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5. Effects of acute and chronic attenuation of postprandial hyperglycemia on postglucose-load endothelial function in insulin resistant individuals: is stimulation of first phase insulin secretion beneficial for the endothelial function?

Author

Major-Pedersen, A, Ihlemann, N, Hermann, T S, Christiansen, B, Kveiborg, B., Dominguez, H, Nielsen, D, Rask-Madsen, C, Svendsen, O L, Køber, L, Torp-Pedersen, C, Major-Pedersen, A, Ihlemann, N, Hermann, T S, Christiansen, B, Kveiborg, B., Dominguez, H, Nielsen, D, Rask-Madsen, C, Svendsen, O L, Køber, L, and Torp-Pedersen, C

Abstract

Udgivelsesdato: 2008-Sep, The aim of the study is to determine if attenuation of postprandial hyperglycemia, by acutely and chronically enhancing postprandial insulin secretion in insulin-resistant individuals, improves the endothelial dysfunction. We assessed postoral glucose-load endothelial function in 56 insulin-resistant subjects with the Flow-Mediated-Dilation (FMD) technique. We randomized subjects to intervention/control group, and examined the acute and chronic effect of nateglinide, an oral antidiabetic drug of rapid action. In the intervention group, postoral glucose-load (post-OGL) FMD delta values deteriorated when compared to pre-OGL values, most significantly at 3 h post-OGL, on the following days: on the first study day termed "Baseline day" (p=0.04); on both days after 3 months of nateglinide treatment [with nateglinide administered on study-day "acute+chronic" (p=0.01); and without nateglinide on study-day "Closing day", p=0.001]. Post-OGL changes in the control group were nonsignificant both at Baseline and on Closing day. After a single dose of nateglinide "Acute day", post-OGL FMD deterioration was abolished. There was an increment in post-OGL FMD delta values most significant at 2 h post-OGL (p=0.02). Insulin concentrations increased while glucose concentrations decreased on study-days with nateglinide when compared to study-days without (p=<0.001 for both insulin and glucose). Comparisons for insulin and glucose concentrations between days with nateglinide, and likewise between days without, showed no significant difference. Postglucose load endothelial dysfunction can be prevented by administration of nateglinide, however, after 3 months of nateglinide treatment, this effect is abolished. Chronically increased insulin secretion could counteract the initial beneficial effect of reduced glucose excursions. We found no relationship between postprandial hyperglycemia and post-OGL FMD.

Published
2008

6. Activation of vascular protein kinase C beta inhibits Akt-dependent endothelial nitric oxide synthase function in obesity-associated insulin resistance.

Author

Naruse, K., Rask-Madsen, C., Takahara, N., Ha, S.W., Suzuma, K., Way, K., Opland, J.R.C., Clermont, A.C., Kohjiro, U., Ohshiro, Y., Zhang, J., Goldfine, A.B., King, G.L., Naruse, K., Rask-Madsen, C., Takahara, N., Ha, S.W., Suzuma, K., Way, K., Opland, J.R.C., Clermont, A.C., Kohjiro, U., Ohshiro, Y., Zhang, J., Goldfine, A.B., and King, G.L.

Abstract

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Published
2006

10. Normal insulin-stimulated endothelial function and impaired insulin-stimulated muscle glucose uptake in young adults with low birth weight

Author

Hermann, T S, Rask-Madsen, C, Ihlemann, N, Domínguez, H, Jensen, C B, Storgaard, H, Vaag, A A, Kober, L, Torp-Pedersen, C, Hermann, T S, Rask-Madsen, C, Ihlemann, N, Domínguez, H, Jensen, C B, Storgaard, H, Vaag, A A, Kober, L, and Torp-Pedersen, C

Abstract

Udgivelsesdato: 2003-Mar, Low birth weight has been linked to insulin resistance and cardiovascular disease. We hypothesized that insulin sensitivity of both muscle and vascular tissues were impaired in young men with low birth weight. Blood flow was measured by venous occlusion plethysmography during dose-response studies of acetylcholine and sodium nitroprusside in the forearm of fourteen 21-yr-old men with low birth weight and 16 controls of normal birth weight. Glucose uptake was measured during intraarterial insulin infusion. Dose-response studies were repeated during insulin infusion. The maximal blood flow during acetylcholine infusion was 14.1 +/- 2.7 and 14.4 +/- 2.1 [ml x (100 ml forearm)(-1) x min(-1)] in low and normal birth weight subjects, respectively. Insulin coinfusion increased acetylcholine-stimulated flow in both groups: 18.0 +/- 3.1 vs. 17.9 +/- 3.1 [ml x (100 ml forearm)(-1) x min(-1)], NS. Insulin infusion increased glucose uptake significantly in the normal birth weight group, compared with the low birth weight group: 0.40 +/- 0.09 to 1.00 +/- 0.16 vs. 0.44 +/- 0.09 to 0.59 +/- 0.1 [ micro mol glucose x (100 ml forearm)(-1) x min(-1)], P = 0.04. Young men with low birth weight have normal insulin-stimulated endothelial function and impaired insulin-stimulated forearm glucose uptake. Thus, endothelial dysfunction does not necessarily coexist with metabolic alterations in subjects with low birth weight.

Published
2003

11. Prognostic value of exercise testing in a cohort of patients followed for 15 years after acute myocardial infarction

Author

Domínguez, H., Torp-Pedersen, C., Koeber, L., Rask-Madsen, C., Domínguez, H., Torp-Pedersen, C., Koeber, L., and Rask-Madsen, C.

Abstract

Aims: To study the long-term prognostic information obtained from an exercise test following an acute myocardial infarction. Methods: Between 1979 and 1983, 1773 consecutive patients were admitted to Glostrup County Hospital with an acute myocardial infarction. Of 1430 patients who were alive after 3 weeks, 718 performed an exercise test. Survival data were available after 15 years for all patients. Results: Participation in an exercise test was associated with a risk reduction of death of 56% (95% confidence interval, 49-65%) when adjusting for known differences between the groups. Among patients who performed the test, most indicators of ischaemia were without prognostic information. Exercise tolerance, expressed in metabolic equivalents, was the best predictor of future mortality (relative risk 0.86 for an increase of one metabolic equivalent (0·80-0·92)). Only ST-segment depression of 2 mm or more could identify a population with an increased risk of death (relative risk 1·45 (1·08-1·95)). Conclusion: Patients who perform an exercise test after acute myocardial infarction are a low risk population compared to those who do not perform it. The detection of ischaemia during the test is of marginal prognostic value. Exercise capacity is the most powerful predictor of death that can be obtained from the test.

Published
2001

13. Effects of Acute and Chronic Attenuation of Postprandial Hyperglycemia on Postglucose-load Endothelial Function in Insulin Resistant Individuals: Is Stimulation of First Phase Insulin Secretion Beneficial for the Endothelial Function?

Author

Major-Pedersen, A., primary, Ihlemann, N., additional, Hermann, T., additional, Christiansen, B., additional, Kveiborg, B., additional, Dominguez, H., additional, Nielsen, D., additional, Rask-Madsen, C., additional, Svendsen, O., additional, Køber, L., additional, and Torp-Pedersen, C., additional

Published
2008
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15. Age-related mortality, clinical heart failure, and ventricular fibrillation in 4259 Danish patients after acute myocardial infarction

Author

Rask-Madsen, C, Jensen, G, Køber, L, Melchior, T, Torp-Pedersen, C, Hildebrand, P, Rask-Madsen, C, Jensen, G, Køber, L, Melchior, T, Torp-Pedersen, C, and Hildebrand, P

Abstract

Udgivelsesdato: 1997-Sep, AIMS: To evaluate the prognosis of patients > or = 80 years old, we analysed a large, community-based population with acute myocardial infarction who received intensive observation and similar pharmacotherapy regardless of age. METHODS AND RESULTS: In a 12-year period, before the introduction of thrombolysis, 4259 consecutive patients hospitalized with acute myocardial infarction from the same hospital in Denmark were prospectively registered. Their complications and mortality in hospital, and 1 and 5 years after discharge were analysed retrospectively. Overall, in-hospital mortality was 11% for patients less than < 50 years old, 22% for patients 60-69 years old and 43% for patients > or = 80 years old. Two thirds of patients > or = 80 years old had heart failure, and cardiogenic shock was twice as common in this age group than in patients 60-69 years. Heart failure was a strong independent risk, factor for post-discharge mortality, particularly in the oldest age groups. Four out of eight patients > or = 80 years survived one year if discharged alive after experiencing in-hospital ventricular fibrillation. CONCLUSION: The life-saving potential of preventing or treating heart failure seems considerable even in the oldest patient groups. Patients > or = 80 years old who survive in-hospital ventricular fibrillation have an acceptable prognosis 1 year post-discharge.

