Your search keyword '"T. Hidaka"' showing total 40 results

1. Acute Stimulation of White Adipocyte Respiration by PKA-Induced Lipolysis.

Author

Yehuda-Shnaidman, Einav, Buehrer, Ben, Pi, Jingbo, Kumar, Naresh, and Collins, Sheila

Subjects

DIABETES, BETA adrenoceptors, FAT cells, RESPIRATION, LIPOLYSIS, ISOPROTERENOL

Abstract

OBJECTIVE--We examined the effect of β-adrenergic receptor (βAR) activation and cAMP-elevating agents on respiration and mitochondrial uncoupling in human adipocytes and probed the underlying molecular mechanisms. RESEARCH DESIGN AND METHODS--Oxygen consumption rate (OCR, aerobic respiration) and extracellular acidification rate (ECAR, anaerobic respiration) were examined in response to isoproterenol (ISO), forskolin (FSK), and dibutyryl-cAMP (DB), coupled with measurements of mitochondrial depolarization, lipolysis, kinase activities, and gene targeting or knockdown approaches. RESULTS--ISO, FSK, or DB rapidly increased oxidative and glycolytic respiration together with mitochondrial depolarization in human and mouse white adipocytes. The increase in OCR was oligomycin-insensitive and contingent on cAMP-dependent protein kinase A (PKA)-induced lipolysis. This increased respiration and the uncoupling were blocked by inhibiting the mitochondrial permeability transition pore (PTP) and its regulator, BAX. Interestingly, compared with lean individuals, adipocytes from obese subjects exhibited reduced OCR and uncoupling capacity in response to ISO. CONCLUSIONS--Lipolysis stimulated by BAR activation or other maneuvers that increase cAMP levels in white adipocytes acutely induces mitochondrial uncoupling and cellular energetics, which are amplified in the absence of scavenging BSA. The increase in OCR is dependent on PKA-induced lipolysis and is mediated by the PTP and BAX. Because this effect is reduced with obesity, further exploration of this uncoupling mechanism will be needed to determine its cause and consequences. Diabetes 59:2474-2483, 2010 [ABSTRACT FROM AUTHOR]

Published

2010

2. Activation of AMP-Activated Protein Kinase by Interleukin-6 in Rat Skeletal Muscle.

Author

Kelly, Meghan, Gauthier, Marie-Soleil, Saha, Asish K., and Ruderman, Neil B.

Subjects

PROTEIN kinases, ADENOSINE monophosphate, INTERLEUKIN-6, MUSCLES, PROPRANOLOL, BIOENERGETICS

Abstract

OBJECTIVE--Interleukin-6 (IL-6) directly activates AMP-activated protein kinase (AMPK) in Vivo and in vitro; however, the mechanism by which it does so is unknown. RESEARCH DESIGN AND METHODS--We examined this question in skeletal muscle using an incubated rat extensor digitorum longus (EDL) muscle preparation as a tool. RESULTS--AMPK activation by IL-6 coincided temporally with a nearly threefold increase in the AMP:ATP ratio in the EDL. The effects of IL-6 on both AMPK activity and energy state were inhibited by coincubation with propranolol, suggesting involvement of β-adrenergic signaling. In keeping with this notion, IL-6 concurrently induced a transient increase in cAMP, and its ability to activate AMPK was blocked by the adenyl cyclase inhibitor 2′5′-dideoxyadenosine. In addition, like other β-adrenergic stimuli, IL-6 increased glycogen breakdown and lipolysis in the EDL. Similar effects of IL-6 on AMPK, energy state, and cAMP content were observed in C2C12 myotubes and gastrocnemius muscle in vivo, indicating that they were not unique to the incubated EDL. CONCLUSIONS--These studies demonstrate that IL-6 activates AMPK in skeletal muscle by increasing the concentration of cAMP and, secondarily, the AMP:ATP ratio. They also suggest that substantial increases in IL-6 concentrations, such as those that can result from its synthesis by muscles during exercise, may play a role in the mobilization of fuel stores within skeletal muscle as an added means of restoring energy balance. Diabetes 58:1953-1960, 2009 [ABSTRACT FROM AUTHOR]

Published

2009

3. Central Nervous System Neuropeptide Y Signaling Modulates VLDL Triglyceride Secretion.

Author

Stafford, John M., Yu, Fang, Printz, Richard, Hasty, Alyssa H., Swift, Larry L., and Niswender, Kevin D.

Subjects

NEUROPEPTIDE Y, HYPERTRIGLYCERIDEMIA, BIOENERGETICS, TRIGLYCERIDES, CENTRAL nervous system, OBESITY

Abstract

OBJECTIVE--Elevated triglyceride (TG) is the major plasma lipid abnormality in obese and diabetic patients and contributes to cardiovascular morbidity in these disorders. We sought to identify novel mechanisms leading to hypertriglyceridemia. Resistance to negative feedback signals from adipose tissue in key central nervous system (CNS) energy homeostatic circuits contributes to the development of obesity. Because triglycerides both represent the largest energy depot in the body and are elevated in both the plasma and adipose in obesity and diabetes, we hypothesized that the same neural circuits that regulate energy balance also regulate the secretion of TGs into plasma. RESEARCH DESIGN AND METHODS--In normal fasting rats, the TG secretion rate was estimated by serial blood sampling after intravascular tyloxapol pretreatment. Neuropeptide Y (NPY) signaling in the CNS was modulated by intracerebroventricular injection of NPY, receptor antagonist, and receptor agonist. RESULTS--A single intracerebroventricular injection of NPY increased TG secretion by 2.5-fold in the absence of food intake, and this was determined to be VLDL by fast performance liquid chromatography (FPLC). This effect was recapitulated by activating NPY signaling in downstream neurons with an NPY-Y5 receptor agonist. An NPY-Y1 receptor antagonist decreased the elevated TGs in the form of VLDL secretion rate by 50% compared with vehicle. Increased TG secretion was due to increased secretion of VLDL particles, rather than secretion of larger particles, because apolipoprotein B100 was elevated in FPLC fractions corresponding to VLDL. CONCLUSIONS--We find that a key neuropeptide system involved in energy homeostasis in the CNS exerts control over VLDL-TG secretion into the bloodstream. Diabetes 57:1482-1490, 2008 [ABSTRACT FROM AUTHOR]

Published

2008

4. Glucose-Dependent Modulation of Insulin Secretion and Intracellular Calcium Ions by GKA50, a Glucokinase Activator.

Author

Johnson, Daniel, Shepherd, Ruth M., Gill, Debra, Gorman, Tracy, Smith, David M., and Dunne, Mark J.

