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1.
Cell ; 135(1): 149-60, 2008 Oct 03.
Article in English | MEDLINE | ID: mdl-18854162

ABSTRACT

In C. elegans, four asymmetric divisions, beginning with the zygote (P0), generate transcriptionally repressed germline blastomeres (P1-P4) and somatic sisters that become transcriptionally active. The protein PIE-1 represses transcription in the later germline blastomeres but not in the earlier germline blastomeres P0 and P1. We show here that OMA-1 and OMA-2, previously shown to regulate oocyte maturation, repress transcription in P0 and P1 by binding to and sequestering in the cytoplasm TAF-4, a component critical for assembly of TFIID and the pol II preinitiation complex. OMA-1/2 binding to TAF-4 is developmentally regulated, requiring phosphorylation by the DYRK kinase MBK-2, which is activated at meiosis II after fertilization. OMA-1/2 are normally degraded after the first mitosis, but ectopic expression of wild-type OMA-1 is sufficient to repress transcription in both somatic and later germline blastomeres. We propose that phosphorylation by MBK-2 serves as a developmental switch, converting OMA-1/2 from oocyte to embryo regulators.


Subject(s)
Blastomeres/metabolism , Caenorhabditis elegans Proteins/metabolism , Caenorhabditis elegans/embryology , Caenorhabditis elegans/genetics , Transcription Factors/metabolism , Zygote/metabolism , Amino Acid Sequence , Animals , Caenorhabditis elegans/metabolism , Caenorhabditis elegans Proteins/chemistry , Carrier Proteins/metabolism , Gene Expression Regulation, Developmental , Histones/metabolism , Molecular Sequence Data , Oocytes/metabolism , Phosphorylation , Protein Structure, Tertiary , Protein-Tyrosine Kinases/metabolism , Repressor Proteins/chemistry , Repressor Proteins/metabolism , Transcription Factors/chemistry , Zygote/cytology
2.
Genes Dev ; 26(24): 2802-16, 2012 Dec 15.
Article in English | MEDLINE | ID: mdl-23249739

ABSTRACT

In the vertebrate neural tube, regional Sonic hedgehog (Shh) signaling invokes a time- and concentration-dependent induction of six different cell populations mediated through Gli transcriptional regulators. Elsewhere in the embryo, Shh/Gli responses invoke different tissue-appropriate regulatory programs. A genome-scale analysis of DNA binding by Gli1 and Sox2, a pan-neural determinant, identified a set of shared regulatory regions associated with key factors central to cell fate determination and neural tube patterning. Functional analysis in transgenic mice validates core enhancers for each of these factors and demonstrates the dual requirement for Gli1 and Sox2 inputs for neural enhancer activity. Furthermore, through an unbiased determination of Gli-binding site preferences and analysis of binding site variants in the developing mammalian CNS, we demonstrate that differential Gli-binding affinity underlies threshold-level activator responses to Shh input. In summary, our results highlight Sox2 input as a context-specific determinant of the neural-specific Shh response and differential Gli-binding site affinity as an important cis-regulatory property critical for interpreting Shh morphogen action in the mammalian neural tube.


Subject(s)
Body Patterning/physiology , Hedgehog Proteins/metabolism , Kruppel-Like Transcription Factors/metabolism , SOXB1 Transcription Factors/metabolism , Animals , Body Patterning/genetics , Mice , Mice, Transgenic , Neural Tube/embryology , Neural Tube/metabolism , Protein Binding , Zinc Finger Protein GLI1
3.
Development ; 142(19): 3286-93, 2015 Oct 01.
Article in English | MEDLINE | ID: mdl-26293298

ABSTRACT

Sonic hedgehog (Shh) signaling patterns the vertebrate spinal cord by activating a group of transcriptional repressors in distinct neural progenitors of somatic motor neuron and interneuron subtypes. To identify the action of this network, we performed a genome-wide analysis of the regulatory actions of three key ventral determinants in mammalian neural tube patterning: Nkx2.2, Nkx6.1 and Olig2. Previous studies have demonstrated that each factor acts predominantly as a transcriptional repressor, at least in part, to inhibit alternative progenitor fate choices. Here, we reveal broad and direct repression of multiple alternative fates as a general mechanism of repressor action. Additionally, the repressor network targets multiple Shh signaling components providing negative feedback to ongoing Shh signaling. Analysis of chromatin organization around Nkx2.2-, Nkx6.1- and Olig2-bound regions, together with co-analysis of engagement of the transcriptional activator Sox2, indicate that repressors bind to, and probably modulate the action of, neural enhancers. Together, the data suggest a model for neural progenitor specification downstream of Shh signaling, in which Nkx2.2 and Olig2 direct repression of alternative neural progenitor fate determinants, an action augmented by the overlapping activity of Nkx6.1 in each cell type. Integration of repressor and activator inputs, notably activator inputs mediated by Sox2, is probably a key mechanism in achieving cell type-specific transcriptional outcomes in mammalian neural progenitor fate specification.


