Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.1.1 (
hexokinase
)
5,274
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We show in the accompanying paper that the steady-state level of free Ca2+ maintained by the organelles of permeabilized RINm5F
insulinoma
cells varies inversely with the ATP/ADP ratio when this ratio is set by addition of creatine phosphokinase and fixed ratios of creatine to creatine phosphate. We, therefore, asked whether acute cyclic alterations in the cytosolic ATP/ADP ratio in the range known to modulate O2 consumption might be involved in regulating the physiological activity of Ca2+ -ATPases and the cytosolic free Ca2+ level. To explore this hypothesis we combined two experimental systems: 1) permeabilized RINm5F
insulinoma
cells that can maintain a low medium Ca2+ concentration and 2) a cell-free extract of rat skeletal muscle that spontaneously exhibits oscillatory behavior of glycolysis and linked oscillations in the ATP/ADP ratio, when provided with glucose. The free Ca2+ level maintained by the permeabilized cells oscillated in phase with the glycolytic oscillations and correlated closely with the ATP/ADP ratio but not with glucose 6-phosphate, fructose 6-phosphate, orthophosphate, or pH. When glucokinase replaced
hexokinase
as the glucose phosphorylating enzyme, Ca2+ oscillations were induced by increasing the glucose concentration from 2 to 8 mM. The results demonstrate a link between metabolite changes and free Ca2+ levels in a reconstituted physiological system. They support a model in which oscillations in glycolysis and the ATP/ADP ratio may cause oscillations in cytosolic free Ca2+, beta-cell electrical activity, and insulin release.
...
PMID:Linked oscillations of free Ca2+ and the ATP/ADP ratio in permeabilized RINm5F insulinoma cells supplemented with a glycolyzing cell-free muscle extract. 283 Dec 25
Glucose metabolism was investigated in two established clonal
insulinoma
cell lines (RINm5F and HIT) and in a newly developed line of mouse
insulinoma
cells (IgSV195). The
hexokinase
capacity in the homogenates of RINm5F cells was 22.1 +/- 3.23 U/g protein, but glucokinase was barely detectable (0.06 +/- 0.013 U/g protein). In contrast, both HIT and IgSV195 cells contained glucokinase (1.5 +/- 0.17 and 1.0 +/- 0.16 U/g protein, respectively) in addition to
hexokinase
activity. Glucose usage by the intact cells qualitatively reflected the glucose phosphorylation found in the cell-free extracts. RINm5F cells exhibited a high glucose usage rate with one high-affinity component, whereas both HIT and IgSV195 cells showed two components with different glucose affinities. HIT and IgSV195 cells may be useful for a model of pancreatic beta-cell glycolysis.
...
PMID:Control of glucose phosphorylation and glucose usage in clonal insulinoma cells. 283 51
It was investigated whether the well-known transplantable
insulinoma
of the hamster (the Kirkman tumor) contains glucokinase and if so, what its kinetic characteristics are, and whether its cellular levels might be regulated in a manner typical for islet tissue. The supernatant of tumor homogenates contained a low-affinity component (Km 9.7 mmol/L) of glucose phosphorylating activity, apparently glucokinase. Partially purified
insulinoma
glucokinase exhibited similar kinetic characteristics to liver glucokinase (Km for glucose 5.0 and 5.3 mmol/L, half-maximal saturation 6.9 and 6.3 mmol/L, Hill coefficient 1.63 and 1.62, Ki for mannoheptulose 0.9 and 0.6 mmol/L in hamster
insulinoma
glucokinase and hamster liver glucokinase, respectively).
Insulinoma
glucokinase activity was not affected by the age of the tumor. Tumor-bearing hamsters without further treatment stayed normoglycemic (172 +/- 9.5 mg/dL) for the duration of the experiment. Fasting caused hypoglycemia (49 +/- 5.0 mg/dL), and pretreatment with streptozotocin prior to tumor transplantation caused hyperglycemia (393 +/- 20.6 mg/dL) in the tumor-bearing hamsters. Blood glucose levels of the host hamsters did not affect the content of the
insulinoma
glucokinase (83 +/- 3.5 mU/g in hypoglycemic group, 88 +/- 9.0 mU/g in hyperglycemic group, and 86 +/- 3.5 mU/g in normoglycemic group). Thus, biosynthesis and degradation of
insulinoma
glucokinase does not seem to be regulated by glucose as found to be true for islet glucokinase. Since glucokinase is constitutively present, the stable transplantable Kirkman tumor could serve as a useful model for studying the pancreatic B-cell glycolysis system which is characterized by the presence of both
hexokinase
and glucokinase.