Subjects

DIABETES, GLUCOKINASE, ENZYME-linked immunosorbent assay, GLUCOSE, INSULIN, TOLBUTAMIDE, RESPONSE inhibition, CELL lines

Abstract

Because glucokinase is a metabolic sensor involved in the regulated release of insulin, we have investigated the acute actions of novel glucokinase activator compound 50 (GKA50) on islet function. Insulin secretion was determined by enzyme-linked immunosorbent assay, and microfluorimetry with fura-2 was used to examine intracellular Ca2+ homeostasis ([Ca2+]i) in isolated mouse, rat, and human islets of Langerhans and in the MIN6 insulin-secreting mouse cell line. In rodent islets and MIN6 cells, 1 µmol/l GKA50 was found to stimulate insulin secretion and raise [Ca2+]i in the presence of glucose (2-10 mmol/l). Similar effects on insulin release were also seen in isolated human islets. GKA50 (1 µmol/l) caused a leftward shift in the glucose-concentration response profiles, and the half-maximal effective concentration (EC50) values for glucose were shifted by 3 mmol/l in rat islets and ∼10 mmol/l in MIN6 ceils. There was no significant effect of GKA50 on the maximal rates of glucose-stimulated insulin secretion. In the absence of glucose, GKA50 failed to elevate [Ca2+]i (1 µmol/l GKA50) or to stimulate insulin release (30 nmol/l-10 µmol/l GKA50). At 5 mmol/l glucose, the EC50 for GKA50 in MIN6 ceils was ∼0.3 µmol/l. Inhibition of glucokinase with mannoheptulose or 5-thioglucose selectively inhibited the action of GKA50 on insulin release but not the effects of tolbutamide. Similarly 3-methoxyglucose prevented GKA50-induced rises in [Ca2+]i but not the actions of tolbutamide. Finally, the ATP-sensitive K+ channel agonist diazoxide (200 µmol/l) inhibited GKA50-induced insulin release and its elevation of [Ca2+]i We show that GKA50 is a glucose-like activator of β-cell metabolism in rodent and human islets and a Ca2+-dependent modulator of insulin secretion. Diabetes 56:1694-1702, 2007 [ABSTRACT FROM AUTHOR]

Published

2007

5. Altered Gene Expression Related to Glomerulogenesis and Podocyte Structure in Early Diabetic Nephropathy of db/db Mice and Its Restoration by Pioglitazone.

Author

Makino, Hisashi, Miyamoto, Yoshihiro, Sawai, Kazutomo, Mori, Kiyoshi, Mukoyama, Masashi, Nakao, Kazuwa, Yoshimasa, Yasunao, and Suga, Shin-ichi

Subjects

DIABETIC nephropathies, KIDNEY diseases, KIDNEY glomerulus diseases, GENE expression, LABORATORY mice, HYPERGLYCEMIA, OXIDATIVE stress

Abstract

Glomerular injury plays a pivotal role in the development of diabetic nephropathy. To elucidate molecular mechanisms underlying diabetic glomerulopathy, we compared glomerular gene expression profiles of db/db mice with those of db/m control mice at a normoalbuminuric stage characterized by hyperglycemia and at an early stage of diabetic nephropathy with elevated albuminuria, using cDNA microarray. In db/db mice at the normoalbuminuric stage, hypoxia-inducible factor-1α (HIF-1α), ephrin B2, glomerular epithelial protein 1, and Pod-1, which play key roles in glomerulogenesis, were already upregulated in parallel with an alteration of genes related to glucose metabolism, lipid metabolism, and oxidative stress. Podocyte structure-related genes, actinin 4α and dystroglycan 1 (DG1), were also significantly upregulated at an early stage. The alteration in the expression of these genes was confirmed by quantitative RT-PCR. Through pioglitazone treatment, gene expression of ephrin B2, Pod-1, actinin 4α, and DG1, as well as that of oxidative stress and lipid metabolism, was restored concomitant with attenuation of albuminuria. In addition, HIF-1α protein expression was partially attenuated by pioglitazone. These results suggest that not only metabolic alteration and oxidative stress, but also the alteration of gene expression related to glomerulogenesis and podocyte structure, may be involved in the pathogenesis of early diabetic glomerulopathy in type 2 diabetes. Diabetes 55:2747-2756, 2006 [ABSTRACT FROM AUTHOR]

Published

2006

6. Restitution of defective glucose-stimulated insulin secretion in diabetic GK rat by acetylcholine uncovers paradoxical stimulatory effect of beta-cell muscarinic receptor activation on cAMP production.

Author

Dolz, Manuel, Bailbé, Danielle, Giroix, Marie-Hélène, Calderari, Sophie, Gangnerau, Marie-Noelle, Serradas, Patricia, Rickenbach, Katharina, Irminger, Jean-Claude, Portha, Bernard, Bailbé, Danielle, and Giroix, Marie-Hélène

Subjects

ACETYLCHOLINE, GLUCOSE, INSULIN, PANCREATIC beta cells, TYPE 2 diabetes, PHOSPHOLIPASE C, INOSITOL phosphates, CALCIUM in the body, CYCLIC adenylic acid

Abstract

Because acetylcholine (ACh) is a recognized potentiator of glucose-stimulated insulin release in the normal beta-cell, we have studied ACh's effect on islets of the Goto-Kakizaki (GK) rat, a spontaneous model of type 2 diabetes. We first verified that ACh was able to restore the insulin secretory glucose competence of the GK beta-cell. Then, we demonstrated that in GK islets 1) ACh elicited a first-phase insulin release at low glucose, whereas it had no effect in Wistar; 2) total phospholipase C activity, ACh-induced inositol phosphate production, and intracellular free calcium concentration ([Ca2+]i) elevation were normal; 3) ACh triggered insulin release, even in the presence of thapsigargin, which induced a reduction of the ACh-induced [Ca2+]i response (suggesting that ACh produces amplification signals that augment the efficacy of elevated [Ca2+]i on GK exocytosis); 4) inhibition of protein kinase C did not affect [Ca2+]i nor the insulin release responses to ACh; and 5) inhibition of cAMP-dependent protein kinases (PKAs), adenylyl cyclases, or cAMP generation, while not affecting the [Ca2+]i response, significantly lowered the insulinotropic response to ACh (at low and high glucose). In conclusion, ACh acts mainly through activation of the cAMP/PKA pathway to potently enhance Ca2+-stimulated insulin release in the GK beta-cell and, in doing so, normalizes its defective glucose responsiveness. [ABSTRACT FROM AUTHOR]

Published

2005

7. PKCα Is Activated But Not Required During Glucose-Induced Insulin Secretion From Rat Pancreatic Islets.

Author

Carpenter, Lee, Mitchell, Christopher J., Biden, Trevor J., Xu, Zheng Z., Both, Gerald W., and Poronnik, Philip

Subjects

PROTEIN kinase C, INSULIN, GLUCOSE, RATS, ISLANDS of Langerhans, PHOSPHORYLATION

Abstract

The role of protein kinase C (PKC) in glucose-stimulated insulin secretion (GSIS) is controversial. Using recombinant adenoviruses for overexpression of PKCα and PKCδ, in both wild-type (WT) and kinase-dead (KD) forms, we here demonstrate that activation of these two PKCs is neither necessary nor sufficient for GSIS from batch-incubated, rat pancreatic islets. In contrast, responses to the pharmacologic activator 12-O-tetradecanoylphorbol-13-acetate (TPA) were reciprocally modulated by overexpression of the PKCαWT or PKCαKD but not the corresponding PKCδ adenoviruses. The kinetics of the secretory response to glucose (monitored by perifusion) were not altered in either cultured islets overexpressing PKCαKD or freshly isolated islets stimulated in the presence of the conventional PKC (cPKC) inhibitor Go6976. However, the latter did inhibit the secretory response to TPA. Using phosphorylation state-specific antisera for consensus PKC phosphorylation sites, we also showed that (compared with TPA) glucose causes only a modest and transient functional activation of PKC (maximal at 2-5 min). However, glucose did promote a prolonged (15 min) phosphorylation of PKC substrates in the presence of the phosphatase inhibitor okadaic acid. Overall, the results demonstrate that glucose does stimulate PKCα in pancreatic islets but that this makes little overall contribution to GSIS. [ABSTRACT FROM AUTHOR]

Published

2004

8. Peripheral, but not central, administration of adiponectin reduces visceral adiposity and upregulates the expression of uncoupling protein in agouti yellow (Ay/a) obese mice.