Subject(s)
Gene Expression Regulation, Developmental/physiology , Hedgehog Proteins/metabolism , Models, Biological , Neural Stem Cells/physiology , Neural Tube/embryology , Repressor Proteins/metabolism , Signal Transduction/physiology , Basic Helix-Loop-Helix Transcription Factors/metabolism , Chromatin/genetics , Chromatin Immunoprecipitation , Homeobox Protein Nkx-2.2 , Homeodomain Proteins/metabolism , Humans , Interneurons/cytology , Motor Neurons/cytology , Nerve Tissue Proteins/metabolism , Neural Tube/metabolism , Nuclear Proteins , Oligodendrocyte Transcription Factor 2 , Open Reading Frames/genetics , Protein Array Analysis , Protein Binding , SOXB1 Transcription Factors/metabolism , Transcription Factors/metabolism , Zebrafish Proteins
4.
Development ; 140(16): 3423-34, 2013 Aug.
Article in English | MEDLINE | ID: mdl-23900540

ABSTRACT

Hedgehog (HH) signaling is essential for vertebrate and invertebrate embryogenesis. In Drosophila, feedback upregulation of the HH receptor Patched (PTC; PTCH in vertebrates), is required to restrict HH signaling during development. By contrast, PTCH1 upregulation is dispensable for early HH-dependent patterning in mice. Unique to vertebrates are two additional HH-binding antagonists that are induced by HH signaling, HHIP1 and the PTCH1 homologue PTCH2. Although HHIP1 functions semi-redundantly with PTCH1 to restrict HH signaling in the developing nervous system, a role for PTCH2 remains unresolved. Data presented here define a novel role for PTCH2 as a ciliary localized HH pathway antagonist. While PTCH2 is dispensable for normal ventral neural patterning, combined removal of PTCH2- and PTCH1-feedback antagonism produces a significant expansion of HH-dependent ventral neural progenitors. Strikingly, complete loss of PTCH2-, HHIP1- and PTCH1-feedback inhibition results in ectopic specification of ventral cell fates throughout the neural tube, reflecting constitutive HH pathway activation. Overall, these data reveal an essential role for ligand-dependent feedback inhibition of vertebrate HH signaling governed collectively by PTCH1, PTCH2 and HHIP1.


Subject(s)
Body Patterning , Carrier Proteins/metabolism , Membrane Glycoproteins/metabolism , Neural Tube/metabolism , Receptors, Cell Surface/metabolism , 3T3 Cells , Animals , Carrier Proteins/genetics , Chick Embryo , Embryo, Mammalian/metabolism , Feedback, Physiological , Female , Gene Expression Regulation, Developmental , Ligands , Male , Membrane Glycoproteins/genetics , Mice , Mice, Inbred C57BL , Mice, Transgenic , Patched Receptors , Patched-1 Receptor , Patched-2 Receptor , Protein Binding , Receptors, Cell Surface/genetics , Signal Transduction , Transcription, Genetic
5.
Dev Biol ; 363(2): 388-98, 2012 Mar 15.
Article in English | MEDLINE | ID: mdl-22265679

ABSTRACT

In C. elegans embryos, transcriptional repression in germline blastomeres requires PIE-1 protein. Germline blastomere-specific localization of PIE-1 depends, in part, upon regulated degradation of PIE-1 in somatic cells. We and others have shown that the temporal and spatial regulation of PIE-1 degradation is controlled by translation of the substrate-binding subunit, ZIF-1, of an E3 ligase. We now show that ZIF-1 expression in embryos is regulated by five maternally-supplied RNA-binding proteins. POS-1, MEX-3, and SPN-4 function as repressors of ZIF-1 expression, whereas MEX-5 and MEX-6 antagonize this repression. All five proteins bind directly to the zif-1 3' UTR in vitro. We show that, in vivo, POS-1 and MEX-5/6 have antagonistic roles in ZIF-1 expression. In vitro, they bind to a common region of the zif-1 3' UTR, with MEX-5 binding impeding that by POS-1. The region of the zif-1 3' UTR bound by MEX-5/6 also partially overlaps with that bound by MEX-3, consistent with their antagonistic functions on ZIF-1 expression in vivo. Whereas both MEX-3 and SPN-4 repress ZIF-1 expression, neither protein alone appears to be sufficient, suggesting that they function together in ZIF-1 repression. We propose that MEX-3 and SPN-4 repress ZIF-1 expression exclusively in 1- and 2-cell embryos, the only period during embryogenesis when these two proteins co-localize. As the embryo divides, ZIF-1 continues to be repressed in germline blastomeres by POS-1, a germline blastomere-specific protein. MEX-5/6 antagonize repression by POS-1 and MEX-3, enabling ZIF-1 expression in somatic blastomeres. We propose that ZIF-1 expression results from a net summation of complex positive and negative translational regulation by 3' UTR-binding proteins, with expression in a specific blastomere dependent upon the precise combination of these proteins in that cell.