Published
1997

17. Protective effects of GLP-1 on glomerular endothelium and its inhibition by PKCβ activation in diabetes.

Author

Mima A, Hiraoka-Yamomoto J, Li Q, Kitada M, Li C, Geraldes P, Matsumoto M, Mizutani K, Park K, Cahill C, Nishikawa S, Rask-Madsen C, King GL, Mima, Akira, Hiraoka-Yamomoto, Junko, Li, Qian, Kitada, Munehiro, Li, Chenzhong, Geraldes, Pedro, and Matsumoto, Motonobu

Subjects
DIABETES complications, THERAPEUTIC use of venom, DIABETIC nephropathies, ANIMAL experimentation, ANIMALS, CELL receptors, CELLS, CELLULAR signal transduction, DIABETES, ENDOTHELIUM, GENES, HYPOGLYCEMIC agents, KIDNEY glomerulus, RESEARCH methodology, MICE, PEPTIDES, RESEARCH funding, TISSUE culture, TRANSFERASES, ANGIOTENSIN II, CHEMICAL inhibitors, PREVENTION, THERAPEUTICS
Abstract

To characterize glucagon-like peptide (GLP)-1 signaling and its effect on renal endothelial dysfunction and glomerulopathy. We studied the expression and signaling of GLP-1 receptor (GLP-1R) on glomerular endothelial cells and the novel finding of protein kinase A-dependent phosphorylation of c-Raf at Ser259 and its inhibition of angiotensin II (Ang II) phospho-c-Raf(Ser338) and Erk1/2 phosphorylation. Mice overexpressing protein kinase C (PKC)β2 in endothelial cells (EC-PKCβ2Tg) were established. Ang II and GLP-1 actions in glomerular endothelial cells were analyzed with small interfering RNA of GLP-1R. PKCβ isoform activation induced by diabetes decreased GLP-1R expression and protective action on the renal endothelium by increasing its degradation via ubiquitination and enhancing phospho-c-Raf(Ser338) and Ang II activation of phospho-Erk1/2. EC-PKCβ2Tg mice exhibited decreased GLP-1R expression and increased phospho-c-Raf(Ser338), leading to enhanced effects of Ang II. Diabetic EC-PKCβ2Tg mice exhibited greater loss of endothelial GLP-1R expression and exendin-4-protective actions and exhibited more albuminuria and mesangial expansion than diabetic controls. These results showed that the renal protective effects of GLP-1 were mediated via the inhibition of Ang II actions on cRaf(Ser259) and diminished by diabetes because of PKCβ activation and the increased degradation of GLP-1R in the glomerular endothelial cells. [ABSTRACT FROM AUTHOR]

Published
2012
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18. Activation of vascular protein kinase C-beta inhibits Akt-dependent endothelial nitric oxide synthase function in obesity-associated insulin resistance.

Author

Naruse K, Rask-Madsen C, Takahara N, Ha S, Suzuma K, Way KJ, Jacobs JRC, Clermont AC, Ueki K, Ohshiro Y, Zhang J, Goldfine AB, King GL, Naruse, Keiko, Rask-Madsen, Christian, Takahara, Noriko, Ha, Sung-woo, Suzuma, Kiyoshi, Way, Kerrie J, and Jacobs, Judith R C

Abstract

Activation of protein kinase C (PKC) in vascular tissue is associated with endothelial dysfunction and insulin resistance. However, the effect of vascular PKC activation on insulin-stimulated endothelial nitric oxide (NO) synthase (eNOS) regulation has not been characterized in obesity-associated insulin resistance. Diacylglycerol (DAG) concentration and PKC activity were increased in the aorta of Zucker fatty compared with Zucker lean rats. Insulin-stimulated increases in Akt phosphorylation and cGMP concentration (a measure of NO bioavailability) after euglycemic-hyperinsulinemic clamp were blunted in the aorta of fatty compared with lean rats but were partly normalized after 2 weeks of treatment with the PKCbeta inhibitor ruboxistaurin (LY333531). In endothelial cell culture, overexpression of PKCbeta1 and -beta2, but not PKCalpha, -delta, or -zeta, decreased insulin-stimulated Akt phosphorylation and eNOS expression. Overexpression of PKCbeta1 and -beta2, but not PKCalpha or -delta, also decreased Akt phosphorylation stimulated by vascular endothelial growth factor (VEGF). In microvessels isolated from transgenic mice overexpressing PKCbeta2 only in vascular cells, Akt phosphorylation stimulated by insulin was decreased compared with wild-type mice. Thus, activation of PKCbeta in endothelial cells and vascular tissue inhibits Akt activation by insulin and VEGF, inhibits Akt-dependent eNOS regulation by insulin, and causes endothelial dysfunction in obesity-associated insulin resistance. [ABSTRACT FROM AUTHOR]

Published
2006
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20. The prognostic importance of creatinine clearance after acute myocardial infarction.

Author

Sørensen, C.R., Brendorp, B., Rask-Madsen, C., Køber, L., Kjøller, E., and Torp-Pedersen, C.

Abstract

Aims The purpose of this study was to assess renal dysfunction as an independent predictor of mortality after acute myocardial infarction.Methods The study population was 6252 patients with a myocardial infarction admitted alive from 1990 to 1992. The mortality status was obtained after at least 6 years.Results Cox proportional-hazards model demonstrated that the unadjusted risk ratio associated with a calculated creatinine clearance ≤40ml.min−1 compared to a clearance above 85ml.min−1 was 7·1 (95% confidence interval 6·2–8·0). Adjustment for multiple available covariates reduced this risk to 2·0 (1·6–2·4). The unadjusted risk ratio associated with clearance from 41 to 55ml.min−1 and from 71 to 85ml.min−1 was 3·7 (3·3–4·2) and 1·5 (1·3–1·7) respectively, but after adjustment for all available variables these risks were reduced to 1·4 (1·2–1·6) and 1·1 (0·9–1·3) respectively.Conclusion Renal dysfunction is an important risk factor after acute myocardial infarction. When the risk is adjusted for available competing risk factors only severely reduced renal function is associated with an important and independent risk of mortality after acute myocardial infarction. The risk of a moderate reduction in renal function is almost fully explained by an association with other conditions. [ABSTRACT FROM PUBLISHER]

Published
2002

21. Insulin therapy improves insulin-stimulated endothelial function in patients with type 2 diabetes and ischemic heart disease.

Author

Rask-Madsen, Christian, Ihlemann, Nikolaj, Krarup,, Thure, Christiansen, Erik, Kober, Lars, Torp-Pedersen, Christian, Rask-Madsen, C, Ihlemann, N, Krarup, T, Christiansen, E, Kober, L, Nervil Kistorp, C, and Torp-Pedersen, C

Subjects
DIABETES, CORONARY disease, INSULIN, GLUCOSE, METABOLISM, BLOOD sugar analysis, CORONARY heart disease complications, INSULIN therapy, TYPE 2 diabetes complications, ACETYLCHOLINE, COMPARATIVE studies, DOSE-effect relationship in pharmacology, ENDOTHELIUM, RESEARCH methodology, MEDICAL cooperation, TYPE 2 diabetes, REFERENCE values, RESEARCH, SODIUM nitroferricyanide, VASODILATORS, EVALUATION research, PHARMACODYNAMICS
Abstract

Blunted insulin-stimulated endothelial function may be a mechanism for the development of atherothrombotic disease in type 2 diabetes, but it is unknown whether hypoglycemic drug therapy can modulate this abnormality. We studied patients with type 2 diabetes and stable ischemic heart disease (n = 28) and lean, healthy control subjects (n = 31). Forearm blood flow was measured by venous occlusion plethysmography during dose-response studies of acetylcholine (ACh) and sodium nitroprusside (SNP) infused into the brachial artery. In the patients and 10 healthy control subjects, ACh was repeated after intrabrachial infusion of insulin. Patients were restudied after 2 months of insulin therapy with four daily subcutaneous injections (treatment group, n = 19) or without hypoglycemic drug therapy (time control group, n = 9). Insulin infusion raised venous serum insulin in the forearm to high physiological levels (133 +/- 14.6 mU/l in patients) with a minor increase in systemic venous serum insulin. This increased the ACh response by 149 +/- 47, 110 +/- 33, 100 +/- 45, and 106 +/- 44% during the four ACh doses in healthy control subjects (P < 0.0001) but had no effect in patients (P = 0.3). After 2 months, HbA(1c) in the treatment group had decreased from 10.0 +/- 0.4 to 7.5 +/- 0.2%. Although neither the ACh response (P = 0.09) nor the SNP response (P = 0.4) had changed significantly, insulin stimulation had a significant effect, as the ACh response increased by 58 +/- 25, 84 +/- 66, 120 +/- 93, and 69 +/- 36% (P = 0.0002). In the time control group, insulin stimulation remained without effect after 8 weeks (P = 0.7). In conclusion, insulin therapy partly restores insulin-stimulated endothelial function in patients with type 2 diabetes and ischemic heart disease. [ABSTRACT FROM AUTHOR]

Published
2001
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22. Prognostic value of exercise testing in a cohort of patients followed for 15 years after acute myocardial infarction.