Author

Masaki, Takayuki, Chiba, Seiichi, Yasuda, Tohru, Tsubone, Tetsuo, Kakuma, Tetsuya, Shimomura, Iichiro, Funahashi, Tohru, Matsuzawa, Yuji, and Yoshimatsu, Hironobu

Subjects

ENERGY metabolism, PROTEINS, MESSENGER RNA, ADIPOSE tissues

Abstract

To examine the peripheral and central roles of adiponectin in energy intake and expenditure, we investigated the effects of adiponectin on food intake, adiposity, sympathetic nerve activity (SNA), and mRNA expressions of uncoupling protein (UCP) in the brown adipose tissue (BAT), white adipose tissue (WAT) and skeletal muscle in agouti yellow (A[sup y]/a) obese mice. Intraperitoneal administration of adiponectin (1.5 mg/kg for 7 days) attenuated body weight gain and reduced visceral adiposity in A[sup y]/a obese mice compared with PBS-treated controls. In addition, adiponectin treatment increased the expression of UCP1 mRNA in BAT, UCP2 mRNA in WAT, and UCP3 mRNA in skeletal muscle compared with PBS-treated A[sup y]/a controls. Acute peripheral administration of adiponectin (1.5 mg/kg, one injection) also increased SNA in the BAT accompanied by an increase in rectal temperature. Finally, these above responses as well as expression of c-Fos-like immunohistochemistry in the hypothalamus were not induced by central application of adiponectin (0-15 µg/kg). Taken together, adiponectin effectively regulated visceral adiposity, SNA, and UCP mRNA expression peripherally, suggesting that this substance can be used as a therapeutic tool, administered peripherally, in the treatment of visceral obesity and related metabolic disorders. [ABSTRACT FROM AUTHOR]

Published

2003

9. The multiple actions of GLP-1 on the process of glucose-stimulated insulin secretion.

Author

MacDonald, Patrick E., El-kholy, Wasim, Riedel, Michael J., Salapatek, Anne Marie F., Light, Peter E., and Wheeler, Michael B.

Subjects

GLUCOSE, INSULIN, GLUCAGON-like peptide 1

Abstract

The physiological effects of glucagon-like peptide-1 (GLP-1) are of immense interest because of the potential clinical relevance of this peptide. Produced in intestinal L-cells through posttranslational processing of the proglucagon gene, GLP-1 is released from the gut in response to nutrient ingestion. Peripherally, GLP-1 is known to affect gut motility, inhibit gastric acid secretion, and inhibit glucagon secretion. In the central nervous system, GLP-1 induces satiety, leading to reduced weight gain. In the pancreas, GLP-1 is now known to induce expansion of insulin-secreting beta-cell mass, in addition to its most well-characterized effect: the augmentation of glucose-stimulated insulin secretion. GLP-1 is believed to enhance insulin secretion through mechanisms involving the regulation of ion channels (including ATP-sensitive K(+) channels, voltage-dependent Ca(2+) channels, voltage-dependent K(+) channels, and nonselective cation channels) and by the regulation of intracellular energy homeostasis and exocytosis. The present article will focus principally on the mechanisms proposed to underlie the glucose dependence of GLP-1's insulinotropic effect. [ABSTRACT FROM AUTHOR]

Published

2002

10. cAMP-activated protein kinase-independent potentiation of insulin secretion by cAMP is impaired in SUR1 null islets.

Author

Nakazaki, Mitsuhiro, Crane, Ana, Hu, Min, Seghers, Victor, Ullrich, Susanne, Aguilar-Bryan, Lydia, and Bryan, Joseph

Subjects

INSULIN, ISLANDS of Langerhans

Abstract

Whereas the loss of ATP-sensitive K(+) channel (K(ATP) channel) activity in human pancreatic beta-cells causes severe hypoglycemia in certain forms of hyperinsulinemic hypoglycemia, similar channel loss in sulfonylurea receptor-1 (SUR1) and Kir6.2 null mice yields a milder phenotype that is characterized by normoglycemia, unless the animals are stressed. While investigating potential compensatory mechanisms, we found that incretins, specifically glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic peptide (GIP), can increase the cAMP content of Sur1KO islets but do not potentiate glucose-stimulated insulin release. This impairment is secondary to a restriction in the ability of Sur1KO beta-cells to sense cAMP correctly. Potentiation does not appear to require cAMP-activated protein kinase (PKA) because H-89 (N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulfonamide) and KT5720, inhibitors of PKA, do not affect stimulation by GLP-1, GIP, or exendin-4 in wild-type islets, although they block phosphorylation of cAMP-response element-binding protein. The impaired incretin response in Sur1KO islets is specific; the stimulation of insulin release by other modulators, including mastoparan and activators of protein kinase C, is conserved. The results suggest that the defect responsible for the loss of cAMP-induced potentiation of insulin secretion is PKA independent. We hypothesize that a reduced release of insulin in response to incretins may contribute to the unexpected normoglycemic phenotype of Sur1KO mice versus the pronounced hypoglycemia seen in neonates with loss of K(ATP) channel activity. [ABSTRACT FROM AUTHOR]

Published

2002

11. Fast and cAMP-Sensitive Mode of Ca2+;-Dependent Exocytosis in Pancreatic β-Cells.

Author

Kasai, Haruo, Suzuki, Tomoyuki, Ting-Ting Liu, Kishimoto, Takuya, and Takahashi, Noriko

Subjects

EXOCYTOSIS, PANCREATITIS, ADENOSINE triphosphate

Abstract

The fast component (mode 1) of Ca[sup 2+]-dependent exocytosis in pancreatic β-cells, unlike that in adrenal chromaffin cells, is regulated by cytosolic ATP in a concentration-dependent manner. This action of ATP is apparent within 3 min and does not require ATP hydrolysis; rather, it requires the production of cAMP by adenylate cyclase. Moreover, the effect of cAMP is ATP dependent, as revealed by the observation that the fast component of exocytosis is facilitated by ATP, even in the presence of a saturating concentration of cAMP (200 μmol/l). Thus, the amplitude of mode-1 exocytosis depends quadratically on the cytosolic ATP concentration and is facilitated by ATP, even in the absence of an increase in the concentration of cAMP. Given that high glucose concentrations increase the cytosolic ATP concentration, glucose-induced insulin secretion likely involves this action of ATP on mode-1 exocytosis, together with its effect on ATP-dependent K[sup +] channels. In contrast to the fast component of exocytosis, the slow component (mode 2) of this process is independent of cAMP and ATP and can account for the slow component of insulin secretion, which does not require these nucleotides. Diabetes 51 (Suppl. 1):S19–S24, 2002 [ABSTRACT FROM AUTHOR]

Published

2002

12. Targeted disruption of histamine H1-receptor attenuates regulatory effects of leptin on feeding, adiposity, and UCP family in mice.