Subject(s)
Caenorhabditis elegans Proteins/biosynthesis , Carrier Proteins/biosynthesis , Gene Expression Regulation, Developmental , RNA-Binding Proteins/metabolism , 3' Untranslated Regions , Animals , Blastomeres/metabolism , Caenorhabditis elegans/embryology , Caenorhabditis elegans/metabolism , Protein Binding
6.
Development ; 137(20): 3373-82, 2010 Oct.
Article in English | MEDLINE | ID: mdl-20826530

ABSTRACT

Specification of primordial germ cells requires global repression of transcription. In C. elegans, primordial germ cells are generated through four rounds of asymmetric divisions, starting from the zygote P0, each producing a transcriptionally repressed germline blastomere (P1-P4). Repression in P2-P4 requires PIE-1, which is provided maternally in oocytes and segregated to all germline blastomeres. We have shown previously that OMA-1 and OMA-2 repress global transcription in P0 and P1 by sequestering TAF-4, an essential component of TFIID. Soon after the first mitotic cycle, OMA proteins undergo developmentally regulated degradation. Here, we show that OMA proteins also repress transcription in P2-P4 indirectly, through a completely different mechanism that operates in oocytes. OMA proteins bind to both the 3' UTR of the zif-1 transcript and the eIF4E-binding protein, SPN-2, repressing translation of zif-1 mRNA in oocytes. zif-1 encodes the substrate-binding subunit of the E3 ligase for PIE-1 degradation. Inhibition of zif-1 translation in oocytes ensures high PIE-1 levels in oocytes and germline blastomeres. The two OMA protein functions are strictly regulated in both space and time by MBK-2, a kinase activated following fertilization. Phosphorylation by MBK-2 facilitates the binding of OMA proteins to TAF-4 and simultaneously inactivates their function in repressing zif-1 translation. Phosphorylation of OMA proteins displaces SPN-2 from the zif-1 3' UTR, releasing translational repression. We propose that MBK-2 phosphorylation serves as a developmental switch, converting OMA proteins from specific translational repressors in oocytes to global transcriptional repressors in embryos, together effectively repressing transcription in all germline blastomeres.


Subject(s)
Caenorhabditis elegans Proteins/metabolism , Carrier Proteins/metabolism , Cell Differentiation/physiology , Gene Expression Regulation, Developmental/physiology , Germ Cells/growth & development , 3' Untranslated Regions/physiology , Animals , Caenorhabditis elegans , Fluorescent Antibody Technique , Nuclear Proteins/metabolism , Phosphorylation , Protein-Tyrosine Kinases/metabolism , RNA Interference
7.
Diabetes Metab Res Rev ; 29(1): 77-84, 2013 Jan.
Article in English | MEDLINE | ID: mdl-23008090

ABSTRACT

BACKGROUND: We conducted a clinical research study to determine the effect of self-monitoring of blood glucose (SMBG) on glycaemic control and the value of a putatively less painful blood sampling technique on SMBG in oral hypoglycaemic agent-treated type 2 diabetes patients; SMBG has not been broadly applied in non-insulin-treated patients in Japan. METHODS: One hundred thirty-seven subjects were recruited for the 24-week, prospective, comparison study and randomized into three groups: 46, no SMBG group; 46, fingertip group; and 45, palm group. The primary endpoint was change in HbA(1c). The secondary endpoints were SMBG compliance, dropout rate, treatment changes, and patient's and physician's satisfaction. RESULTS: Six subjects in the fingertip group (13.2%) and one subject in the palm group (2.2%) were dropped because of pain. A(1C) level of all subjects at 24-week was decreased more in the fingertip (-0.23%) and palm (-0.16%) groups than that in the no SMBG group (+0.31%) (p < 0.05). SMBG compliance was higher in the fingertip group (2.17 times/day) than that in the palm group (1.65 times/day) (p < 0.05). A(1C) level of treatment-unchanged subjects was decreased more in the fingertip (-0.25%) and palm (-0.21%) groups than that in the no SMBG group (+0.30%) (p < 0.05). SMBG compliance was higher in the fingertip group (2.24 times/day) than that in the palm group (1.65 times/day) (p < 0.05). Patient's questionnaire showed that 84.1% of the fingertip group and 90.2% of the palm group were satisfied with SMBG. Physician's satisfaction was higher in the palm group (94.0%) than that in the fingertip group (80.0%) (p < 0.05). CONCLUSION: SMBG is beneficial for glycaemic control, and palm blood sampling is a useful procedure for oral hypoglycaemic agent-treated type 2 diabetes.