...
PMID:Characteristics of glucokinase of the Kirkman insulinoma. 283 31
The differential tissue-specific regulation of glucokinase activity in liver and pancreatic islet cells was investigated in the
insulinoma
-bearing rat. A transplantable
insulinoma
caused hyperinsulinemia and hypoglycemia in the host by 2-3 months after implantation. Suppression of the pancreatic B-cells by the high insulin and/or low glucose manifested itself by a decrease of insulin in islet tissue. Removal of the tumor initiated transient insulin deficiency and hyperglycemia with extremes of these changes at 24 h after tumor resection. These conditions markedly affected glucose phosphorylation in the islet cells: glucokinase activity was reduced 71% in islet samples from
insulinoma
-bearing rats, and the enzyme fully recovered within 24 h after tumor resection. Hexokinase activity, by contrast, was not affected by these manipulations. To evaluate the relative contributions of hypoglycemia and hyperinsulinemia in islet glucokinase adaptation, glucose was intravenously infused to
insulinoma
-bearing rats; glycemia in excess of 150 mg/100 ml combined with excessive hyperinsulinemia resulted in a partial recovery of islet glucokinase activity, first apparent after 9 h of glucose infusion and with doubling of the activity after 24 h after glucose loading. In contrast, liver glucokinase was increased nearly 4-fold at the time of extreme hypoglycemia and hyperinsulinemia and rapidly fell to control rates following tumor removal. Intravenous infusion of glucose for 24 h into the tumor-bearing rat (i.e. hyperglycemia combined with excessive plasma insulin) had no influence on liver glucokinase activity. Liver
hexokinase
was not influenced by any of these experimental manipulations. The data indicate that the activities of pancreatic islet and liver glucokinase are regulated in a differential manner. Insulin is apparently the primary determinant of liver glucokinase and glucose seems to control islet glucokinase. Biochemical mechanisms for differential organ-specific regulation of glucokinase activity seem to have evolved such that this enzyme may play a dual role in glucose homeostasis, namely to serve as insulin-dependent glucose sensor in the B-cells and as insulin-sensitive determinant of hepatic glucose use.
...
PMID:Differential regulation of glucokinase activity in pancreatic islets and liver of the rat. 301 39
We have analysed the pattern of expression of the
hexokinase
isoenzyme group in RIN-m5F
insulinoma
cells. Three
hexokinase
forms were resolved by DEAE-cellulose chromatography. The most abundant isoenzyme co-eluted with
hexokinase
type II from rat adipose tissue and displayed a Km for glucose of 0.15 mM, similar to the adipose-tissue enzyme. Hexokinase type II was in large part associated with a particulate subcellular fraction in RIN-m5F cells. The two other hexokinases separated by ion-exchange chromatography were an enzyme similar to
hexokinase
type I from brain and glucokinase (or
hexokinase type IV
). The latter isoenzyme was identified as the liver-type glucokinase by the following properties: co-elution with hepatic glucokinase from DEAE-cellulose and DEAE-Sephadex; sigmoid saturation kinetics with glucose with half-maximal velocity at 5.6 mM and Hill coefficient (h) of 1.54; suppression of enzyme activity by antibodies raised against rat liver glucokinase; apparent Mr of 56,500 and pI of 5.6, as shown by immunoblotting after one- and two-dimensional gel electrophoresis; peptide map identical with that of hepatic glucokinase after proteolysis with chymotrypsin and papain. These data indicate that the gene coding for hepatic glucokinase is expressed in RIN-m5F cells, a finding consistent with indirect evidence for the presence of glucokinase in the beta-cell of the islet of Langerhans. On the other hand, the overall pattern of hexokinases is distinctly different in RIN-m5F cells and islets of Langerhans, since
hexokinase
type II appears to be lacking in islets. Alteration in
hexokinase
expression after tumoral transformation has been reported in other systems.
...