Author

Masaki, Takayuki, Yoshimatsu, Hironobu, Chiba, Seiichi, Watanabe, Takeshi, Sakata, Toshiie, Masaki, T, Yoshimatsu, H, Chiba, S, Watanabe, T, and Sakata, T

Subjects

HISTAMINE, LEPTIN, LABORATORY mice, LABORATORY animals, IMIDAZOLES

Abstract

Histamine neurons are widely distributed in the brain and suppress food intake through the histamine H1 receptor (H1-R) in the hypothalamus. To examine the role of neuronal histamine in leptin signaling pathways, we investigated the effects of H1-R knockout (H1KO) mice on both food intake and mRNA expressions of uncoupling proteins (UCPs) as regulated by leptin, and concomitantly on basal changes in both expression of hypothalamic neuropeptides and diet-induced fat deposition in adipose tissues. H1KO mice showed no change in daily food intake, growth curve, body weight, or adiposity. Reflecting no specificity in these parameters, H1KO mice induced no basal changes in mRNA expression of hypothalamic neuropeptides, ob gene, or peripheral UCPs. Loading H1KO mice with a high-fat diet accelerated fat deposition and ob gene expression compared with the controls. Leptin-induced feeding suppression was partially attenuated in H1KO mice, indicating involvement of histamine neurons in feeding regulation as a downstream signal of leptin. Upregulation of fat UCP mRNA and reduction of body fat induced by central infusion of leptin were attenuated in the H1KO mice. These results show that H1KO mice are a novel leptin-resistant model and that H1-R is a key receptor for downstream signaling of leptin in the brain that contributes to regulation of feeding, fat deposition, and UCP mRNA expression. [ABSTRACT FROM AUTHOR]

Published

2001

13. Central infusion of histamine reduces fat accumulation and upregulates UCP family in leptin-resistant obese mice.

Author

Masaki, Takayuki, Yoshimatsu, Hironobu, Chiba, Seiichi, Watanabe, Takeshi, Sakata, Toshiie, Masaki, T, Yoshimatsu, H, Chiba, S, Watanabe, T, and Sakata, T

Subjects

HISTAMINE, GENE expression, LABORATORY mice, LABORATORY animals, MOLECULAR genetics

Abstract

Leptin resistance has recently been confirmed not only in animal obese models but in human obesity. Evidence is rapidly emerging that suggests that activation of histamine signaling in the hypothalamus may have substantial anti-obesity and antidiabetic actions, particularly in leptin-resistant states. To address this issue, effects of central, chronic treatment with histamine on food intake, adiposity, and energy expenditure were examined using leptin-resistant obese and diabetic mice. Infusion of histamine (0.05 pmol x g body wt(-1) x day(-1)) into the lateral cerebroventricle (i.c.v.) for 7 successive days reduced food intake and body weight significantly in both diet-induced obesity (DIO) and db/db mice. Histamine treatment reduced body fat weight, ob gene expression, and serum leptin concentration more in the model mice than in pair-fed controls. The suppressive effect on fat deposition was significant in visceral fat but not in subcutaneous fat. Serum concentrations of glucose and/or insulin were reduced, and tests for glucose and insulin tolerance showed improvement of insulin sensitivity in those mice treated with histamine compared with pair-fed controls. On the other hand, gene expression of uncoupling protein (UCP)-1 in brown adipose tissue and UCP-3 expression in white adipose tissue were upregulated more in mice with i.c.v. histamine infusion than in the pair-fed controls. These upregulating effects of histamine were attenuated by targeted disruption of the H1-receptor in DIO and db/db mice. Sustained i.c.v. treatment with histamine thus makes it possible to partially restore the distorted energy intake and expenditure in leptin-resistant mice. Together, i.c.v. treatment with histamine contributes to improvement of energy balance even in leptin-resistant DIO and db/db mice. [ABSTRACT FROM AUTHOR]

Published

2001

14. beta-cell glucokinase deficiency and hyperglycemia are associated with reduced islet amyloid deposition in a mouse model of type 2 diabetes.

Author

Andrikopoulos, Sofianos, Verchere, C. Bruce, Andrikopoulos, S, Verchere, C B, Terauchi, Y, Kadowaki, T, and Kahn, S E

Subjects

PANCREATIC beta cells, GLUCOKINASE, HYPERGLYCEMIA, TYPE 2 diabetes, LABORATORY mice

Abstract

Type 2 diabetes is characterized by impaired beta-cell function, hyperglycemia, and islet amyloid deposition. The primary constituent of islet amyloid is the 37-amino acid beta-cell product called islet amyloid polypeptide (IAPP) or amylin. To study mechanisms of islet amyloid formation, we developed a transgenic mouse model that produces and secretes the amyloidogenic human IAPP (hIAPP) molecule and have shown that 81% of male transgenic mice develop islet amyloid after 14 months on a high-fat diet. To test whether impaired beta-cell function and hyperglycemia could enhance islet amyloid formation, we cross-bred our hIAPP transgenic mice with beta-cell glucokinase-knockout mice (GKKO) that have impaired glucose-mediated insulin secretion and fasting hyperglycemia. The resulting new (hIAPPxGKKO) line of mice had higher basal plasma glucose concentrations than the hIAPP transgenic mice at 3, 6, and 12 months of age (P < 0.05), as did GKKO mice compared with hIAPP transgenic mice at 6 and 12 months of age (P < 0.05). Basal plasma immunoreactive insulin (IRI) levels were lower in hIAPP x GKKO mice than in hIAPP transgenic mice at 6 months of age (P < 0.05). The area under the glucose curve in response to an intraperitoneal glucose challenge (1 g/kg body weight) was larger in hIAPPxGKKO mice than in hIAPP transgenic mice at 3, 6, and 12 months of age (P < 0.005) and in GKKO mice compared with hIAPP transgenic mice at 6 and 12 months of age (P < 0.005). The area under the IRI curve was lower in hIAPPxGKKO mice at 6 and 12 months of age (P < 0.05) than in hIAPP transgenic mice and in GKKO mice compared with hIAPP transgenic mice at 12 months of age (P < 0.05). Despite the presence of hyperglycemia, hIAPPxGKKO mice had a lower incidence (4 of 17 vs. 12 of 19, P < 0.05) and amount (0.40 +/- 0.24 vs. 1.2 +/- 0.3 arbitrary units, P < 0.05) of islet amyloid than hIAPP transgenic mice had. As expected, no islet amyloid was observed in GKKO mice lacking the hIAPP transgene (0 of 13). There was no difference in pancreatic content of IRI and hIAPP among the three groups of mice. Thus, despite the presence of impaired islet function and hyperglycemia, hIAPPxGKKO mice had a decreased incidence and quantity of islet amyloid. Therefore, our data suggest that impaired beta-cell glucose metabolism or hyperglycemia are not likely to contribute to islet amyloid formation in diabetes. Furthermore, this finding may explain the lack of progression of glycemia in patients with maturity-onset diabetes of the young. [ABSTRACT FROM AUTHOR]

Published

2000

15. NOD Idd5 locus controls insulitis and diabetes and overlaps the orthologous CTLA4/IDDM12 and NRAMP1 loci in humans.

Author

Hill, Natasha J., Lyons, Paul A., Armitage, Nicola, Todd, John A., Wicker, Linda S., Peterson, Laurence B., Hill, N J, Lyons, P A, Armitage, N, Todd, J A, Wicker, L S, and Peterson, L B

Subjects

DIABETES, INSULIN, GENOMES, ANIMAL models in research

Abstract

A genome scan for B10-derived loci that reduce the frequency of diabetes and insulitis in NOD mice demonstrated a large region (34 cM) of linkage on the proximal end of chromosome 1. This locus was designated Idd5 and encompassed candidate genes including Il1r1, Il1r2, Stat1, Stat4, Nramp1, and Bcl2. In the current study, we have confirmed the existence of Idd5 by developing a series of congenic mouse strains that are resistant to diabetes and determined that Idd5 is actually two genes located within a 9.4-cM interval. Idd5.1 is in the proximal 1.5-cM portion of the interval and contains the candidates Casp8, Cflar (FLIP), Cd28, and Cd152 (CTLA4). Idd5.1 overlaps the orthologous CTLA4/IDDM12 locus in humans. Idd5.2 is in the distal 5.1-cM portion of the 9.4-cM interval and contains the candidates Nramp1, which has a functional polymorphism between NOD and B10, and Cmkar2 (CXCR2, interleukin [IL]-8 receptor alpha). Candidate genes eliminated by this analysis include Il1r1, Ilr2, Zap70, Orch5, Stat1, Stat4, Bcl2, Cmkar4 (CXCR4), and Il10. On its own, the Idd5 locus provides a significant amount of protection from diabetes (50% reduction from parental frequency) and when combined with another resistance locus (Idd3 on chromosome 3), provides nearly complete protection from diabetes and insulitis. [ABSTRACT FROM AUTHOR]

Published

2000

16. Involvement of thyroid hormones in the effect of intracerebroventricular leptin infusion on uncoupling protein-3 expression in rat muscle.