Subject(s)
Blood Glucose Self-Monitoring , Blood Glucose/analysis , Diabetes Mellitus, Type 2/drug therapy , Glycated Hemoglobin/metabolism , Hypoglycemic Agents/therapeutic use , Adult , Aged , Diabetes Mellitus, Type 2/blood , Female , Humans , Japan , Male , Middle Aged , Patient Compliance , Prospective Studies , Surveys and Questionnaires
8.
Genesis ; 50(5): 443-50, 2012 May.
Article in English | MEDLINE | ID: mdl-22083581

ABSTRACT

With the growing use of genome-wide screens for cis-regulatory elements, there is a pressing need for platforms that enable fast and cost-effective experimental validation of identified hits in relevant developmental and tissue contexts. Here, we describe a murine embryonic stem cell (ESC)-based system that facilitates rapid analysis of putative transcriptional enhancers. Candidate enhancers are targeted with high efficiency to a defined genomic locus via recombinase-mediated cassette exchange. Targeted ESCs are subsequently differentiated in vitro into desired cell types, where enhancer activity is monitored by reporter gene expression. As a proof of principle, we analyzed a previously characterized, Sonic hedgehog (Shh)-dependent, V3 interneuron progenitor (pV3)-specific enhancer for the Nkx2.2 gene, and observed highly specific enhancer activity. Given the broad potential of ESCs to generate a spectrum of cell types, this system can serve as an effective platform for the characterization of gene regulatory networks controlling cell fate specification and cell function.


Subject(s)
Embryonic Stem Cells/metabolism , Enhancer Elements, Genetic , Base Sequence , Cell Differentiation , DNA Primers , Embryonic Stem Cells/cytology , Gene Targeting , Homeobox Protein Nkx-2.2 , Homeodomain Proteins , Humans , Immunohistochemistry , Nuclear Proteins , Transcription Factors
9.
Biochem J ; 435(2): 421-30, 2011 Apr 15.
Article in English | MEDLINE | ID: mdl-21265734

ABSTRACT

In pancreatic ß-cells, glucose-induced mitochondrial ATP production plays an important role in insulin secretion. The mitochondrial phosphate carrier PiC is a member of the SLC25 (solute carrier family 25) family and transports Pi from the cytosol into the mitochondrial matrix. Since intramitochondrial Pi is an essential substrate for mitochondrial ATP production by complex V (ATP synthase) and affects the activity of the respiratory chain, Pi transport via PiC may be a rate-limiting step for ATP production. We evaluated the role of PiC in metabolism-secretion coupling in pancreatic ß-cells using INS-1 cells manipulated to reduce PiC expression by siRNA (small interfering RNA). Consequent reduction of the PiC protein level decreased glucose (10 mM)-stimulated insulin secretion, the ATP:ADP ratio in the presence of 10 mM glucose and elevation of intracellular calcium concentration in response to 10 mM glucose without affecting the mitochondrial membrane potential (Δψm) in INS-1 cells. In experiments using the mitochondrial fraction of INS-1 cells in the presence of 1 mM succinate, PiC down-regulation decreased ATP production at various Pi concentrations ranging from 0.001 to 10 mM, but did not affect Δψm at 3 mM Pi. In conclusion, the Pi supply to mitochondria via PiC plays a critical role in ATP production and metabolism-secretion coupling in INS-1 cells.


Subject(s)
Insulinoma/metabolism , Metabolism/genetics , Pancreatic Neoplasms/metabolism , Phosphate Transport Proteins/physiology , Proton-Phosphate Symporters/physiology , Secretory Pathway/genetics , Animals , COS Cells , Cell Line, Tumor , Chlorocebus aethiops , Gene Expression Regulation, Neoplastic/drug effects , Glucose/pharmacology , Insulin/metabolism , Insulin Secretion , Insulinoma/genetics , Insulinoma/pathology , Metabolism/drug effects , Metabolism/physiology , Mitochondrial Proteins/antagonists & inhibitors , Mitochondrial Proteins/genetics , Mitochondrial Proteins/metabolism , Mitochondrial Proteins/physiology , Pancreatic Neoplasms/genetics , Pancreatic Neoplasms/pathology , Phosphate Transport Proteins/antagonists & inhibitors , Phosphate Transport Proteins/genetics , Phosphate Transport Proteins/metabolism , Phosphates/pharmacology , Proton-Phosphate Symporters/genetics , Proton-Phosphate Symporters/metabolism , RNA, Small Interfering/pharmacology , Rats , Rats, Wistar , Secretory Pathway/drug effects , Secretory Pathway/physiology
10.
Masui ; 61(10): 1102-4, 2012 Oct.
Article in Japanese | MEDLINE | ID: mdl-23157096

ABSTRACT

A 70-year-old woman underwent emergent clipping surgery for subarachnoid hemorrhage under general anesthesia. Her laboratory data showed thrombocytopenia (4.0 x 10(4) microl(-1)). She had taken prednisolone (3 mg x day(-1)) and methotrexate (MTX) (10 mg x week(-1)) for rheumatoid arthritis for the last 10 years. Anesthesia was induced with remifentanil as well as propofol, maintained with remifentanil and sevoflurane in oxygen. The operation was performed uneventfully without platelet transfusion. Since the cause of thrombocytopenia was suspected to be MTX, we started rescue therapy by calcium folinate postoperatively. Platelet count was normalized two days later (11.6 x 10(4) microl(-1)). One month after the operation, she was discharged uneventfully.


