-
1
-
-
77951913887
-
Type 2 diabetes mellitus with pancreatic ß-cell dysfunction in 3 horses confirmed with minimal model analysis
-
Durham AE, Hughes KJ, Cottle HJ, et al. Type 2 diabetes mellitus with pancreatic ß-cell dysfunction in 3 horses confirmed with minimal model analysis. Equine Vet J 2009;41:1-6.
-
(2009)
Equine Vet J
, vol.41
, pp. 1-6
-
-
Durham, A.1
Hughes, K.2
Cottle, H.3
-
2
-
-
65549115404
-
Equine metabolic syndrome
-
Frank N. Equine metabolic syndrome. J Equine Vet Sci 2009;29:259-267.
-
(2009)
J Equine Vet Sci
, vol.29
, pp. 259-267
-
-
Frank, N.1
-
3
-
-
0942284826
-
The equine metabolic syndrome
-
Vet Clin N Am Equine Pract.
-
Johnson PJ. The equine metabolic syndrome: Peripheral Cushing's syndrome. Vet Clin N Am Equine Pract 2002;18:271-293.
-
(2002)
Peripheral Cushing's syndrome
, vol.18
, pp. 271-293
-
-
Johnson, P.1
-
4
-
-
64749109220
-
Metabolic syndrome-From human organ disease to laminar failure in equids
-
Geor RJ, Frank N. Metabolic syndrome-From human organ disease to laminar failure in equids. Vet Immunol Immunopathol 2009;129:151-154.
-
(2009)
Vet Immunol Immunopathol
, vol.129
, pp. 151-154
-
-
Geor, R.1
Frank, N.2
-
5
-
-
2342483745
-
Obesity and diet affect glucose dynamics and insulin sensitivity in Thoroughbred geldings
-
Hoffman RM, Boston RC, Stefanovski D, et al. Obesity and diet affect glucose dynamics and insulin sensitivity in Thoroughbred geldings. J Anim Sci 2003;81:2333-2342.
-
(2003)
J Anim Sci
, vol.81
, pp. 2333-2342
-
-
Hoffman, R.1
Boston, R.2
Stefanovski, D.3
-
6
-
-
0024061191
-
Differences in diagnostic test results and hematologic data between aged and young horses
-
Ralston SL, Nockels CF, Squires EL. Differences in diagnostic test results and hematologic data between aged and young horses. Am J Vet Res 1988;49:1387-1392.
-
(1988)
Am J Vet Res
, vol.49
, pp. 1387-1392
-
-
Ralston, S.1
Nockels, C.2
Squires, E.3
-
7
-
-
38749117538
-
Hypertension and insulin resistance in a mixed-breed population of ponies predisposed to laminitis
-
Bailey SR, Habershon-Butcher JL, Ransom KJ, et al. Hypertension and insulin resistance in a mixed-breed population of ponies predisposed to laminitis. Am J Vet Res 2008;69:122-129.
-
(2008)
Am J Vet Res
, vol.69
, pp. 122-129
-
-
Bailey, S.1
Habershon-Butcher, J.2
Ransom, K.3
-
8
-
-
0345293115
-
Interactions of substrate availability, exercise performance, and nutrition with muscle glycogen metabolism in horses
-
Lacombe VA, Hinchcliff KW, Taylor LE. Interactions of substrate availability, exercise performance, and nutrition with muscle glycogen metabolism in horses. J Am Vet Med Assoc 2003b;223:1576-1585.
-
(2003)
J Am Vet Med Assoc
, vol.223
, pp. 1576-1585
-
-
Lacombe, V.1
Hinchcliff, K.2
Taylor, L.3
-
9
-
-
0027183935
-
Evidence from transgenic mice that glucose transport is rate limiting for glycogen deposition and glycolysis in skeletal muscle
-
Ren JM, Marshall BA, Gulve EA, et al. Evidence from transgenic mice that glucose transport is rate limiting for glycogen deposition and glycolysis in skeletal muscle. J Biol Chem 1993;268:26113-26115.