Author

Cusin, Isabelle, Ronru, Juha, Visser, Theo, Burger, Albert G., Rohner-Jeanrenaud, Francoise, Cusin, I, Rouru, J, Visser, T, Burger, A G, and Rohner-Jeanrenaud, F

Subjects

THYROID hormones, INTRAVENOUS therapy, PROTEIN metabolism

Abstract

We have shown previously that continuous (6 days) intracerebroventricular (ICV) leptin infusion in normal rats resulted in decreases in food intake and body weight. A reduction of food intake imposed on control rats (pair-feeding), aimed at mimicking leptin-induced hyperphagia, produced a marked decrease in the expression of muscle uncoupling protein-3 (UCP-3), whereas ICV infusion of leptin prevented such a decrease in UCP-3. To investigate an involvement of thyroid hormones in this effect of leptin, plasma levels of these hormones were determined in ICV leptin-infused, ICV vehicle-infused ad libitum fed or pair-fed controls. ICV leptin infusion and pair-feeding resulted in decreased plasma thyroid-stimulating hormone (TSH) and T4 levels relative to ad libitum fed controls. ICV leptin infusion maintained plasma levels of T3, but the levels were decreased by pair-feeding. The activity of the enzyme (hepatic 5'-monodeiodinase) responsible for T4/T3 conversion was measured. In the leptin-infused group, the activity of 5'-monodeiodinase was maintained at the values measured in ad libitum fed rats; in pair-fed rats, activity was reduced. Thus, conversion of T4 to T3 is decreased by pair-feeding, whereas such is not the case during leptin infusion. To further substantiate an involvement of thyroid hormones in the effect of leptin on muscle UCP-3 expression, hypothyroid rats were ICV infused with leptin or vehicle. It was observed that in hypothyroid rats, ICV leptin was unable to maintain muscle UCP-3 expression at values measured in ad libitum fed controls. These results suggest that central leptin stimulates T3 production via an activation of T4 to T3 conversion, and that this stimulation could be responsible for the effect of leptin on muscle UCP-3 expression. Thyroid hormones could thus be important mediators of the effect of leptin on energy expenditure. [ABSTRACT FROM AUTHOR]

Published

2000

17. Genetic and physical mapping of a type 1 diabetes susceptibility gene (IDDM12) to a 100-kb phagemid artificial chromosome clone containing D2S72-CTLA4-D2S105 on chromosome 2q33.

Author

Marron, Michele P., Zeidler, Adina, Raffel, Leslie J., Eckenrode, Sarah E., Yang, James J., Hopkins, Diane I., Garchon, Henri-Jean, Jacob, Chaim O., Serrano-Rios, Manuel, Larrad, Maria T. Martinez, Park, Yongsoo, Bach, Jean-Francois, Rotter, Jerome I., Yang, Mark C. K., She, Jin-Xiong, Marron, M P, Zeidler, A, Raffel, L J, Eckenrode, S E, and Yang, J J

Subjects

GENETICS of diabetes, HUMAN gene mapping

Abstract

Polymorphic markers within the CTLA4 gene on chromosome 2q33 have been shown to be associated with type 1 diabetes. Therefore, a gene responsible for the disease (IDDM12) most likely lies within a region of <1-2 cM of CTLA4. To define more precisely the IDDM12 interval, we genotyped a multiethnic (U.S. Caucasian, Mexican-American, French, Spanish, Korean, and Chinese) collection of 178 simplex and 350 multiplex families for 10 polymorphic markers within a genomic interval of approximately 300 kb, which contains the candidate genes CTLA4 and CD28. The order of these markers (D2S346, CD28, GGAA19E07, D2S307, D2S72, CTLA4, D2S105, and GATA52A04) was determined by sequence tagged site content mapping of bacterial artificial chromosome (BAC) and yeast artificial chromosome (YAC) clones. The transmission disequilibrium test (TDT) analyses of our data revealed significant association/linkage with three markers within CTLA4 and two immediate flanking markers (D2S72 and D2S105) on each side of CTLA4 but not with more distant markers including the candidate gene CD28. Tsp analyses revealed significant association only with the three polymorphic markers within the CTLA4 gene. The markers linked and associated with type 1 diabetes are contained within a phagemid artificial chromosome clone of 100 kb, suggesting that the IDDM12 locus is either CTLA4 or an unknown gene in very close proximity. [ABSTRACT FROM AUTHOR]

Published

2000

18. Perspectives in Diabetes.

Author

Boss, Olivier, Hagen, Thilo, and Lowell, Bradford B.

Subjects

PROTEINS, MITOCHONDRIA, DIABETES, BIOCHEMICAL mechanism of action, METABOLISM

Abstract

Discusses the possible biological functions of uncoupling protein-2 (UCP2) and uncoupling protein-3 (UCP3). Mitochondria's use of energy derived from fuel combustion to create a proton electrochemical gradient across the mitochondrial inner membrane; Regulation of fatty acid oxidation; Control of reactive oxygen species production by mitochondria; Control of adaptive thermogenesis.

Published

2000

19. The thiazolidinedione rosiglitazone (BRL-49653) lowers blood pressure and protects against impairment of endothelial function in Zucker fatty rats.

Author

Walker, Adrian B., Chattington, Paula D., Buckingham, Robin E., Williams, Gareth, Walker, A B, Chattington, P D, Buckingham, R E, and Williams, G

Subjects

INSULIN resistance, REGULATION of blood pressure, ACETYLCHOLINE, PREVENTION

Abstract

Human obesity is associated with insulin resistance, hyperinsulinemia, and a predisposition to hypertension and vascular disease, the origin of which may lie in impairment of endothelial function. We tested the effects of the thiazolidinedione rosiglitazone on blood pressure and endothelial function in insulin-resistant fatty Zucker rats, which display hypertension and abnormal endothelial cell function. We studied fatty Zucker rats given rosiglitazone maleate (50 micromol/kg diet; n = 8) for 9-12 weeks (treated fatty), untreated fatty rats (n = 8), and lean rats (n = 8) given diet alone. At the end of the study, systolic blood pressure was significantly higher in untreated fatty (147 +/- 5 mmHg) than in lean rats (125 +/- 2 mmHg; P < 0.05), but rosiglitazone treatment prevented the development of hypertension in fatty rats (123 +/- 1 mmHg). Fasting hyperinsulinemia in untreated fatty rats (28.7 +/- 6.0 ng/ml) was significantly lowered by rosiglitazone (7.0 +/- 1.4 ng/ml; P < 0.05 vs. untreated fatty), but remained significantly higher than the levels seen in lean rats (1.5 +/- 0.4 ng/ml; P < 0.01). Mesenteric arteries were studied in a myograph. Maximal acetylcholine chloride (1.1 micromol/l)-induced relaxation of norepinephrine hydrochloride (NE)-induced constriction was impaired in untreated fatty (62.4 +/- 3.4%) vs. lean (74.3 +/- 3.5%; P = 0.01) rats; this defect was partially prevented by rosiglitazone (66.5 +/- 3.0%; P = 0.01 vs. untreated fatty). Insulin (50 mU/l) significantly attenuated the contractile response to NE in lean rats (14.7 +/- 3.3%; P = 0.02); this vasodilator effect of insulin was absent in untreated fatty rats at concentrations of 50-5,000 mU/l, but was partially restored by rosiglitazone (9.7 +/- 2.5% attenuation; P = 0.02 vs. no insulin). Thus, rosiglitazone prevents the development of hypertension and partially protects against impaired endothelial function associated with insulin resistance. These latter effects may contribute to the drug's antihypertensive properties. [ABSTRACT FROM AUTHOR]