Subject(s)
Anesthesia, General , Immunosuppressive Agents/adverse effects , Intracranial Aneurysm/surgery , Methotrexate/adverse effects , Subarachnoid Hemorrhage/surgery , Thrombocytopenia/chemically induced , Vascular Surgical Procedures/methods , Aged , Arthritis, Rheumatoid/complications , Arthritis, Rheumatoid/drug therapy , Emergencies , Female , Humans , Immunosuppressive Agents/administration & dosage , Intracranial Aneurysm/complications , Leucovorin/administration & dosage , Methotrexate/administration & dosage , Piperidines , Platelet Transfusion , Postoperative Care , Propofol , Remifentanil , Subarachnoid Hemorrhage/etiology , Thrombocytopenia/therapy , Treatment Outcome
11.
Masui ; 60(2): 192-4, 2011 Feb.
Article in Japanese | MEDLINE | ID: mdl-21384654

ABSTRACT

A 53-year-old man was admitted to our hospital for hematochezia, and an emergency operation was scheduled for his perforated sigmoid colon. He had received a CRT-D (cardiac resynchronization therapy with defibrillator) device for dilated cardiomyopathy two years before and had been receiving hemodialysis for the past year. Anesthesia was induced with midazolam and remifentanil and maintained with remifentanil and sevoflurane in oxygen. Before surgery, we disabled the defibrillation function of the CRT-D device and changed its pacing mode from VVI to VOO, and electrodes of an external defibrillator were attached to the chest wall. Dopamine and norepinephrine were administered via a central venous catheter, and systolic blood pressure was maintained between 70 and 80 mmHg and CVP between 8 and 13 mmHg. Sigmoidectomy was performed and he was transferred to the ICU intubated. Although intensive care procedures, such as mechanical ventilation, continuous hemodiafiltration, and direct hemoperfusion with polymyxin B-immobilized fibers were performed, he died of multiple organ failure on postoperative day 48. CRT-D has become mainstream cardiac resynchronization therapy and will require attention for anesthetic management of patients implanted with the CRT-D device.


Subject(s)
Anesthesia , Cardiac Resynchronization Therapy Devices , Defibrillators , Peritonitis/surgery , Renal Dialysis , Cardiac Resynchronization Therapy , Chronic Disease , Emergencies , Fatal Outcome , Heart Failure/complications , Heart Failure/therapy , Humans , Male , Middle Aged , Perioperative Care , Peritonitis/complications , Rupture, Spontaneous
12.
Biochim Biophys Acta ; 1789(4): 299-305, 2009 Apr.
Article in English | MEDLINE | ID: mdl-19445894

ABSTRACT

In this review, we discuss the gene regulatory network underlying the patterning of the ventral neural tube during vertebrate embryogenesis. The neural tube is partitioned into domains of distinct cell fates by inductive signals along both anterior-posterior and dorsal-ventral axes. A defining feature of the dorsal-ventral patterning is the graded distribution of Sonic hedgehog (Shh), which acts as a morphogen to specify several classes of ventral neurons in a concentration-dependent fashion. These inductive signals translate into patterned expressions of transcription factors that define different neural progenitor subtypes. Progenitor boundaries are sharpened by repressive interactions between these transcription factors. The progenitor-expressed transcription factors induce another set of transcription factors that are thought to contribute to neural identities in post-mitotic neural precursors. Thus, the gene regulatory network of the ventral neural tube patterning is characterized by hierarchical expression [inductive signal-->progenitor specifying factors (mitotic)--> precursor specifying factors (post mitotic)--> differentiated neural markers] and cross-repression between progenitor-expressed regulatory factors. Although a number of transcriptional regulators have been identified at each hierarchical level, their precise regulatory relationships are not clear. Here we discuss approaches aimed at clarifying and extending our understanding of the formation and propagation of this network.


Subject(s)
Body Patterning , Central Nervous System/cytology , Central Nervous System/physiology , Models, Neurological , Neural Networks, Computer , Vertebrates/physiology , Animals
13.
Biomed Microdevices ; 12(6): 1027-41, 2010 Dec.
Article in English | MEDLINE | ID: mdl-20661647

ABSTRACT

The advent of microfluidic technology allows control and interrogation of cell behavior by defining the local microenvironment with an assortment of biochemical and biophysical stimuli. Many approaches have been developed to create gradients of soluble factors, but the complexity of such systems or their inability to create defined and controllable chemical gradients has limited their widespread implementation. Here we describe a new microfluidic device which employs a parallel arrangement of wells and channels to create stable, linear concentration gradients in a gel region between a source and a sink well. Pressure gradients between the source and sink wells are dissipated through low resistance channels in parallel with the gel channel, thus minimizing the convection of solute in this region. We demonstrate the ability of the new device to quantitate chemotactic responses in a variety of cell types, yielding a complete profile of the migratory response and representing the total number of migrating cells and the distance each cell has migrated. Additionally we show the effect of concentration gradients of the morphogen Sonic hedgehog on the specification of differentiating neural progenitors in a 3-dimensional matrix.


