PPASE Pyrophosphate phosphohydrolase cyto Y 2.4 EC:3.6.1.1 KEGG:R00004 UNIPROT:Q15181 SBO:0000014 enzyme GS Glycogen synthase cyto Y 13.2 UNIPROT:P54840 SBO:0000014 enzyme GP Glycogen phosphorylase cyto N 6.8 UNIPROT:P06737 SBO:0000014 enzyme NTKGTP Nucleosid diphosphate kinase (GTP) cyto N 0 EC:2.7.4.6 KEGG:R00330 SBO:0000014 enzyme NTKUTP Nucleosid diphosphate kinase (UTP) cyto N 2940 EC:2.7.4.6 KEGG:R00156 SBO:0000014 enzyme AK Adenylat kinase cyto N 0 EC:2.7.4.3 KEGG:R00127 SBO:0000014 enzyme PFK2 Phosphofructo kinase 2 cyto Y 0.0042 EC:2.7.1.105 KEGG:R02732 UNIPROT:P16118 SBO:0000014 enzyme FBP2 Fructose-2,6-bisphosphatase cyto Y 0.126 EC:3.1.3.46 KEGG:R02731 UNIPROT:P16118 SBO:0000014 enzyme PFK1 Phosphofructo kinase 1 cyto Y 7.182 EC:2.7.1.11 KEGG:R00756 UNIPROT:P17858 SBO:0000014 enzyme FBP1 Fructose-1,6-bisphosphatase cyto Y 4.326 EC:3.1.3.11 KEGG:R00762 UNIPROT:O00757, UNIPROT:P09467 SBO:0000014 enzyme TPI Triosephosphate isomerase cyto N 420 EC:5.3.1.1 KEGG:R01015 UNIPROT:P60174 SBO:0000014 enzyme ALD Aldolase cyto N 420 EC:4.1.2.13 KEGG:R01068 UNIPROT:P05062 SBO:0000014 enzyme PGK Phosphoglycerate kinase cyto N 420 EC:2.7.2.3 KEGG:R01512 UNIPROT:P00558 SBO:0000014 enzyme GAPDH Glyceraldehydephosphate dehydrogenase cyto N 420 EC:1.2.1.12 KEGG:R01061 UNIPROT:P04406 SBO:0000014 enzyme EN Enolase cyto N 35.994 EC:4.2.1.11 KEGG:R00658 UNIPROT:P06733, UNIPROT:P09104, UNIPROT:P13929 SBO:0000014 enzyme PGAM 3-Phosphoglycerate mutase cyto N 420 EC:5.4.2.1 KEGG:R01518 UNIPROT:P18669 SBO:0000014 enzyme PEPCK Phosphoenolpyruvate carboxykinase cyto N 0 EC:4.1.1.32 KEGG:R00431 UNIPROT:P35558 SBO:0000014 enzyme PK Pyruvate kinase cyto Y 46.2 EC:2.7.1.40 KEGG:R00200 UNIPROT:P30613 SBO:0000014 enzyme PC Pyruvate Carboxylase mito Y 168 EC:6.4.1.1 KEGG:R00344 UNIPROT:P11498 SBO:0000014 enzyme PEPCK_mito Phosphoenolpyruvate carboxykinase mito N 546 EC:4.1.1.32 KEGG:R00431 UNIPROT:Q16822 SBO:0000014 enzyme LACT Lactate transporter pm N 5.418 SBO:0000284 transporter LDH Lactate dehydrogenase cyto N 12.6 EC:1.1.1.27 -KEGG:R00703 UNIPROT:P00338, UNIPROT:P07195, UNIPROT:P07864 SBO:0000014 enzyme PEPT PEP transporter mm N 33.6 SBO:0000284 transporter PYRT Pyruvate transporter mm N 42 SBO:0000284 transporter CS Citrate synthase mito N 4.2 EC:2.3.3.1 -KEGG:R00351 UNIPROT:O75390 SBO:0000014 enzyme PDH Pyruvate dehydrogenase mito Y 13.44 EC:1.2.4.1 KEGG:R00209 UNIPROT:P08559, UNIPROT:P11177, UNIPROT:P10515, UNIPROT:P09622, O00330 SBO:0000014 enzyme ACOAFLX Acetyl-CoA flux mito N 0 SBO:0000014 enzyme VCITFLX Citrate flux mito N 0 SBO:0000014 enzyme NDK_mito Nucleosid diphosphate kinase (GTP) mito N 420 EC:2.7.4.6 KEGG:R00330 SBO:0000014 enzyme OAAFLX Oxalacetate flux mito N 0 SBO:0000014 enzyme