Published

1999

20. CaM kinase II: a protein kinase with extraordinary talents germane to insulin exocytosis.

Author

Easom, Richard A. and Easom, R A

Subjects

PROTEIN kinases, CALMODULIN, CALCIUM, PANCREATIC beta cells

Abstract

CaM kinase II, a multifunctional Ca2+/calmodulin-dependent protein kinase, is expressed in the pancreatic beta-cell and is activated by glucose and other secretagogues in a manner correlating with insulin secretion. It is proposed that the activation of CaM kinase II mediates some of the actions of Ca2+ on the exocytosis of insulin secretory granules. This suggestion is supported by the localization of CaM kinase II to the insulin secretory granule and by the identification of two secretory-relevant proteins, MAP-2 and synapsin I, as endogenous substrates in the beta-cell. Mechanistically, CaM kinase II appears to be involved in secretory steps proximal to granule fusion at the plasmalemma, and may facilitate protracted secretion through control of the interaction of granules with the cell cytoskeleton and their mobilization from intracellular synthesis sites. Through its unique regulatory properties, however, CaM kinase II is predicted to serve in more specialized aspects of the secretory process. In particular, the ability of CaM kinase II to remain active after cell stimulation is suggested to represent a mechanism by which releasable pools of granules are replenished between stimuli. [ABSTRACT FROM AUTHOR]

Published

1999

21. Downregulation of uncoupling protein 2 mRNA in white adipose tissue and uncoupling protein 3 mRNA in skeletal muscle during the early stages of leptin treatment.

Author

Combatsiaris, Terry P., Charron, Maureen J., Combatsiaris, T P, and Charron, M J

Subjects

MESSENGER RNA, PROTEINS, ADIPOSE tissues

Abstract

The mechanisms underlying the increase in energy expenditure during leptin treatment are not clear. We recently showed that a 5-h intravenous or intracerebroventricular infusion of leptin elevated basal glucose uptake in skeletal muscle (SM) and brown adipose tissue and increased whole-body glucose turnover in C57Bl/6J mice (Kamohara S, Burcelin R, Halaas JL, Friedman JM, Charron MJ: Acute stimulation of glucose metabolism in mice by leptin treatment. Nature 389:374-377, 1997). We extended the previous study by measuring steady-state levels of uncoupling protein (UCP)-2 mRNA and UCP-3 mRNA in white adipose tissue (WAT) and SM. Leptin by intravenous or intracerebroventricular infusion for 5 h was associated with a decrease in UCP-2 mRNA in WAT (47-52%) and UCP-3 mRNA in SM (33-37%). Because overexpression of UCP-2 or UCP-3 can depolarize the inner mitochondrial membrane, suppression of UCP-2 mRNA and UCP-3 mRNA may in fact lower respiratory demands in WAT and SM. This is consistent with the parallel suppression of cytochrome oxidase subunit IV (COX-IV) mRNA in WAT (35-39%) after leptin infusion. COX-IV mRNA in SM did not respond to acute leptin treatment. Mitochondrial inorganic phosphate carrier (P1C) mRNA was also suppressed in WAT (33-35%) by either method of leptin infusion, but only intravenous infusion of leptin reduced P1C mRNA in SM (40%). Denervation suppressed mRNA levels for UCP-2 (49%), UCP-3 (36%), and COX-IV (59%) and eliminated the acute response to leptin in SM. The comparable response to leptin under intravenous or intracerebroventricular infusion and the loss of responsiveness after denervation strongly suggest that the acute effects of leptin involve central signaling pathways. [ABSTRACT FROM AUTHOR]

Published

1999

22. Role of oxidative stress in diabetic complications.

Author

Baynes, John W. and Thorpe, Suzanne R.

Subjects

DIABETES complications, PHYSIOLOGICAL oxidation, PHYSIOLOGICAL stress

Abstract

Presents a perspective on the oxidative stress hypothesis on the origin of diabetic complications. Historical overview for advanced glycation end product (AGE) hypothesis; Explanation for increased glycoxidation and lipoxidation of tissue proteins in diabetes; Distinction between oxidative and carbonyl stress.

Published

1999

23. Localization of βII Subspecies of Protein Kinase C in β-Cells.

Author

Ito, Atsuko, Saito, Naoaki, Taniguchi, Hiroshi, Chiba, Tsutomu, Kikkawa, Ushio, Saitoh, Yoichi, and Tanaka, Chikako

Published

1989

24. Regulation of carnitine palmitoyltransferase synthesis in spontaneously diabetic BB Wistar rats.

Author

Brady, Linda J., Brady, Paul S., Brady, L J, and Brady, P S

Published

1989

25. High K+ rapidly stimulates Ca2+-dependent phosphorylation of three proteins concomitant with insulin secretion from HIT cells.

Author

Oberwetter, James M., Boyd III, A. E., Oberwetter, J M, and Boyd, A E 3rd

Published

1987

26. Increased adipose expression of the uncoupling protein-3 gene by thiazolidinediones in Wistar fatty rats and in cultured adipocytes.

Author

Matsuda, Junichi, Hosoda, Kiminori, Itoh, Hiroshi, Son, Cheol, Doi, Kentaro, Hanaoka, Ikuko, Inoue, Gen, Nishimura, Haruo, Yoshimasa, Yasunao, Yamori, Yukio, Odaka, Hiroyuki, Nakao, Kazuwa, Matsuda, J, Hosoda, K, Itoh, H, Son, C, Doi, K, Hanaoka, I, Inoue, G, and Nishimura, H

Subjects

DIAGNOSIS of diabetes, TYPE 2 diabetes

Abstract

Uncoupling protein (UCP) 3 and UCP2, mitochondrial carrier proteins dissipating electrochemical gradient across the mitochondrial inner membrane, have been implicated in the regulation of energy metabolism. The UCP3 gene is expressed abundantly in the skeletal muscle, while the UCP2 gene is detected in the white adipose tissue (WAT) with diffuse localization throughout the body. Uncoupling of electron transport and ATP synthesis has been reported to increase glucose uptake, suggesting that UCP may be involved in glucose metabolism. Thiazolidinediones (TZDs), which are insulin-sensitizing agents for NIDDM, have been reported to increase energy expenditure. To elucidate the pathophysiologic significance of UCP3 and UCP2 in the effect of TZDs on glucose metabolism and energy expenditure, we examined their basal mRNA levels in the WAT, brown adipose tissue (BAT), and skeletal muscle from Wistar fatty rats, a rat model of NIDDM and obesity with leptin receptor defect, and investigated expression of the genes encoding UCP3 and UCP2 in Wistar fatty rats and in Wistar lean rats with 2-week oral administration of 3 mg x kg(-1) x day(-1) pioglitazone, a TZD derivative. Basal UCP3 mRNA levels were significantly lower (38 +/- 8, 45 +/- 13, and 76 +/- 6%) in the retroperitoneal WAT, BAT, and skeletal muscle from Wistar fatty rats than in those from Wistar lean rats, while basal UCP2 mRNA levels were significantly higher by 2.1-, 1.8-, and 2.5-fold in the subcutaneous WAT, retroperitoneal WAT, and BAT from Wistar fatty rats, respectively, than in those from Wistar lean rats. In pioglitazone-treated Wistar fatty rats, UCP3 mRNA levels were significantly increased by 2.1-, 2.0-, and 1.6-fold in the epididymal WAT, retroperitoneal WAT, and BAT, respectively, as compared with those in nontreated fatty rats. In pioglitazone-treated lean rats, UCP3 mRNA levels were significantly increased by 1.3-fold in the BAT as compared with those in nontreated lean rats. No significant change of UCP2 mRNA levels was observed in pioglitazone-treated fatty and lean rats. In addition, to examine the direct effect of TZDs on adipocytes, we examined the regulation of UCP3 and UCP2 gene expression using the primary culture of rat mature adipocytes from Sprague-Dawley rats. In rat cultured mature adipocytes, UCP3 mRNA levels were increased in a dose-responsive manner by 10(-5) to 10(-4) mol/l pioglitazone, while there was no significant change of UCP2 mRNA levels. These results clearly demonstrate that UCP3 gene expression is upregulated by TZDs in the WAT and BAT in Wistar fatty rats, an obese model with leptin receptor defect, and that adipose UCP3 gene expression is increased in response to TZDs in vitro. The present study suggests the involvement of UCP3 in the effects of TZDs on energy and glucose metabolism. [ABSTRACT FROM AUTHOR]