Subject(s)
Cell Movement , Microfluidic Analytical Techniques/instrumentation , Animals , Basic Helix-Loop-Helix Transcription Factors/metabolism , Becaplermin , Cattle , Cell Differentiation , Chemotaxis , Electric Capacitance , Electric Impedance , Embryoid Bodies/cytology , Embryoid Bodies/metabolism , Gene Expression Regulation , Hedgehog Proteins/metabolism , Humans , Jurkat Cells , Muscle, Smooth, Vascular/cytology , Muscle, Smooth, Vascular/metabolism , Platelet-Derived Growth Factor/metabolism , Pressure , Proto-Oncogene Proteins c-sis , T-Lymphocytes/cytology , T-Lymphocytes/metabolism
14.
Diabetol Metab Syndr ; 9: 65, 2017.
Article in English | MEDLINE | ID: mdl-28878826

ABSTRACT

BACKGROUND: While the association of the prevalence of non-alcoholic fatty liver disease (NAFLD) with impaired glucose metabolism has been reported, the factors influencing glucose tolerance in NAFLD remain to be clarified. METHODS: Glucose tolerance of 131 Japanese patients diagnosed as NAFLD by histological findings of liver biopsy specimen was examined using 75 g-OGTT. According to Matteoni's classification, patients were divided to 4 groups [M1 ~ 4, M1, 2: non-alcoholic fatty liver (NAFL); and M3, 4: non-alcoholic steatohepatitis (NASH)]. Based on the OGTT data, insulinogenic index (IGI) and QUICKI were calculated as indices of insulin secretion and insulin sensitivity, respectively. Plasma glucose 120 min after glucose loading (G120) was used as the index for glucose intolerance. RESULTS: Stepwise multiple regression analysis using G120 as a dependent variable and loge-IGI, QUICKI, sex, BMI, age, NAFL/NASH as independent variables revealed that loge-IGI (ß = -0.595) and QUICKI (ß = -0.323) are significant factors predicting glucose intolerance (R2 = 0.403), indicating an important role of insulin secretion in glucose tolerance. These findings accord with glucose intolerance as high as 89.7% in patients with impaired insulin secretion defined by ≤43.2 pmol/mmol (40 µU/mg) IGI. Stepwise multiple regression analysis using QUICKI as a dependent variable and NAFL/NAFLD, sex, BMI, and age as independent variables revealed that BMI (ß = -0.469) and NAFL/NAFLD (ß = -0.204) are significant factors predicting insulin sensitivity (R2 = 0.248). CONCLUSION: Impairment of insulin secretion is the most important factor to predict glucose intolerance in NAFLD; severity of histological findings is associated with insulin sensitivity independent of adiposity in NAFLD.

15.
J Diabetes Investig ; 8(4): 489-495, 2017 Jul.
Article in English | MEDLINE | ID: mdl-28084015

ABSTRACT

AIMS/INTRODUCTION: Mannose is a monosaccharide constituent of glycoproteins and glycolipids. Experiments in rats have shown previously that the plasma mannose level decreases after glucose load, but does not decrease in diabetic rats, and that hepatic glycogenolysis is a source of this plasma mannose; however, these results are not fully elucidated in humans. Plasma mannose levels before/after glucose loading in humans with various degrees of glucose intolerance were examined to analyze their association with clinical factors. MATERIALS AND METHODS: The 75-g oral glucose tolerance test was carried out in Japanese individuals not taking diabetes medications. Participants were classified into normal glucose tolerance, impaired glucose metabolism and diabetes mellitus groups. Insulinogenic index as an index of insulin secretion, and Matsuda Index as an index of insulin sensitivity were calculated. Mannose was assayed by the established method using high-performance liquid chromatography after labeling. RESULTS: After glucose load, the plasma mannose level decreased gradually in the normal glucose tolerance group, but did not decrease in the diabetes mellitus group. Plasma mannose changes during 120 min from baseline (M120 -M0 ) were significantly different among the three groups (normal glucose tolerance: -16.7 ± 1.7; impaired glucose metabolism: -9.0 ± 1.9; diabetes mellitus: -1.4 ± 1.8 µmol/L [n = 25 in each group], P < 0.0001). Plasma glucose 120 min after glucose loading (R2  = 0.412) or loge -insulinogenic index, loge -Matsuda Index and age (R2  = 0.230) were determinants of M120 -M0 in multiple regression analyses. CONCLUSIONS: We clarified the relationship between plasma mannose level and glucose tolerance in humans. The present results are compatible with those using rats, in which mannose derived from glycogenolysis plays an important role in the alteration of mannose levels after glucose loading.