Author

Domínguez, H, Torp-Pedersen, C, Koeber, L, and Rask-Madsen, C

Abstract

Aims To study the long-term prognostic information obtained from an exercise test following an acute myocardial infarction.Methods Between 1979 and 1983, 1773 consecutive patients were admitted to Glostrup County Hospital with an acute myocardial infarction. Of 1430 patients who were alive after 3 weeks, 718 performed an exercise test. Survival data were available after 15 years for all patients.Results Participation in an exercise test was associated with a risk reduction of death of 56% (95% confidence interval, 49–65%) when adjusting for known differences between the groups. Among patients who performed the test, most indicators of ischaemia were without prognostic information. Exercise tolerance, expressed in metabolic equivalents, was the best predictor of future mortality (relative risk 0·86 for an increase of one metabolic equivalent (0·80–0·92)). Only ST-segment depression of 2mm or more could identify a population with an increased risk of death (relative risk 1·45 (1·08–1·95)).Conclusion Patients who perform an exercise test after acute myocardial infarction are a low risk population compared to those who do not perform it. The detection of ischaemia during the test is of marginal prognostic value. Exercise capacity is the most powerful predictor of death that can be obtained from the test. [ABSTRACT FROM PUBLISHER]

Published
2001

23. The impact of heart failure on prognosis of diabetic and non-diabetic patients with myocardial infarction: a 15-year follow-up study.

Author

Melchior, Thomas, Rask-Madsen, Christian, Torp-Pedersen, Christian, Hildebrandt, Per, Køber, Lars, Jensen, Gunnar, Melchior, T, Rask-Madsen, C, Torp-Pedersen, C, Hildebrandt, P, Køber, L, and Jensen, G

Subjects
HEART failure, DIABETES, PEOPLE with diabetes, MYOCARDIAL infarction, ARRHYTHMIA, ELECTROCARDIOGRAPHY, PROGNOSIS, DIABETES complications, MYOCARDIAL infarction complications, MYOCARDIAL infarction-related mortality, CHI-squared test, LONGITUDINAL method, NONPARAMETRIC statistics, SURVIVAL analysis (Biometry), DISEASE incidence, PROPORTIONAL hazards models, RETROSPECTIVE studies, DISEASE complications
Abstract

Background: Information about the occurrence of heart failure in the acute phase of myocardial infarction (MI) in diabetic patients and its impact on prognosis are sparse.Aim: The purpose of the present study was to describe how MI patients with diabetes mellitus (DM) differed from MI patients without DM with respect to the occurrence of heart failure and with respect to the influence of heart failure on mortality during follow-up 30 days extending to 15 years.Methods: The study is a retrospective long-term follow-up of prospectively recorded data concerning 1954 consecutive cases of MI admitted to one coronary care unit (CCU) between 1979 and 1983. DM was diagnosed in 10% (n=194), with 17% (n=33) on insulin therapy. Patients with DM comprised of a higher proportion of women (DM 36% vs. no DM 26%, P<0.001) compared with non-diabetic patients. Baseline risk factors were more prevalent in the patients with DM. The cumulative incidence of heart failure was higher among patients with than without DM (DM 54% vs. no DM 34%, P<0.001). The incidence of life-threatening arrhythmias were similar in both groups. Only 2% of patients with DM and heart failure survived 10 years of follow-up compared with 15% of the non-diabetic patients with heart failure (P<0.001). In multivariate analysis DM was not independently associated with 30 days mortality. During long-term follow-up DM was an important risk factor for mortality independent on the presence of heart failure.Conclusion: DM disposes to the development of heart failure. In acute myocardial infarction diabetic patients with heart failure have a worse prognosis than non-diabetic patients with heart failure. [ABSTRACT FROM AUTHOR]

Published
2001
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28. Diabetes mellitus and cardiovascular risk: just another risk factor?

Author

Torp-Pedersen, C., Rask-Madsen, C., Gustafsson, I., Gustafsson, F., and Køber, L.

Abstract

Patients with type 2 diabetes are at increased risk of developing cardiovascular disease. Also, individuals with cardiovascular disease have a poorer prognosis if they are diagnosed with type 2 diabetes. The coexistence of these two disorders increases the risk for morbidity and mortality from large- and small-vessel disease. The importance of dysfunctional glucose metabolism is apparent even at the earliest stages of vascular disease, with insulin resistance contributing to or arising from endothelial dysfunction. In the clinical setting, antihypertensive treatment. Produces proportionally greater benefits in patients with type 2 diabetes than in non-diabetic individuals, and treatments that lower blood glucose reduce the risk of cardiovascular complications. As more becomes known about the inter-relationship of glycometabolic control and cardiovascular disease, the aetiology, pathology and treatment of the two diseases are becoming increasingly entwined. The present review summarizes the importance of type 2 diabetes in cardiovascular disease and discusses some of the therapeutic implications that arise from newly emerging data. [Copyright &y& Elsevier]

Published
2003

29. A reply.

Author

Domínguez, H., Torp-Pedersen, C., Kober, L., and Rask-Madsen, C.

Published
2001

30. Glomerular-specific protein kinase C-β-induced insulin receptor substrate-1 dysfunction and insulin resistance in rat models of diabetes and obesity.

Author

Mima A, Ohshiro Y, Kitada M, Matsumoto M, Geraldes P, Li C, Li Q, White GS, Cahill C, Rask-Madsen C, King GL, Mima, Akira, Ohshiro, Yuzuru, Kitada, Munehiro, Matsumoto, Motonobu, Geraldes, Pedro, Li, Chenzhong, Li, Qian, White, Gregory S, and Cahill, Christopher

Abstract

Insulin resistance has been associated with the progression of chronic kidney disease in both diabetes and obesity. In order to determine the cellular mechanisms contributing to this, we characterized insulin signaling in renal tubules and glomeruli during diabetic and insulin-resistant states using streptozotocin-diabetic and Zucker fatty-insulin-resistant rats. Compared with nondiabetic and Zucker lean rats, the insulin-induced phosphorylation of insulin receptor substrate-1 (IRS1), Akt, endothelial nitric oxide synthase, and glycogen synthase kinase 3α were selectively inhibited in the glomeruli but not in the renal tubules of both respective models. Protein, but not mRNA levels of IRS1, was decreased only in the glomeruli of streptozotocin-diabetic rats likely due to increased ubiquitination. Treatment with the protein kinase C-β inhibitor, ruboxistaurin, enhanced insulin actions and elevated IRS1 expression. In glomerular endothelial cells, high glucose inhibited the phosphorylation of Akt, endothelial nitric oxide synthase, and glycogen synthase kinase 3α; decreased IRS1 protein expression and increased its association with ubiquitin. Overexpression of IRS1 or the addition of ruboxistaurin reversed the inhibitory effects of high glucose. Thus, loss of insulin's effect on endothelial nitric oxide synthase and glycogen synthase kinase 3α activation may contribute to the glomerulopathy observed in diabetes and obesity. [ABSTRACT FROM AUTHOR]

Published
2011
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31. Effects of Quinidine or Rifampin Co-administration on the Single-Dose Pharmacokinetics and Safety of Rilzabrutinib (PRN1008) in Healthy Participants.

Author

Rask-Madsen C, Katragadda S, Li M, Ucpinar S, Chinn L, Arora P, and Smith P

Subjects
Humans, Adult, Male, Female, Young Adult, Middle Aged, Cytochrome P-450 CYP3A Inducers pharmacology, Cytochrome P-450 CYP3A Inducers administration & dosage, Cytochrome P-450 CYP3A Inducers adverse effects, Cytochrome P-450 CYP3A metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Administration, Oral, Pyrimidines administration & dosage, Pyrimidines pharmacokinetics, Pyrimidines adverse effects, Rifampin administration & dosage, Rifampin adverse effects, Quinidine administration & dosage, Quinidine adverse effects, Quinidine pharmacology, Quinidine pharmacokinetics, Drug Interactions, Healthy Volunteers, Area Under Curve
Abstract

This open-label, phase 1 study was conducted with healthy adult participants to evaluate the potential drug-drug interaction between rilzabrutinib and quinidine (an inhibitor of P-glycoprotein [P-gp] and CYP2D6) or rifampin (an inducer of CYP3A and P-gp). Plasma concentrations of rilzabrutinib were measured after a single oral dose of rilzabrutinib 400 mg administered on day 1 and again, following a wash-out period, after co-administration of rilzabrutinib and quinidine or rifampin. Specifically, quinidine was given at a dose of 300 mg every 8 hours for 5 days from day 7 to day 11 (N = 16) while rifampin was given as 600 mg once daily for 11 days from day 7 to day 17 (N = 16) with rilzabrutinib given in the morning of day 10 (during quinidine dosing) or day 16 (during rifampin dosing). Quinidine had no significant effect on rilzabrutinib pharmacokinetics. Rifampin decreased rilzabrutinib exposure (the geometric mean of C max and AUC 0-∞ decreased by 80.5% and 79.5%, respectively). Single oral doses of rilzabrutinib, with or without quinidine or rifampin, appeared to be well tolerated. These findings indicate that rilzabrutinib is a substrate for CYP3A but not a substrate for P-gp., (© 2024 Sanofi. Clinical Pharmacology in Drug Development published by Wiley Periodicals LLC on behalf of American College of Clinical Pharmacology.)