Published

1998

27. Analysis of Candidate Genes for Susceptibility to Type I Diabetes.

Author

Owerbach, David, Naya, Francisco J., Ming-Jer Tsai, Allander, Susanne V., Powell, David R., and Gabbay, Kenneth H.

Published

1997

28. Proceedings of the 15th International Diabetes Federation Satellite Symposium on Diabetes and Macrovascular Complications. Suita City, Osaka, Japan, 12-13 November 1994.

Published

1996

29. Importance of nonionic signals for glucose-induced biphasic insulin secretion.

Author

Aizawa, Toru, Sato, Yoshihiko, and Komatsu, Mitsuhisa

Subjects

GLUCOSE, PROTEIN kinases

Abstract

Glucose induces biphasic insulin secretion by the islet beta-cell. Based on recent knowledge on glucose signaling in the beta-cell, the underlying mechanisms for this biphasicity could be envisaged as follows. Glucose-induced elevation of cytosolic free Ca(2+) concentration, which is due to the electrophysiological events that originate in closure of the ATP-sensitive K(+) (K(ATP)) channel, most likely triggers the first phase. The second phase is produced by gradual augmentation and potentiation of Ca(2+)-triggered insulin release by the K(ATP) channel-independent, nonionic signals. Protein acylation may be involved in the nonionic signaling. In patients lacking functional K(ATP) channels, however, the first phase of glucose-induced insulin secretion is clearly retained, casting doubt on the simplistic view outlined above. In this pathological condition, the K(ATP) channel-independent, most likely nonionic, glucose action alone is sufficient for the first-phase response. [ABSTRACT FROM AUTHOR]

Published

2002

30. No major role for the CTLA-4 gene in the association of autoimmune thyroid disease with IDDM.

Author

Djilali-Saiah, Idriss, Larger, Etienne, Harfouch-Hammoud, Elham, Timsit, Jose, Clerc, Jerome, Bertin, Eric, Assan, Roger, Boitard, Christian, Bach, Jean-Francoois, and Caillat-Zucman, Sophie

Subjects

AUTOIMMUNE thyroiditis, GENETICS of diabetes, GENETICS

Abstract

Examines the influence of CTLA-4 gene on the association of autoimmune thyroid disease on insulin-dependent diabetes mellitus (IDDM). Association of CTLA-4 expression on T-cells on the immune process; Stronger contribution of the CTLA-4 gene in polyendocrine patients than in patients with IDDM or Graves' disease; Interaction between CTLA-4 gene and HLA genes.

Published

1998

31. Association of CTLA-4 gene A-G polymorphism (IDDM12 locus) with acute-onset and insulin-depleted IDDM as well as autoimmune thyroid disease (Graves' disease and Hashimoto's thyroiditis) in the Japanese population.

Author

Awata, Takuya, Kurihara, Susumu, Iitaka, Makoto, Takei, Shin-ichiro, Inoue, Ikuo, Ishii, Chikara, Negishi, Kiyohiko, Izumida, Taro, Yoshida, Yoko, Hagura, Ryoko, Kuzuya, Nobuaki, Kanazawa, Yasunori, Katayama, Shigehiro, Awata, T, Kurihara, S, Iitaka, M, Takei, S, Inoue, I, Ishii, C, and Negishi, K

Subjects

GENETIC polymorphisms, GENETICS of diabetes, AUTOIMMUNE thyroiditis

Abstract

Analyzes CTLA-4 gene polymorphism in Japanese patients with insulin-dependent diabetes mellitus or autoimmune thyroid disease (AITD). Determination of the A-G transition polymorphism at position 49 by polymerase chain reaction; Increase in the frequency of the G allele in AITD patients; Influence of CTLA-4 gene polymorphism on a common autoimmune process.

Published

1998

32. Therapeutic impact of leptin on diabetes, diabetic complications, and longevity in insulin-deficient diabetic mice

Author

Naito, Masaki, Fujikura, Junji, Ebihara, Ken, Miyanaga, Fumiko, Yokoi, Hideki, Kusakabe, Toru, Yamamoto, Yuji, Son, Cheol, Mukoyama, Masashi, Hosoda, Kiminori, and Nakao, Kazuwa

Subjects

Diabetes -- Risk factors -- Research -- Complications and side effects, Leptin -- Physiological aspects -- Health aspects -- Research, Blood sugar -- Physiological aspects -- Research, Health

Abstract

OBJECTIVE--The aim of the current study was to evaluate the long-term effects of leptin on glucose metabolism, diabetes complications, and life span in an insulin-dependent diabetes model, the Akita mouse. RESEARCH DESIGN AND METHODS--We cross-mated Akita mice with leptin-expressing transgenic (LepTg) mice to produce Akita mice with physiological hyperleptinemia (LepTg:Akita). Metabolic parameters were monitored for 10 months. Pair-fed studies and glucose and insulin tolerance tests were performed. The pancreata and kidneys were analyzed histologically. The plasma levels and pancreatic contents of insulin and glucagon, the plasma levels of lipids and a marker of oxidative stress, and urinary albumin excretion were measured. Survival rates were calculated. RESULTS Akita mice began to exhibit severe hyperglycemia and hyperphagia as early as weaning. LepTg:Akita mice exhibited normoglycemia after an extended fast even at 10 months of age. The 6-h fasting blood glucose levels in LepTg:Akita mice remained about half the level of Akita mice throughout the study. Food intake in LepTg:Akita mice was suppressed to a level comparable to that in WT mice, but pair feeding did not affect blood glucose levels in Akita mice. LepTg:Akita mice maintained insulin hypersensitivity and displayed better glucose tolerance than did Akita mice throughout the follow-up. LepTg:Akita mice had normal levels of plasma glucagon, a marker of oxidative stress, and urinary albumin excretion rates. All of the LepTg:Akita mice survived for > 12 months, the median mortality time of Akita mice. CONCLUSIONS--These results indicate that leptin is therapeutically useful in the long-term treatment of insulin-deficient diabetes. Diabetes 60:2265-2273, 2011, Leptin is an adipocyte-derived hormone that is involved in the regulation of food intake and energy expenditure (1). We previously created transgenic mice that overexpress leptin under the control of [...]