PMID:Hexokinase isoenzymes of RIN-m5F insulinoma cells. Expression of glucokinase gene in insulin-producing cells. 303 55
The regulation of extramicrosomal Ca2+ concentration maintained by suspensions of rat
insulinoma
microsomes was studied using Ca2+-selective minielectrodes. The Ca2+-transporting activity was MgATP dependent and correlated with the endoplasmic reticulum marker NADPH-cytochrome c reductase. When incubated in a high KCl medium containing Mg2+ and phosphate, the microsomes lowered [Ca2+] within less than 10 min to around 0.2 microM. They had a high Ca2+-sequestering activity since they were able to take up and retain several small Ca2+ additions. No evidence for a Na+/Ca2+ countertransport was obtained. The accumulated Ca2+ was released by the Ca2+ ionophore A23187 or upon transforming ATP into ADP using glucose plus
hexokinase
. The addition of ADP, at concentrations present in cells, resulted in a dose-dependent and reversible net Ca2+ efflux from the microsomes until a higher [Ca2+] steady state was reached. This was specific for ADP since GDP, UDP, CDP, IDP, and the nonhydrolyzable analogue methylene-ADP as well as AMP and cAMP did not reproduce the effect. Insulin secretory granules were unable to lower medium [Ca2+] or to take up a pulse addition of Ca2+. However, most of the large granular calcium content was released by A23187. The addition of Na+ and lowering or increasing medium pH by 0.2 pH unit did not induce Ca2+ uptake or efflux from the secretory granules. The results indicate that
insulinoma
endoplasmic reticulum but not insulin secretory granules may play a critical role in the regulation of cytosolic Ca2+. A variation in cellular ADP content following secretagogue addition might modulate Ca2+ fluxes across the endoplasmic reticulum and contribute in raising cytosolic Ca2+.
...
PMID:Regulation of Ca2+ transport by isolated organelles of a rat insulinoma. Studies with endoplasmic reticulum and secretory granules. 608 82
The
insulinoma
beta-cell line INS-1 expresses the L-type pyruvate kinase gene at high level and responds to a rise in extracellular glucose by strong induction of gene expression. Following the addition of glucose to the culture medium in the 3.5-33 mM concentration range, the cellular level of L-type pyruvate kinase mRNA increases within 2 h and reaches a maximum 15-fold above basal in 8-12 h. By run-on nuclear assay, the relative transcription rate of the pyruvate kinase gene is shown to increase 4-fold at maximal stimulation, suggesting that both transcriptional and post-transcriptional effects contribute to mRNA accumulation. The glucose effect is totally suppressed by the
hexokinase
inhibitor mannoheptulose, indicating a requirement for glucose phosphorylation. The mRNA induction is not inhibited in glutamine-free culture medium or by azaserine, suggesting that the hexosamine biosynthetic pathway is not involved. Moreover, metabolism along the glycolytic pathway does not appear to be an absolute requisite, since 2-deoxyglucose partly mimics the inductive effect of glucose. The glucose effect on the pyruvate kinase gene is reversibly antagonized by agents increasing intracellular cAMP. In addition, the effect is highly specific to the pyruvate kinase gene. Neither proinsulin I mRNA nor glucokinase mRNA are increased in glucose-stimulated INS-1 cells. Short term transfection with CAT plasmids driven by the pyruvate kinase L promoter reveals specific glucose-inducible reporter activity with the 183-base pair promoter region upstream of the cap site. Within this region, the previously described L4 cis-acting element is crucial for glucose responsiveness, as demonstrated by the fact that a plasmid with a mutation in this element does not elicit glucose-inducible CAT activity. Induction of L-type pyruvate kinase mRNA occurs in the islets of rats subjected to fasting and carbohydrate refeeding. In conclusion, the L-type pyruvate kinase gene provides an interesting model of glucose-regulated gene in the endocrine beta-cell type.
...