Subject(s)
Glucose Intolerance , Glycogenolysis , Mannose/blood , Aged , Female , Glucose Tolerance Test , Humans , Male , Middle Aged , Regression Analysis
16.
Endocrinology ; 147(6): 2717-27, 2006 Jun.
Article in English | MEDLINE | ID: mdl-16527842

ABSTRACT

Diphenylhydantoin (DPH), which is clinically used in the treatment of epilepsy, inhibits glucose-induced insulin release from pancreatic islets by a mechanism that remains unknown. In the present study, DPH is shown to suppress glucose-induced insulin release concentration-dependently. In dynamic experiments, 20 microm DPH suppressed 16.7 mm glucose-induced biphasic insulin release. DPH also suppressed insulin release in the presence of 16.7 mm glucose, 200 microm diazoxide, and 30 mm K+ without affecting the intracellular Ca2+ concentration. DPH suppressed ATP content and mitochondrial membrane hyperpolarization in the presence of 16.7 mm glucose without affecting glucose utilization, glucose oxidation, and reduced nicotinamide adenine dinucleotide phosphate fluorescence. DPH increased cytoplasmic pH in the presence of high glucose, but the increase was abolished under Na+ -deprived conditions and HCO3- -deprived conditions, suggesting that Na+ and HCO3- transport across the plasma membrane are involved in the increase in cytoplasmic pH by DPH. Alkalization by adding NH4+ to the extracellular medium also suppressed insulin release, ATP content, and mitochondrial membrane hyperpolarization. Because ATP production from the mitochondrial fraction in the presence of substrates was decreased by increased pH in the medium, DPH suppresses mitochondrial ATP production by reducing the H+ gradient across mitochondrial membrane. Using permeabilized islets, the increase in pH was shown to decrease Ca2+ efficacy at a clamped concentration of ATP in the exocytotic system. Taken together, DPH inhibits glucose-induced insulin secretion not only by inhibiting mitochondrial ATP production, but also by reducing Ca2+ efficacy in the exocytotic system through its alkalizing effect on cytoplasm.


Subject(s)
Anticonvulsants/pharmacology , Glucose/pharmacology , Insulin/metabolism , Islets of Langerhans/drug effects , Phenytoin/pharmacology , Adenosine Triphosphate/analysis , Adenosine Triphosphate/biosynthesis , Animals , Calcium/metabolism , Diazoxide/pharmacology , Hydrogen-Ion Concentration , Insulin Secretion , Islets of Langerhans/metabolism , Male , Membrane Potentials/drug effects , NADP/analysis , Potassium/pharmacology , Quaternary Ammonium Compounds/analysis , Quaternary Ammonium Compounds/pharmacology , Rats , Rats, Wistar
17.
Metabolism ; 55(1): 53-8, 2006 Jan.
Article in English | MEDLINE | ID: mdl-16324919

ABSTRACT

Hyperglycemia frequently continues to worsen even after the diagnosis of overt diabetes. The aim of this study is to evaluate the factors contributing to increasing glucose intolerance after onset of type 2 diabetes in Japanese subjects. Five hundred fifty newly diagnosed type 2 diabetic patients were classified into 3 degrees of hyperglycemia based on plasma glucose levels estimated by 75-g oral glucose tolerance test: diabetes mellitus with isolated fasting hyperglycemia (DM/IFH), DM with isolated postchallenge hyperglycemia (DM/IPH), and DM with fasting and postchallenge hyperglycemia (DM/FPH). In addition, the DM/IFH and DM/IPH groups were subdivided to clarify the determinants of fasting and postchallenge hyperglycemia. Insulin secretion was evaluated by insulinogenic index, and insulin sensitivity was evaluated by composite index of insulin sensitivity (ISI composite). The insulinogenic index in DM/IFH was highest of the 3 groups (P < .0001). The insulinogenic index in DM/IPH was higher than in DM/FPH (P < .0001). The international sensitivity index composite in DM/IPH was highest of the 3 groups (P < .05). Although impaired early-phase insulin secretion plays the crucial role in deterioration from DM/IFH to DM/FPH in Japanese subjects, impaired early-phase insulin secretion and decreased insulin sensitivity both are factors in deterioration from DM/IPH to DM/FPH. In addition, comparison of subgroups of DM/IFH and DM/IPH shows that although decreased early-phase insulin secretion plays the more significant role in postchallenge hyperglycemia in Japanese subjects, insulin sensitivity is the more important factor in fasting hyperglycemia.