Published

2011

33. Restitution of defective glucose-stimulated insulin secretion in diabetic GK rat by acetylcholine uncovers paradoxical stimulatory effect of β-cell muscarinic receptor activation on cAMP production

Author

Dolz, Manuel, Bailbe, Danielle, Giroix, Marie-Helene, Calderari, Sophie, Gangnerau, Marie-Noelle, Serradas, Patricia, Rickenbach, Katharina, Irminger, Jean-Claude, and Portha, Bernard

Subjects

Protein kinases -- Research -- Health aspects, Blood sugar -- Health aspects -- Research, Type 2 diabetes -- Diagnosis -- Drug therapy -- Research, Health, Drug therapy, Diagnosis, Research, Health aspects

Abstract

Because acetylcholine (ACh) is a recognized potentiator of glucose-stimulated insulin release in the normal β-cell, we have studied ACh's effect on islets of the Goto-Kakizaki (GK) rat, a spontaneous model of type 2 diabetes. We first verified that ACh was able to restore the insulin secretory glucose competence of the GK β-cell. Then, we demonstrated that in GK islets 1) ACh elicited a first-phase insulin release at low glucose, whereas it had no effect in Wistar; 2) total phospholipase C activity, ACh-induced inositol phosphate production, and intracellular free calcium concentration ([[Ca.sup.2+]].sub.i]) elevation were normal; 3) ACh triggered insulin release, even in the presence of thapsigargin, which induced a reduction of the ACh-induced [[Ca.sup.2+]].sub.i] response (suggesting that ACh produces amplification signals that augment the efficacy of elevated [[Ca.sup.2+]].sub.i] on GK exocytosis); 4) inhibition of protein kinase C did not affect [[Ca.sup.2+]].sub.i] nor the insulin release responses to ACh; and 5) inhibition of cAMP-dependent protein kinases (PKAs), adenylyl cyclases, or cAMP generation, while not affecting the [[Ca.sup.2+]].sub.i] response, significantly lowered the insulinotropic response to ACh (at low and high glucose). In conclusion, ACh acts mainly through activation of the cAMP/PKA pathway to potently enhance [Ca.sup.2+]-stimulated insulin release in the GK β-cell and, in doing so, normalizes its defective glucose responsiveness., Cholinergic muscarinic agonists, including the endogenous neurotransmitter acetylcholine (ACh) and the synthetic nonhydrolyzable analog carbachol, are known to enhance glucose-stimulated insulin secretion by the normal β-cell (1). ACh is released [...]

Published

2005

34. Fast and cAMP-sensitive mode of [Ca.sup.2+]-dependent exocytosis in pancreatic β-cells

Author

Kasai, Haruo, Suzuki, Tomoyuki, Liu, Ting-Ting, Kishimoto, Takuya, and Takahashi, Noriko

Subjects

Biological transport -- Research -- Physiological aspects, Diabetes -- Research, Pancreatic beta cells -- Physiological aspects -- Research, Insulin -- Research, Health, Physiological aspects, Research

Abstract

The fast component (mode 1) of [Ca.sup.2+]-dependent exocytosis in pancreatic β-cells, unlike that in adrenal chromaffin cells, is regulated by cytosolic ATP in a concentration-dependent manner. This action of ATP [...]

Published

2002

35. Imidazoline compounds stimulate insulin release by inhibition of KATP channels and interaction with the exocytotic machinery

Author

Zaitsev, Sergei V., Efanov, Alexandre M., Efanova, Ioulia B., Larsson, Olof, Osteson, Claes-Goran, Gold, Gerald, Berggren, Per-Olof, and Efendic, Suad

Subjects

Potassium channels -- Measurement, Pancreas -- Secretions, Insulin -- Measurement, Health, Measurement

Abstract

A novel imidazoline compound, RX871024, was used to investigate the mechanisms by which imidazoline derivatives promote insulin secretion in rat pancreatic β-cells and HIT T15 cells. RX871024 stimulated insulin release [...]

Published

1996

36. Quantitative and qualitative derangement of apolipoprotein B-containing lipoproteins as a risk factor for diabetic macroangiopathy in nonobese NIDDM subjects

Author

Harano, Yutaka, Kageyama, Aritsune, Nakao, Yasuhiko, Hara, Yasushi, Suzuki, Masaaki, Sato, Akira, Ikebuchi, Motoyoshi, Shinozaki, Kazuya, and Tsushima, Motoo

Subjects

Blood lipoproteins -- Physiological aspects -- Analysis, Proteolipids -- Physiological aspects -- Analysis, Apolipoproteins -- Analysis -- Physiological aspects, Lipoproteins -- Physiological aspects -- Analysis, Type 2 diabetes -- Complications and side effects, Health, Physiological aspects, Analysis, Complications and side effects

Abstract

Cholesterol, triglyceride (TG), and apolipoprotein (apo) B were determined in plasma and in lipoprotein subfractions (VLDL, intermediate-density lipoproteins [IDL], LDL, and HDL) in nonobese NIDDM subjects, who were classified into [...]

Published

1996

37. Effects of insulin on diacylglycerol-protein kinase C signaling in rat diaphragm and soleus muscles and relationship to glucose transport

Author

Ishizuka, Tatsuo, Cooper, Denise R., Hernandez, Herman, Buckley, Donna, Standaert, Mary, and Farese, Robert V.

Subjects

Protein kinases -- Physiological aspects, Insulin -- Physiological aspects, Glucose metabolism -- Physiological aspects, Health, Physiological aspects

Abstract

Insulin was found to provoke rapid increases in diacylglycerol (DAG) content and [[.sup.3H]]glycerol incorporation into DAG and other lipids during incubations of rat hemidiaphragms and soleus muscles. Insulin also rapidly [...]

Published

1990

38. Β-Cell Glucokinase Deficiency and Hyperglycemia Are Associated With Reduced Islet Amyloid Deposition in a Mouse Model of Type 2 Diabetes

Author

Andrikopoulos, Sofianos, Verchere, C. Bruce, Terauchi, Yasuo, Kadowaki, Takashi, and Kahn, Steven E.

Subjects

Amyloidosis -- Research -- Physiological aspects, Type 2 diabetes -- Research -- Physiological aspects, Hyperglycemia -- Physiological aspects -- Research, Health, Physiological aspects, Research

Abstract

Type 2 diabetes is characterized by impaired Β-cell function, hyperglycemia, and islet amyloid deposition. The primary constituent of islet amyloid is the 37-amino acid Β-cell product called islet amyloid polypeptide [...]

Published

2000

39. Uncoupling Proteins 2 and 3: Potential Regulators of Mitochondrial Energy Metabolism

Author

Boss, Olivier, Hagen, Thilo, and Lowell, Bradford B.

Subjects

Bioenergetics -- Physiological aspects, Energy metabolism -- Physiological aspects, Mitochondria -- Physiological aspects, Health, Physiological aspects

Abstract

Mitochondria use energy derived from fuel combustion to create a proton electrochemical gradient across the mitochondrial inner membrane. This intermediate form of energy is then used by ATP synthase to [...]

Published

2000

40. Localization of betaII subspecies of protein kinase C in beta-cells

Author

Ito, Atsuko, Saito, Naoaki, Taniguchi, Hiroshi, Chiba, Tsutomu, Kikkawa, Ushio, Saitoh, Yoichi, and Tanaka, Chikako

Subjects

Pancreatic beta cells -- Physiological aspects, Protein kinases -- Physiological aspects, Insulin -- Physiological aspects, Health, Physiological aspects

Abstract

Protein kinase C (PKC) has been generally accepted to play a key role in stimulus-response coupling in various secretory cells, including pancreatic islets and pancreatic acini. The enzyme exists as [...]

Published

1989