Published
2024
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32. Endothelial Cell Insulin Signaling Regulates CXCR4 (C-X-C Motif Chemokine Receptor 4) and Limits Leukocyte Adhesion to Endothelium.

Author

Rathjen T, Kunkemoeller B, Cederquist CT, Wang X, Lockhart SM, Patti JC, Willenbrock H, Olsen GS, Povlsen GK, Beck HC, Rasmussen LM, Li Q, Park K, King GL, and Rask-Madsen C

Subjects
Animals, Chemokine CXCL12 genetics, Chemokine CXCL12 metabolism, Endothelial Cells metabolism, Endothelium metabolism, Insulin, Leukocytes metabolism, Mice, Obesity metabolism, Phosphatidylinositol 3-Kinases metabolism, Receptors, CXCR4 genetics, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 metabolism, Insulin Resistance, Receptors, CXCR4 metabolism
Abstract

Background: An activated, proinflammatory endothelium is a key feature in the development of complications of obesity and type 2 diabetes and can be caused by insulin resistance in endothelial cells., Methods: We analyzed primary human endothelial cells by RNA sequencing to discover novel insulin-regulated genes and used endothelial cell culture and animal models to characterize signaling through CXCR4 (C-X-C motif chemokine receptor 4) in endothelial cells., Results: CXCR4 was one of the genes most potently regulated by insulin, and this was mediated by PI3K (phosphatidylinositol 3-kinase), likely through FoxO1, which bound to the CXCR4 promoter. CXCR4 mRNA in CD31+ cells was 77% higher in mice with diet-induced obesity compared with lean controls and 37% higher in db/db mice than db/+ controls, consistent with upregulation of CXCR4 in endothelial cell insulin resistance. SDF-1 (stromal cell-derived factor-1)-the ligand for CXCR4-increased leukocyte adhesion to cultured endothelial cells. This effect was lost after deletion of CXCR4 by gene editing while 80% of the increase was prevented by treatment of endothelial cells with insulin. In vivo microscopy of mesenteric venules showed an increase in leukocyte rolling after intravenous injection of SDF-1, but most of this response was prevented in transgenic mice with endothelial overexpression of IRS-1 (insulin receptor substrate-1)., Conclusions: Endothelial cell insulin signaling limits leukocyte/endothelial cell interaction induced by SDF-1 through downregulation of CXCR4. Improving insulin signaling in endothelial cells or inhibiting endothelial CXCR4 may reduce immune cell recruitment to the vascular wall or tissue parenchyma in insulin resistance and thereby help prevent several vascular complications.

Published
2022
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33. The transcriptional coregulator CITED2 suppresses expression of IRS-2 and impairs insulin signaling in endothelial cells.

Author

Kunkemoeller B, Chen K, Lockhart SM, Wang X, and Rask-Madsen C

Subjects
Animals, Basic Helix-Loop-Helix Transcription Factors metabolism, Gene Expression Regulation, Mice, Signal Transduction, Endothelial Cells metabolism, Insulin metabolism, Insulin Receptor Substrate Proteins metabolism, Repressor Proteins metabolism, Trans-Activators metabolism
Abstract

Endothelial cell insulin resistance contributes to the development of vascular complications in diabetes. Hypoxia-inducible factors (HIFs) modulate insulin sensitivity, and we have previously shown that a negative regulator of HIF activity, CREB-binding protein/p300 (CBP/p300) interacting transactivator-2 (CITED2), is increased in the vasculature of people with type 2 diabetes. Therefore, we examined whether CITED2 regulates endothelial insulin sensitivity. In endothelial cells isolated from mice with a "floxed" mutation in the Cited2 gene, loss of CITED2 markedly enhanced insulin-stimulated Akt phosphorylation without altering extracellular signal-related kinase 1/2 (ERK1/2) phosphorylation. Similarly, insulin-stimulated Akt phosphorylation was increased in aortas of mice with endothelial-specific deletion of CITED2. Consistent with these observations, loss of CITED2 in endothelial cells increased insulin-stimulated endothelial nitric oxide synthase phosphorylation, Vegfa expression, and cell proliferation. Endothelial cells lacking CITED2 exhibited an increase in insulin receptor substrate (IRS)-2 protein, a key mediator of the insulin signaling cascade, whereas IRS-1 was unchanged. Conversely, overexpression of CITED2 in endothelial cells decreased IRS-2 protein by 55% without altering IRS-1, resulting in impaired insulin-stimulated Akt phosphorylation and Vegfa expression. Overexpression of HIF-2α significantly increased activity of the Irs2 promoter, and coexpression of CITED2 abolished this increase. Moreover, chromatin immunoprecipitation (ChIP) showed that loss of CITED2 increased occupancy of p300, a key component of the HIF transcriptional complex, on the Irs2 promoter. Together, these results show that CITED2 selectively inhibits endothelial insulin signaling and action through the phosphoinositide 3-kinase (PI3K)/Akt pathway via repression of HIF-dependent IRS-2 expression. CITED2 is thus a promising target to improve endothelial insulin sensitivity and prevent the vascular complications of diabetes. NEW & NOTEWORTHY Endothelial cell insulin resistance is a major contributor to the development of diabetic complications. In this study, we have shown that CITED2, a transcriptional coregulator, inhibits endothelial insulin signaling through the PI3K/Akt pathway via repression of HIF-dependent IRS-2 expression, and that deletion of CITED2 enhances insulin signaling. Thus, CITED2 represents a novel and promising target to improve insulin sensitivity in endothelial cells and prevent vascular complications in diabetes.

Published
2021
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34. Homozygous receptors for insulin and not IGF-1 accelerate intimal hyperplasia in insulin resistance and diabetes.

Author

Li Q, Fu J, Xia Y, Qi W, Ishikado A, Park K, Yokomizo H, Huang Q, Cai W, Rask-Madsen C, Kahn CR, and King GL

Subjects
Animals, Disease Models, Animal, Femoral Artery injuries, Femoral Artery metabolism, Femoral Artery pathology, Homozygote, Hyaluronan Synthases metabolism, Insulin metabolism, Insulin-Like Growth Factor I metabolism, Male, Mice, Mice, Inbred C57BL, Muscle, Smooth, Vascular metabolism, Receptor, IGF Type 1 chemistry, Receptor, Insulin chemistry, Signal Transduction, Diabetes Mellitus metabolism, Hyperplasia metabolism, Insulin Resistance physiology, Receptor, IGF Type 1 metabolism, Receptor, Insulin metabolism
Abstract

Insulin and IGF-1 actions in vascular smooth muscle cells (VSMC) are associated with accelerated arterial intima hyperplasia and restenosis after angioplasty, especially in diabetes. To distinguish their relative roles, we delete insulin receptor (SMIRKO) or IGF-1 receptor (SMIGF1RKO) in VSMC and in mice. Here we report that intima hyperplasia is attenuated in SMIRKO mice, but not in SMIGF1RKO mice. In VSMC, deleting IGF1R increases homodimers of IR, enhances insulin binding, stimulates p-Akt and proliferation, but deleting IR decreases responses to insulin and IGF-1. Studies using chimeras of IR(extracellular domain)/IGF1R(intracellular-domain) or IGF1R(extracellular domain)/IR(intracellular-domain) demonstrate homodimer IRα enhances insulin binding and signaling which is inhibited by IGF1Rα. RNA-seq identifies hyaluronan synthase2 as a target of homo-IR, with its expression increases by IR activation in SMIGF1RKO mice and decreases in SMIRKO mice. Enhanced intima hyperplasia in diabetes is mainly due to insulin signaling via homo-IR, associated with increased Has2 expression.

Published
2019
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35. Insulin transport across the blood-brain barrier can occur independently of the insulin receptor.