PMID:The pyruvate kinase gene as a model for studies of glucose-dependent regulation of gene expression in the endocrine pancreatic beta-cell type. 822 28
The insulin-secretory response to glucose is defective in the RINm5F insulin-producing tumour cell line. Stable transfection with human low-affinity GLUT2 glucose-transporter cDNA revealed a significant improvement in stimulus-secretion coupling in these
insulinoma
cells. 3-O-Methylglucose uptake increased 10-fold in the concentration range 10-20 mM, whereas non-transfected control cells were unresponsive. Northern-blot analysis revealed a 7-fold increase in expression of the insulin gene in the GLUT2-transfected RINm5F cell clone T1. In contrast, glucokinase and GLUT1 glucose-transporter mRNA gene expression were not affected by transfection with GLUT2 glucose-transporter cDNA. The insulin content of transfected RINm5F cells was 7-fold higher after tissue culture at high glucose concentrations than in non-transfected controls. GLUT2-transfected RINm5F cells also regained insulin-secretory responsiveness toward high glucose concentrations. Tissue culture for 72 h in 20 mM glucose induced glucokinase activity in the GLUT2-transfected RINm5F clone T1, raising the glucokinase/
hexokinase
phosphorylation ratio from 0.2 to 0.6. The experiments demonstrate that an increased glucose uptake via a low-affinity glucose transporter and an increased metabolic flux rate are important factors in the induction of insulin-gene expression and glucokinase activity and thus improved glucose-induced biosynthesis and secretion of insulin in RINm5F
insulinoma
cells.
...
PMID:Insulin secretion, insulin content and glucose phosphorylation in RINm5F insulinoma cells after transfection with human GLUT2 glucose-transporter cDNA. 825 Aug 30
Glucose-stimulated insulin secretion, glucose transport, glucose phosphorylation and glucose utilization have been characterized in the
insulinoma
cell line MIN6, which is derived from a transgenic mouse expressing the large T-antigen of SV40 in pancreatic beta cells. Glucose-stimulated insulin secretion occurred progressively from 5 mmol/l glucose, reached the maximal level approximately seven-fold above the basal level at 25 mmol/l, and remained at this level up to 50 mmol/l. Glucose transport was very rapid with the half-maximal uptake of 3-O-methyl-D-glucose being reached within 15 s at 22 degrees C. Glucose phosphorylating activity in the cell homogenate was due mainly to glucokinase; the Vmax value of glucokinase activity was estimated to be 255 +/- 37 nmol.h-1.mg protein-1, constituting approximately 80% of total phosphorylating activity, whereas
hexokinase
activity constituted less than 20%. MIN6 cells exhibited mainly the high Km component of glucose utilization with a Vmax of 289 +/- 18 nmol.h-1.mg protein-1. Thus, glucose utilization quantitatively and qualitatively reflected glucose phosphorylation in MIN6 cells. In contrast, MIN7 cells, which exhibited only a small increase in insulin secretion in response to glucose, had 4.7-fold greater
hexokinase
activity than MIN6 cells with a comparable activity of glucokinase. These characteristics of MIN6 cells are very similar to those of isolated islets, indicating that this cell line is an appropriate model for studying the mechanism of glucose-stimulated insulin secretion in pancreatic beta cells.
...
PMID:Pancreatic beta cell line MIN6 exhibits characteristics of glucose metabolism and glucose-stimulated insulin secretion similar to those of normal islets. 827 Jan 28
Sodium butyrate is widely used to differentiate
insulinoma
cell lines. However, sodium has been shown to decrease glucose phosphorylation in the liver and heart and decrease the expression of glucose transporter. Since these mechanisms are essential for glucose-induced insulin secretion, the ultimate function of the pancreatic beta-cell, we investigated the effect of sodium butyrate on both glucose-phosphorylating enzymes as well as glucose transport in the pancreatic cell line RIN-m5F. Treatment of RIN-m5F cells with 2.5 mM sodium butyrate for 72 h increased by twofold both
hexokinase
and glucokinase (GK) activities, as well as the gene expression of GK. Sodium butyrate treatment had no effect on GLUT-1 mRNA levels but increased the GLUT-2 mRNA 3.7-fold. Kinetic analysis of 2-deoxyglucose transport displayed a single curve with Km = 1.2 mM and Vmax = 10.9 pmol/micrograms protein/min in the untreated cells, values similar to the low Km glucose transport reported in the pancreatic beta-cells. This low Km transport component markedly decreased with sodium butyrate treatment, and interestingly a second component with a higher Km appeared, consistent with the increase in GLUT-2 mRNA. We conclude that the differentiating action of sodium butyrate involves increases in GK and GLUT-2 gene expression, which characterizes the differentiated state of the pancreatic beta-cell. However, the inhibitory effect of sodium butyrate on low Km glucose transport needs to be considered in the use of this compound to promote differentiation.
...
PMID:Effect of sodium butyrate on glucose transport and glucose-phosphorylating enzymes in RIN-m5F cells. 830 95
1
2
Next >>