Subject(s)
Diabetes Mellitus, Type 2/metabolism , Glucose Intolerance/physiopathology , Adult , Aged , Body Mass Index , Diabetes Mellitus, Type 2/classification , Fasting/physiology , Glucose Tolerance Test , Humans , Hyperglycemia/blood , Insulin/blood , Insulin Resistance/physiology , Japan , Male , Middle Aged
18.
Elife ; 52016 05 05.
Article in English | MEDLINE | ID: mdl-27146892

ABSTRACT

The Hedgehog signaling pathway is part of the ancient developmental-evolutionary animal toolkit. Frequently co-opted to pattern new structures, the pathway is conserved among eumetazoans yet flexible and pleiotropic in its effects. The Hedgehog receptor, Patched, is transcriptionally activated by Hedgehog, providing essential negative feedback in all tissues. Our locus-wide dissections of the cis-regulatory landscapes of fly patched and mouse Ptch1 reveal abundant, diverse enhancers with stage- and tissue-specific expression patterns. The seemingly simple, constitutive Hedgehog response of patched/Ptch1 is driven by a complex regulatory architecture, with batteries of context-specific enhancers engaged in promoter-specific interactions to tune signaling individually in each tissue, without disturbing patterning elsewhere. This structure-one of the oldest cis-regulatory features discovered in animal genomes-explains how patched/Ptch1 can drive dramatic adaptations in animal morphology while maintaining its essential core function. It may also suggest a general model for the evolutionary flexibility of conserved regulators and pathways.


Subject(s)
Gene Expression Regulation, Developmental , Hedgehog Proteins/metabolism , Patched-1 Receptor/metabolism , Signal Transduction , Animals , Cell Line , Drosophila , Mice
19.
Diabetes Res Clin Pract ; 70(1): 46-52, 2005 Oct.
Article in English | MEDLINE | ID: mdl-16126123

ABSTRACT

Impaired fasting glucose (IFG) is a subgroup of impaired glucose regulation exhibiting an elevated fasting glucose levels without elevated 2-h glucose levels on oral glucose tolerance test (OGTT). Diabetes mellitus with isolated fasting hyperglycemia (DM/IFH) is a similar subgroup of diabetes having higher fasting glucose levels with 2-h glucose levels within the non-diabetic range. The aim of this study is to profile the characteristics of these subgroups to estimate the factors involved in the development from normal glucose tolerance (NGT) via IFG to DM/IFH. Five hundred and sixty seven Japanese males were classified on the basis of 75 g OGTT into four groups, NGT, IFG, DM/IFH, and isolated impaired glucose tolerance (isolated IGT). Insulin secretion was evaluated by insulinogenic index, insulin sensitivity was evaluated by ISI composite, and insulin secretory patterns were compared additionally. IFG and DM/IFH subjects exhibited both lower insulin secretion and lower insulin sensitivity than NGT subjects. There was an insulin peak in NGT, IFG, and DM/IFH at 60 min, which did not occur in isolated IGT. Impaired early-phase and basal insulin secretion and decreased insulin sensitivity both are estimated as factors in progression from NGT via IFG to DM/IFH in these subjects. IFG and DM/IFH subjects have definite fasting hyperglycemia in contrast to isolated IGT subjects, 2-h glucose levels being maintained within the non-diabetic range partly by the insulin peak at 60 min.


Subject(s)
Blood Glucose/metabolism , Hyperglycemia/blood , Insulin/metabolism , Cholesterol/blood , Fasting/blood , Glucose Tolerance Test , Glycated Hemoglobin/metabolism , Humans , Hyperglycemia/epidemiology , Insulin/blood , Insulin Secretion , Japan/epidemiology , Male , Middle Aged , Triglycerides/blood
20.
Diabetes Res Clin Pract ; 69(3): 216-23, 2005 Sep.
Article in English | MEDLINE | ID: mdl-16098917

ABSTRACT

Glucose and other nutrients have been shown to stimulate insulin release from pancreatic islets under Ca2+-depleted condition when protein kinase A (PKA) and protein kinase C (PKC) are activated simultaneously. We investigated the role of metabolic nucleotide signals including ATP, ADP, and GTP in exocytosis of insulin secretory granules under Ca2+-depleted condition using electrically permeabilized rat islets. ATP under PKC activation augmented insulin release concentration-dependently by 100 nM 12-O-tetradecanoyl-phorbol-13-acetate (TPA) in Ca2+-depleted condition, while ADP could not suppress ATP-dependent insulin release in this condition. Neither GTP nor activated PKA in the absence of PKC activation increased insulin release under Ca2+-depleted condition in the presence of ATP, but both enhanced insulin secretion in the presence of ATP when PKC was activated. In conclusion, activated PKC and the presence of ATP both are required in the insulin secretory process under Ca2+-depleted condition. While PKA activation and GTP cannot substitute for PKC activation and ATP, respectively, under Ca2+-depleted condition, they enhance ATP-dependent insulin secretion when PKC is activated.


Subject(s)
Adenosine Triphosphate/pharmacology , Calcium/physiology , Exocytosis/physiology , Insulin/metabolism , Islets of Langerhans/metabolism , Adenosine Triphosphate/analogs & derivatives , Adenylyl Imidodiphosphate/pharmacology , Animals , Exocytosis/drug effects , Insulin Secretion , Islets of Langerhans/drug effects , Kinetics , Male , Rats , Rats, Wistar , Tetradecanoylphorbol Acetate/pharmacology
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