Author

Rhea EM, Rask-Madsen C, and Banks WA

Subjects
Animals, Biological Transport, Blood-Brain Barrier drug effects, Brain drug effects, Cell Membrane Permeability, Endothelial Cells cytology, Endothelial Cells drug effects, Male, Mice, Mice, Knockout, Peptides pharmacology, Receptor, Insulin antagonists & inhibitors, Blood-Brain Barrier physiology, Brain physiology, Endothelial Cells metabolism, Insulin metabolism, Receptor, Insulin physiology
Abstract

Key Points: Insulin enters the brain from the blood via a saturable transport system. It is unclear how insulin is transported across the blood-brain barrier (BBB). Using two models of the signalling-related insulin receptor loss or inhibition, we show insulin transport can occur in vivo without the signalling-related insulin receptor. Insulin in the brain has multiple roles including acting as a metabolic regulator and improving memory. Understanding how insulin is transported across the BBB will aid in developing therapeutics to further increase CNS concentrations., Abstract: A saturable system transports insulin from blood across the blood-brain barrier (BBB) and into the central nervous system. Whether or not the classic or signalling-related insulin receptor plays a role in mediating this transport in vivo is controversial. Here, we employed kinetics methods that distinguish between transport across the brain endothelial cell and reversible luminal surface receptor binding. Using a previously established line of mice with endothelial-specific loss of the signalling-related insulin receptor (EndoIRKO) or inhibiting the insulin receptor with the selective antagonist S961, we show insulin transport across the BBB is maintained. Rates of insulin transport were similar in all groups and transport was still saturable. Unlike transport, binding of insulin to the brain endothelial cell was decreased with the loss or inhibition of the signalling-related insulin receptor. These findings demonstrate that the signalling-related insulin receptor is not required for insulin transport across the BBB., (© 2018 The Authors. The Journal of Physiology © 2018 The Physiological Society.)

Published
2018
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36. Exogenous Insulin Infusion Can Decrease Atherosclerosis in Diabetic Rodents by Improving Lipids, Inflammation, and Endothelial Function.

Author

Park K, Li Q, Evcimen ND, Rask-Madsen C, Maeda Y, Maddaloni E, Yokomizo H, Shinjo T, St-Louis R, Fu J, Gordin D, Khamaisi M, Pober D, Keenan H, and King GL

Subjects
Animals, Anti-Inflammatory Agents administration & dosage, Atherosclerosis blood, Atherosclerosis pathology, Atherosclerosis physiopathology, Biomarkers blood, Blood Glucose drug effects, Blood Glucose metabolism, Diabetes Mellitus blood, Diabetes Mellitus pathology, Diabetes Mellitus physiopathology, Diet, High-Fat, Disease Models, Animal, Drug Implants, Endothelium, Vascular metabolism, Endothelium, Vascular pathology, Endothelium, Vascular physiopathology, Hypoglycemic Agents adverse effects, Inflammation blood, Inflammation pathology, Inflammation physiopathology, Insulin Resistance, Macrophages drug effects, Macrophages metabolism, Mice, Knockout, ApoE, Phlorhizin pharmacology, Plaque, Atherosclerotic, Atherosclerosis prevention & control, Cytokines blood, Diabetes Mellitus drug therapy, Endothelium, Vascular drug effects, Hypoglycemic Agents administration & dosage, Inflammation prevention & control, Inflammation Mediators blood, Insulin administration & dosage, Lipids blood
Abstract

Objective: The objective of this study is to evaluate whether exogenously induced hyperinsulinemia may increase the development of atherosclerosis., Approach and Results: Hyperinsulinemia, induced by exogenous insulin implantation in high-fat fed (60% fat HFD) apolipoprotein E-deficient mice (ApoE -/- ) mice, exhibited insulin resistance, hyperglycemia, and hyperinsulinemia. Atherosclerosis was measured by the accumulation of fat, macrophage, and extracellular matrix in the aorta. After 8 weeks on HFD, ApoE -/- mice were subcutaneously implanted with control (sham) or insulin pellet, and phlorizin, a sodium glucose cotransporters inhibitor (1/2)inhibitor, for additional 8 weeks. Intraperitoneal glucose tolerance test showed that plasma glucose levels were lower and insulin and IGF-1 (insulin-like growth factor-1) levels were 5.3- and 3.3-fold higher, respectively, in insulin-implanted compared with sham-treated ApoE -/- mice. Plasma triglyceride, cholesterol, and lipoprotein levels were decreased in mice with insulin implant, in parallel with increased lipoprotein lipase activities. Atherosclerotic plaque by en face and complexity staining showed significant reductions of fat deposits and expressions of vascular adhesion molecule-1, tumor necrosis factor-α, interleukin 6, and macrophages in arterial wall while exhibiting increased activation of pAKT and endothelial nitric oxide synthase ( P <0.05) comparing insulin-implanted versus sham HFD ApoE -/- mice. No differences were observed in atherosclerotic plaques between phlorizin-treated and sham HFD ApoE -/- mice, except phlorizin significantly lowered plasma glucose and glycated hemoglobin levels while increased glucosuria. Endothelial function was improved only by insulin treatment through endothelial nitric oxide synthase/nitric oxide activations and reduced proinflammatory (M1) and increased anti-inflammatory (M2) macrophages, which were inhibited by endothelial nitric oxide synthase inhibitor., Conclusions: Exogenous insulin decreased atherosclerosis by lowering inflammatory cytokines, macrophages, and plasma lipids in HFD-induced hyperlipidemia, insulin resistant and mildly diabetic ApoE -/- mice., (© 2017 American Heart Association, Inc.)

Published
2018
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37. Regulation of Macrophage Apoptosis and Atherosclerosis by Lipid-Induced PKCδ Isoform Activation.

Author

Li Q, Park K, Xia Y, Matsumoto M, Qi W, Fu J, Yokomizo H, Khamaisi M, Wang X, Rask-Madsen C, and King GL

Subjects
Animals, Atherosclerosis etiology, Atherosclerosis pathology, Enzyme Activation physiology, Hyperlipidemias etiology, Hyperlipidemias pathology, Insulin Resistance physiology, Isoenzymes metabolism, Macrophages pathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Rats, Rats, Zucker, Apoptosis physiology, Atherosclerosis metabolism, Diet, High-Fat adverse effects, Hyperlipidemias metabolism, Macrophages metabolism, Protein Kinase C-delta metabolism
Abstract

Rationale: Activation of monocytes/macrophages by hyperlipidemia associated with diabetes mellitus and obesity contributes to the development of atherosclerosis. PKCδ (protein kinase C δ) expression and activity in monocytes were increased by hyperlipidemia and diabetes mellitus with unknown consequences to atherosclerosis., Objective: To investigate the effect of PKCδ activation in macrophages on the severity of atherosclerosis., Methods and Results: PKCδ expression and activity were increased in Zucker diabetic rats. Mice with selective deletion of PKCδ in macrophages were generated by breeding PKCδ flox/flox mice with LyzM-Cre and ApoE -/ - mice (MPKCδKO/ApoE -/- mice) and studied in atherogenic (AD) and high-fat diet (HFD). Mice fed AD and HFD exhibited hyperlipidemia, but only HFD-fed mice had insulin resistance and mild diabetes mellitus. Surprisingly, MPKCδKO/ApoE -/- mice exhibited accelerated aortic atherosclerotic lesions by 2-fold versus ApoE -/- mice on AD or HFD. Splenomegaly was observed in MPKCδKO/ApoE -/- mice on AD and HFD but not on regular chow. Both the AD or HFD increased macrophage number in aortic plaques and spleen by 1.7- and 2-fold, respectively, in MPKCδKO/ApoE -/- versus ApoE -/- mice because of decreased apoptosis (62%) and increased proliferation (1.9-fold), and not because of uptake, with parallel increased expressions of inflammatory cytokines. Mechanisms for the increased macrophages in MPKCδKO/ApoE -/- were associated with elevated phosphorylation levels of prosurvival cell-signaling proteins, Akt and FoxO3a, with reduction of proapoptotic protein Bim associated with PKCδ induced inhibition of P85/PI3K., Conclusions: Accelerated development of atherosclerosis induced by insulin resistance and hyperlipidemia may be partially limited by PKCδ isoform activation in the monocytes, which decreased its number and inflammatory responses in the arterial wall., (© 2017 American Heart Association, Inc.)

Published
2017
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38. Endothelial insulin receptors differentially control insulin signaling kinetics in peripheral tissues and brain of mice.

Author

Konishi M, Sakaguchi M, Lockhart SM, Cai W, Li ME, Homan EP, Rask-Madsen C, and Kahn CR

Subjects
Animals, Blood Glucose metabolism, Glucose Intolerance, Kinetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Signal Transduction, Brain metabolism, Insulin metabolism, Insulin Resistance, Liver metabolism, Muscle, Skeletal metabolism, Obesity physiopathology, Receptor, Insulin physiology
Abstract

Insulin receptors (IRs) on endothelial cells may have a role in the regulation of transport of circulating insulin to its target tissues; however, how this impacts on insulin action in vivo is unclear. Using mice with endothelial-specific inactivation of the IR gene (EndoIRKO), we find that in response to systemic insulin stimulation, loss of endothelial IRs caused delayed onset of insulin signaling in skeletal muscle, brown fat, hypothalamus, hippocampus, and prefrontal cortex but not in liver or olfactory bulb. At the level of the brain, the delay of insulin signaling was associated with decreased levels of hypothalamic proopiomelanocortin, leading to increased food intake and obesity accompanied with hyperinsulinemia and hyperleptinemia. The loss of endothelial IRs also resulted in a delay in the acute hypoglycemic effect of systemic insulin administration and impaired glucose tolerance. In high-fat diet-treated mice, knockout of the endothelial IRs accelerated development of systemic insulin resistance but not food intake and obesity. Thus, IRs on endothelial cells have an important role in transendothelial insulin delivery in vivo which differentially regulates the kinetics of insulin signaling and insulin action in peripheral target tissues and different brain regions. Loss of this function predisposes animals to systemic insulin resistance, overeating, and obesity., Competing Interests: Conflict of interest statement: Masahiro Konishi is an employee of Daiichi Sankyo and was on sabbatical leave at Joslin Diabetes Center when the study was completed.

Published
2017
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39. SHP-1 activation inhibits vascular smooth muscle cell proliferation and intimal hyperplasia in a rodent model of insulin resistance and diabetes.

Author

Qi W, Li Q, Liew CW, Rask-Madsen C, Lockhart SM, Rasmussen LM, Xia Y, Wang X, Khamaisi M, Croce K, and King GL

Subjects
Animals, Blotting, Western, Cell Cycle genetics, Cell Cycle physiology, Cell Movement genetics, Cell Movement physiology, Cell Proliferation genetics, Cell Proliferation physiology, Humans, Insulin Resistance genetics, Insulin Resistance physiology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Muscle, Smooth, Vascular cytology, Muscle, Smooth, Vascular metabolism, Protein Tyrosine Phosphatase, Non-Receptor Type 6 genetics, Rats, Rats, Zucker, Real-Time Polymerase Chain Reaction, Tunica Intima metabolism, Hyperplasia metabolism, Myocytes, Smooth Muscle cytology, Myocytes, Smooth Muscle metabolism, Protein Tyrosine Phosphatase, Non-Receptor Type 6 metabolism, Tunica Intima pathology
Abstract

Aims/hypothesis: Accelerated migration and proliferation of vascular smooth muscle cells (VSMCs) enhances arterial restenosis after angioplasty in insulin resistance and diabetes. Elevation of Src homology 2-containing protein tyrosine phosphatase 1 (SHP-1) induces apoptosis in the microvasculature. However, the role of SHP-1 in intimal hyperplasia and restenosis has not been clarified in insulin resistance and diabetes., Methods: We used a femoral artery wire injury mouse model, rodent models with insulin resistance and diabetes, and patients with type 2 diabetes. Further, we modulated SHP-1 expression using a transgenic mouse that overexpresses SHP-1 in VSMCs (Shp-1-Tg). SHP-1 agonists were also employed to study the molecular mechanisms underlying the regulation of SHP-1 by oxidised lipids., Results: Mice fed a high-fat diet (HFD) exhibited increased femoral artery intimal hyperplasia and decreased arterial SHP-1 expression compared with mice fed a regular diet. Arterial SHP-1 expression was also decreased in Zucker fatty rats, Zucker diabetic fatty rats and in patients with type 2 diabetes. In primary cultured VSMCs, oxidised LDL suppressed SHP-1 expression by activating Mek-1 (also known as Map2k1) and increased DNA methylation of the Shp-1 promoter. VSMCs from Shp-1-Tg mice exhibited impaired platelet-derived growth factor (PDGF)-stimulated tyrosine phosphorylation with a concomitant decrease in PDGF-stimulated VSMC proliferation and migration. Similarly, HFD-fed Shp-1-Tg mice and mice treated with the SHP-1 inducer, Icariside II, were protected from the development of intimal hyperplasia following wire injury., Conclusions/interpretation: Suppression of SHP-1 by oxidised lipids may contribute to the excessive VSMC proliferation, inflammatory cytokine production and intimal hyperplasia observed in arteries from diabetes and insulin resistance. Augmenting SHP-1 levels is a potential therapeutic strategy to maintain stent patency in patients with insulin resistance and diabetes.

Published
2017
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41. Insulin Downregulates the Transcriptional Coregulator CITED2, an Inhibitor of Proangiogenic Function in Endothelial Cells.

Author

Wang X, Lockhart SM, Rathjen T, Albadawi H, Sørensen D, O'Neill BT, Dwivedi N, Preil SR, Beck HC, Dunwoodie SL, Watkins MT, Rasmussen LM, and Rask-Madsen C

Subjects
Animals, Cell Proliferation drug effects, Cells, Cultured, Diabetes Mellitus, Type 2 metabolism, Down-Regulation drug effects, Flow Cytometry, Forkhead Box Protein O1 metabolism, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Insulin Resistance physiology, Mice, Mice, Knockout, RNA, Small Interfering, Repressor Proteins genetics, Signal Transduction, Trans-Activators genetics, Transcriptional Activation drug effects, Endothelial Cells drug effects, Endothelial Cells metabolism, Insulin pharmacology, Repressor Proteins metabolism, Trans-Activators metabolism
Abstract

In patients with atherosclerotic complications of diabetes, impaired neovascularization of ischemic tissue in the myocardium and lower limb limits the ability of these tissues to compensate for poor perfusion. We identified 10 novel insulin-regulated genes, among them Adm, Cited2, and Ctgf, which were downregulated in endothelial cells by insulin through FoxO1. CBP/p300-interacting transactivator with ED-rich tail 2 (CITED2), which was downregulated by insulin by up to 54%, is an important negative regulator of hypoxia-inducible factor (HIF) and impaired HIF signaling is a key mechanism underlying the impairment of angiogenesis in diabetes. Consistent with impairment of vascular insulin action, CITED2 was increased in cardiac endothelial cells from mice with diet-induced obesity and from db/db mice and was 3.8-fold higher in arterial tissue from patients with type 2 diabetes than control subjects without diabetes. CITED2 knockdown promoted endothelial tube formation and endothelial cell proliferation, whereas CITED2 overexpression impaired HIF activity in vitro. After femoral artery ligation, induction of an endothelial-specific HIF target gene in hind limb muscle was markedly upregulated in mice with endothelial cell deletion of CITED2, suggesting that CITED2 can limit HIF activity in vivo. We conclude that vascular insulin resistance in type 2 diabetes contributes to the upregulation of CITED2, which impairs HIF signaling and endothelial proangiogenic function., (© 2016 by the American Diabetes Association.)

Published
2016
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42. Revascularization and muscle adaptation to limb demand ischemia in diet-induced obese mice.

Author

Albadawi H, Tzika AA, Rask-Madsen C, Crowley LM, Koulopoulos MW, Yoo HJ, and Watkins MT

Subjects
Angiogenic Proteins metabolism, Animals, Capillaries, Cytokines metabolism, Disease Models, Animal, Extremities blood supply, Ischemia metabolism, Ischemia physiopathology, MAP Kinase Signaling System, Male, Mice, Inbred C57BL, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Obesity metabolism, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha metabolism, Phosphorylation, STAT3 Transcription Factor metabolism, Uncoupling Protein 1 metabolism, Adaptation, Physiological, Ischemia pathology, Muscle, Skeletal blood supply, Obesity physiopathology, Physical Conditioning, Animal physiology
Abstract

Background: Obesity and type 2 diabetes are major risk factors for peripheral arterial disease in humans, which can result in lower limb demand ischemia and exercise intolerance. Exercise triggers skeletal muscle adaptation including increased vasculogenesis. The goal of this study was to determine whether demand ischemia modulates revascularization, fiber size, and signaling pathways in the ischemic hind limb muscles of mice with diet-induced obesity (DIO)., Materials and Methods: DIO mice (n = 7) underwent unilateral femoral artery ligation and recovered for 2 wks followed by 4 wks with daily treadmill exercise to induce demand ischemia. A parallel sedentary ischemia (SI) group (n = 7) had femoral artery ligation without exercise. The contralateral limb muscles of SI served as control. Muscles were examined for capillary density, myofiber cross-sectional area, cytokine levels, and phosphorylation of STAT3 and ERK1/2., Results: Exercise significantly enhanced capillary density (P < 0.01) and markedly lowered cross-sectional area (P < 0.001) in demand ischemia compared with SI. These findings coincided with a significant increase in granulocyte colony-stimulating factor (P < 0.001) and interleukin-7 (P < 0.01) levels. In addition, phosphorylation levels of STAT3 and ERK1/2 (P < 0.01) were increased, whereas UCP1 and monocyte chemoattractant protein-1 protein levels were lower (P < 0.05) without altering vascular endothelial growth factor and tumor necrosis factor alpha protein levels. Demand ischemia increased the PGC1α messenger RNA (P < 0.001) without augmenting PGC1α protein levels., Conclusions: Exercise-induced limb demand ischemia in the setting of DIO causes myofiber atrophy despite an increase in muscle capillary density. The combination of persistent increase in tumor necrosis factor alpha, lower vascular endothelial growth factor, and failure to increase PGC1α protein may reflect a deficient adaption to demand ischemia in DIO., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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43. Insulin decreases atherosclerosis by inducing endothelin receptor B expression.

Author

Park K, Mima A, Li Q, Rask-Madsen C, He P, Mizutani K, Katagiri S, Maeda Y, Wu IH, Khamaisi M, Preil SR, Maddaloni E, Sørensen D, Rasmussen LM, Huang PL, and King GL

Abstract

Endothelial cell (EC) insulin resistance and dysfunction, caused by diabetes, accelerates atherosclerosis. It is unknown whether specifically enhancing EC-targeted insulin action can decrease atherosclerosis in diabetes. Accordingly, overexpressing insulin receptor substrate-1 (IRS1) in the endothelia of Apoe -/- mice ( Irs1/Apoe -/- ) increased insulin signaling and function in the aorta. Atherosclerosis was significantly reduced in Irs1/ApoE -/- mice on diet-induced hyperinsulinemia and hyperglycemia. The mechanism of insulin's enhanced antiatherogenic actions in EC was related to remarkable induction of NO action, which increases endothelin receptor B (EDNRB) expression and intracellular [Ca 2+ ]. Using the mice with knockin mutation of eNOS, which had Ser1176 mutated to alanine (AKI), deleting the only known mechanism for insulin to activate eNOS/NO pathway, we observed that IRS1 overexpression in the endothelia of Aki/ApoE -/- mice significantly decreased atherosclerosis. Interestingly, endothelial EDNRB expression was selectively reduced in intima of arteries from diabetic patients and rodents. However, endothelial EDNRB expression was upregulated by insulin via P13K/Akt pathway. Finally EDNRB deletion in EC of Ldlr -/- and Irs1/Ldlr -/- mice decreased NO production and accelerated atherosclerosis, compared with Ldlr -/- mice. Accelerated atherosclerosis in diabetes may be reduced by improving insulin signaling selectively via IRS1/Akt in the EC by inducing EDNRB expression and NO production.

Published
2016
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44. Induction of vascular insulin resistance and endothelin-1 expression and acceleration of atherosclerosis by the overexpression of protein kinase C-β isoform in the endothelium.

Author

Li Q, Park K, Li C, Rask-Madsen C, Mima A, Qi W, Mizutani K, Huang P, and King GL

Subjects
Animals, Aorta pathology, Aorta physiopathology, Apolipoproteins E deficiency, Apolipoproteins E genetics, Apolipoproteins E physiology, Atherosclerosis pathology, Disease Models, Animal, Endothelin-1 genetics, Endothelium, Vascular pathology, Female, Isoenzymes genetics, Isoenzymes physiology, Male, Mice, Mice, Knockout, Nitric Oxide Synthase Type III physiology, Protein Kinase C beta genetics, Proto-Oncogene Proteins c-akt physiology, Vascular Cell Adhesion Molecule-1 physiology, Atherosclerosis physiopathology, Endothelin-1 physiology, Endothelium, Vascular physiopathology, Insulin Resistance physiology, Protein Kinase C beta physiology, Up-Regulation physiology
Abstract

Rationale: Loss of insulin action in the endothelium can cause endothelial dysfunction and atherosclerosis. Hyperglycemia and elevated fatty acids induced by diabetes mellitus can activate protein kinase C-β isoforms and selectively inhibit insulin signaling via phosphatidylinositol 3-kinase/Akt pathway to inhibit the activation of endothelial nitric oxide synthase and metabolic actions., Objective: To demonstrate that overexpressing protein kinase C-β2 isoform in endothelial cells can cause selective insulin resistance and exacerbate atherosclerosis in the aorta., Methods and Results: Protein kinase C-β2 isoform was overexpressed in endothelial cells using a promoter of vascular endothelial cell cadherin. These mice were cross-bred with apoE-/- mice [Tg (Prkcb)apoE-/-]. On a Western diet, Tg(Prkcb)apoE-/- and apoE-/- mice did not differ in systemic insulin sensitivity, glucose tolerance, plasma lipid, or blood pressure. Insulin action in endothelial cells and femoral artery from Tg(Prkcb)apoE-/- mice was impaired by ≈40% with respect to Akt/endothelial nitric oxide synthase activation, and leukocyte-endothelial cell binding increased in cultured lung endothelial cells from Tg(Prkcb)apoE-/- mice compared with that from apoE-/- mice. Basal and angiotensin-stimulated big endothelin-1 levels were elevated in Tg(Prkcb)apoE-/- mice compared with apoE-/- mice. The severity of atherosclerosis in the aorta from Tg(Prkcb)apoE-/- mice increased by ≈70% as measured by en face fat staining and plaque content of the number of smooth muscle cells, macrophages, and extracellular matrix., Conclusions: Specific protein kinase C-β2 activation in the endothelial cells caused dysfunction and accelerated atherosclerosis because of loss of insulin-stimulated Akt/endothelial nitric oxide synthase activation and angiotensin-induced increases in endothelin-1 expression.

Published
2013
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45. Serine phosphorylation sites on IRS2 activated by angiotensin II and protein kinase C to induce selective insulin resistance in endothelial cells.

Author

Park K, Li Q, Rask-Madsen C, Mima A, Mizutani K, Winnay J, Maeda Y, D'Aquino K, White MF, Feener EP, and King GL

Subjects
Animals, Cattle, Cell Line, Enzyme Activation, Insulin metabolism, Insulin Receptor Substrate Proteins chemistry, Male, Mice, Mice, Transgenic, Phosphatidylinositol 3-Kinases metabolism, Phosphorylation, Protein Kinase C genetics, Protein Kinase C beta, Rats, Rats, Zucker, Serine chemistry, Serine metabolism, Tetradecanoylphorbol Acetate metabolism, Threonine chemistry, Threonine metabolism, Tyrosine chemistry, Tyrosine metabolism, Angiotensin II metabolism, Endothelial Cells metabolism, Insulin Receptor Substrate Proteins metabolism, Insulin Resistance, Protein Kinase C metabolism
Abstract

Protein kinase C (PKC) activation, induced by hyperglycemia and angiotensin II (AngII), inhibited insulin-induced phosphorylation of Akt/endothelial nitric oxide (eNOS) by decreasing tyrosine phosphorylation of IRS2 (p-Tyr-IRS2) in endothelial cells. PKC activation by phorbol ester (phorbol myristate acetate [PMA]) reduced insulin-induced p-Tyr-IRS2 by 46% ± 13% and, similarly, phosphorylation of Akt/eNOS. Site-specific mutational analysis showed that PMA increased serine phosphorylation at three sites on IRS2 (positions 303, 343, and 675), which affected insulin-induced tyrosine phosphorylation of IRS2 at positions 653, 671, and 911 (p-Tyr-IRS2) and p-Akt/eNOS. Specific PKCβ2 activation decreased p-Tyr-IRS2 and increased the phosphorylation of two serines (Ser303 and Ser675) on IRS2 that were confirmed in cells overexpressing single point mutants of IRS2 (S303A or S675A) containing a PKCβ2-dominant negative or selective PKCβ inhibitor. AngII induced phosphorylation only on Ser303 of IRS2 and inhibited insulin-induced p-Tyr911 of IRS2 and p-Akt/eNOS, which were blocked by an antagonist of AngII receptor I, losartan, or overexpression of single mutant S303A of IRS2. Increases in p-Ser303 and p-Ser675 and decreases in p-Tyr911 of IRS2 were observed in vessels of insulin-resistant Zucker fatty rats versus lean rats. Thus, AngII or PKCβ activation can phosphorylate Ser303 and Ser675 in IRS2 to inhibit insulin-induced p-Tyr911 and its anti-atherogenic actions (p-Akt/eNOS) in endothelial cells.

Published
2013
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46. Vascular complications of diabetes: mechanisms of injury and protective factors.

Author

Rask-Madsen C and King GL

Subjects
Antioxidants metabolism, Apoptosis, Atherosclerosis complications, Atherosclerosis pathology, Blindness etiology, Blindness metabolism, Diabetic Neuropathies metabolism, Diabetic Retinopathy metabolism, Endoplasmic Reticulum Stress, Humans, Kidney Failure, Chronic etiology, Kidney Failure, Chronic metabolism, Oxidative Stress, Renin-Angiotensin System, Diabetic Neuropathies complications, Diabetic Retinopathy complications
Abstract

In patients with diabetes, atherosclerosis is the main reason for impaired life expectancy, and diabetic nephropathy and retinopathy are the largest contributors to end-stage renal disease and blindness, respectively. An improved therapeutic approach to combat diabetic vascular complications might include blocking mechanisms of injury as well as promoting protective or regenerating factors, for example by enhancing the action of insulin-regulated genes in endothelial cells, promoting gene programs leading to induction of antioxidant or anti-inflammatory factors, or improving the sensitivity to vascular cell survival factors. Such strategies could help prevent complications despite suboptimal metabolic control., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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47. Retinal not systemic oxidative and inflammatory stress correlated with VEGF expression in rodent models of insulin resistance and diabetes.

Author

Mima A, Qi W, Hiraoka-Yamomoto J, Park K, Matsumoto M, Kitada M, Li Q, Mizutani K, Yu E, Shimada T, Lee J, Shoelson SE, Jobin C, Rask-Madsen C, and King GL

Subjects
8-Hydroxy-2'-Deoxyguanosine, Animals, Biomarkers metabolism, C-Reactive Protein metabolism, CD11b Antigen metabolism, CD11c Antigen metabolism, Deoxyguanosine analogs & derivatives, Deoxyguanosine urine, Enzyme-Linked Immunosorbent Assay, Inflammation metabolism, Male, Malondialdehyde blood, Mice, Mice, Inbred C57BL, NF-kappa B metabolism, Obesity metabolism, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Rats, Zucker, Reverse Transcriptase Polymerase Chain Reaction, Vascular Endothelial Growth Factor A genetics, Diabetes Mellitus, Experimental metabolism, Diabetic Retinopathy metabolism, Insulin Resistance physiology, Oxidative Stress physiology, Retina metabolism, Stress, Physiological physiology, Vascular Endothelial Growth Factor A metabolism
Abstract

Purpose: To correlate changes between VEGF expression with systemic and retinal oxidative stress and inflammation in rodent models of obesity induced insulin resistance and diabetes., Methods: Retinal VEGF mRNA and protein levels were assessed by RT-PCR and VEGF ELISA, respectively. Urinary 8-hydroxydeoxyguanosine (8-OHdG), blood levels of C-reactive protein (CRP), malondialdehyde (MDA), and CD11b/c positive cell ratio were used as systemic inflammatory markers. Retinal expression of Nox2, Nox4, and p47phox mRNA levels were measured as oxidative stress markers. TNF-α, inter-cellular adhesion molecule-1 (ICAM-1), IL1β, and activation of nuclear factor κB (NF-κB) were used as retinal inflammatory markers., Results: Retinal VEGF mRNA and protein expression increased in Zucker diabetic fatty (ZDF(fa/fa)) rats and streptozotosin (STZ) induced diabetic Sprague-Dawley rats, after two months of disease, but not in Zucker fatty (ZF) rats. Systemic markers of oxidative stress and inflammation were elevated in insulin resistant and diabetic rats. Some oxidative stress and inflammatory markers (TNF-α, IL-6, ICAM-1, and IL1-β) were upregulated in the retina of ZDF(fa/fa) and STZ diabetic rats after 4 months of disease. In contrast, activation of NF-κB in the retina was observed in high fat fed nondiabetic and diabetic cis-NF-κB(EGFP) mice, ZF, ZDF(fa/fa), and STZ-induced diabetic rats., Conclusions: Only persistent hyperglycemia and diabetes increased retinal VEGF expression. Some markers of inflammation and oxidative stress were elevated in the retina and systemic circulation of obese and insulin resistant rodents with and without diabetes. Induction of VEGF and its associated retinal pathologies by diabetes requires chronic hyperglycemia and factors in addition to inflammation and oxidative stress.

Published
2012
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48. Tissue-specific insulin signaling, metabolic syndrome, and cardiovascular disease.

Author

Rask-Madsen C and Kahn CR

Subjects
Animals, Cardiovascular Diseases pathology, Cardiovascular Diseases physiopathology, Cardiovascular System pathology, Cardiovascular System physiopathology, Humans, Metabolic Syndrome pathology, Metabolic Syndrome physiopathology, Receptor, Insulin metabolism, Cardiovascular Diseases metabolism, Cardiovascular System metabolism, Insulin metabolism, Insulin Resistance, Metabolic Syndrome metabolism, Signal Transduction
Abstract

Impaired insulin signaling is central to development of the metabolic syndrome and can promote cardiovascular disease indirectly through development of abnormal glucose and lipid metabolism, hypertension, and a proinflammatory state. However, insulin's action directly on vascular endothelium, atherosclerotic plaque macrophages, and in the heart, kidney, and retina has now been described, and impaired insulin signaling in these locations can alter progression of cardiovascular disease in the metabolic syndrome and affect development of microvascular complications of diabetes mellitus. Recent advances in our understanding of the complex pathophysiology of insulin's effects on vascular tissues offer new opportunities for preventing these cardiovascular disorders.

Published
2012
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49. Glomerular VEGF resistance induced by PKCδ/SHP-1 activation and contribution to diabetic nephropathy.

Author

Mima A, Kitada M, Geraldes P, Li Q, Matsumoto M, Mizutani K, Qi W, Li C, Leitges M, Rask-Madsen C, and King GL

Subjects
Animals, Apoptosis, Base Sequence, Cells, Cultured, Diabetic Nephropathies genetics, Diabetic Nephropathies pathology, Endothelial Cells metabolism, Enzyme Activation, Female, Glucose metabolism, Kidney Glomerulus metabolism, Male, Mice, Mice, Knockout, NF-kappa B metabolism, Podocytes metabolism, Podocytes pathology, Protein Kinase C-delta antagonists & inhibitors, Protein Kinase C-delta deficiency, Protein Kinase C-delta genetics, Protein Tyrosine Phosphatase, Non-Receptor Type 6 antagonists & inhibitors, Protein Tyrosine Phosphatase, Non-Receptor Type 6 genetics, RNA, Small Interfering genetics, Rats, Rats, Sprague-Dawley, Signal Transduction, Vascular Endothelial Growth Factor A genetics, Vascular Endothelial Growth Factor Receptor-2 metabolism, p38 Mitogen-Activated Protein Kinases metabolism, Diabetic Nephropathies etiology, Diabetic Nephropathies metabolism, Protein Kinase C-delta metabolism, Protein Tyrosine Phosphatase, Non-Receptor Type 6 metabolism, Vascular Endothelial Growth Factor A metabolism
Abstract

This study characterizes the effect of glucose-induced activation of protein kinase Cδ (PKCδ) and Src homology-2 domain-containing phosphatase-1 (SHP-1) expression on vascular endothelial growth factor (VEGF) actions in glomerular podocytes in cultures and in glomeruli of diabetic rodents. Elevation of glucose levels induced PKCδ and p38 mitogen-activated protein kinase (p38 MAPK) to increase SHP-1 expression, increased podocyte apoptosis, and inhibited VEGF activation in podocytes and glomerular endothelial cells. The adverse effects of high glucose levels can be negated by molecular inhibitors of PKCδ, p38MAPK, and SHP-1 and only partially reduced by antioxidants and nuclear factor-κB (NF-κB) inhibitor. Increased PKCδ activation and SHP-1 expression correlated with loss of VEGF signaling and podocyte numbers in the glomeruli of diabetic rats and mice. In contrast, diabetic PKCδ-knockout (Prkcd(-/-)) mice did not exhibit activation of p38 MAPK and SHP-1 or inhibition of VEGF signaling in renal glomeruli. Functionally, diabetic Prkcd(-/-) mice had decreased expressions of TGFβ, VEGF, and extracellular matrix and less albuminuria than diabetic Prkcd(+/+) mice. Hyperglycemia and diabetes can cause glomerular podocyte apoptosis and endothelial dysfunction partly due to increased PKCδ/p38 MAPK activation and the expression of SHP-1 to cause VEGF resistance, independent of NF-κB activation.

Published
2012
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50. Hyperinsulinemia does not change atherosclerosis development in apolipoprotein E null mice.

Author

Rask-Madsen C, Buonomo E, Li Q, Park K, Clermont AC, Yerokun O, Rekhter M, and King GL

Subjects
Animals, Apolipoproteins E blood, Atherosclerosis blood, Atherosclerosis etiology, Disease Progression, Female, Gene Expression Regulation, Hyperinsulinism blood, Hyperinsulinism genetics, Insulin Receptor Substrate Proteins biosynthesis, Insulin Receptor Substrate Proteins genetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Signal Transduction, Apolipoproteins E genetics, Atherosclerosis genetics, Hyperinsulinism complications, Insulin Resistance
Abstract

Objective: To determine the contribution of hyperinsulinemia to atherosclerosis development., Methods and Results: Apolipoprotein E (Apoe) null mice that had knockout of a single allele of the insulin receptor (Insr) gene were compared with littermate Apoe null mice with intact insulin receptors. Plasma insulin levels in Insr haploinsufficient/Apoe null mice were 50% higher in the fasting state and up to 69% higher during a glucose tolerance test, but glucose tolerance was not different in the 2 groups. C-peptide levels, insulin sensitivity, and postreceptor insulin signaling in muscle, liver, fat, and aorta were not different between groups, whereas disappearance in plasma of an injected insulin analog was delayed in Insr haploinsufficient/Apoe null mice, indicating that impaired insulin clearance was the primary cause of hyperinsulinemia. No differences were observed in plasma lipids or blood pressure. Despite the hyperinsulinemia, atherosclerotic lesion size was not different between the 2 groups at time points up to 52 weeks of age when measured as en face lesion area in the aorta, cross-sectional plaque area in the aortic sinus, and cholesterol abundance in the brachiocephalic artery., Conclusions: Hyperinsulinemia, without substantial vascular or whole-body insulin resistance and without changes in plasma lipids or blood pressure, does not change susceptibility to atherosclerosis.

Published
2012
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