-
(1993)
J Biol Chem
, vol.268
, pp. 26113-26115
-
-
Ren, J.1
Marshall, B.2
Gulve, E.3
-
10
-
-
0036081022
-
Glucose transport rate and glycogen synthase activity both limit skeletal muscle glycogen accumulation
-
Fisher JS, Nolte LA, Kawanaka K, et al. Glucose transport rate and glycogen synthase activity both limit skeletal muscle glycogen accumulation. Am J Physiol Endocrinol Metab 2002;282:1214-1221.
-
(2002)
Am J Physiol Endocrinol Metab
, vol.282
, pp. 1214-1221
-
-
Fisher, J.1
Nolte, L.2
Kawanaka, K.3
-
11
-
-
0025143220
-
Exercise induces recruitment of the "insulin-responsive glucose transporter." Evidence for distinct intracellular insulin- and exercise-recruitable transporter pools in skeletal muscle
-
Douen AG, Ramial T, Rastogi S, et al. Exercise induces recruitment of the "insulin-responsive glucose transporter." Evidence for distinct intracellular insulin- and exercise-recruitable transporter pools in skeletal muscle. J Biol Chem 1990;265:13427-13430.
-
(1990)
J Biol Chem
, vol.265
, pp. 13427-13430
-
-
Douen, A.1
Ramial, T.2
Rastogi, S.3
-
13
-
-
0034070580
-
Use of a novel impermeable biotinylated photolabeling reagent to assess insulin- and hypoxia-stimulated cell surface GLUT4 content in skeletal muscle from type 2 diabetic patients
-
Ryder JW, Yang J, Galuska D, et al. Use of a novel impermeable biotinylated photolabeling reagent to assess insulin- and hypoxia-stimulated cell surface GLUT4 content in skeletal muscle from type 2 diabetic patients. Diabetes 2000;49:647-654.
-
(2000)
Diabetes
, vol.49
, pp. 647-654
-
-
Ryder, J.1
Yang, J.2
Galuska, D.3
-
14
-
-
0030987889
-
High-fat feeding impairs insulin-stimulated GLUT4 recruitment via an early insulin-signaling defect
-
Zierath JR, Houseknecht KL, Gnudi L, et al. High-fat feeding impairs insulin-stimulated GLUT4 recruitment via an early insulin-signaling defect. Diabetes 1997;46:215-223.
-
(1997)
Diabetes
, vol.46
, pp. 215-223
-
-
Zierath, J.1
Houseknecht, K.2
Gnudi, L.3
-
15
-
-
3543121117
-
A high fat diet impairs stimulation of glucose transport in muscle. Functional evaluation of potential mechanisms
-
Hansen PA, Han DH, Marshall BA, et al. A high fat diet impairs stimulation of glucose transport in muscle. Functional evaluation of potential mechanisms. J Biol Chem 1998;273:26157-26163.
-
(1998)
J Biol Chem
, vol.273
, pp. 26157-26163
-
-
Hansen, P.1
Han, D.2
Marshall, B.3
-
16
-
-
33747039008
-
Distinct signals regulate AS160 phosphorylation in response to insulin, AICAR, and contraction in mouse skeletal muscle
-
Kramer HF, Witczak CA, Fujii N, et al. Distinct signals regulate AS160 phosphorylation in response to insulin, AICAR, and contraction in mouse skeletal muscle. Diabetes 2006;55:2067-2076.
-
(2006)
Diabetes
, vol.55
, pp. 2067-2076
-
-
Kramer, H.1
Witczak, C.2
Fujii, N.3
-
17
-
-
50349099779
-
Emerging role for AS160/TBC1D4 and TBC1D1 in the regulation of GLUT4 traffic
-
Sakamoto K, Holman GD. Emerging role for AS160/TBC1D4 and TBC1D1 in the regulation of GLUT4 traffic. Am J Physiol Endocrinol Metab 2008;295:E29-E37.
-
(2008)
Am J Physiol Endocrinol Metab
, vol.295
-
-
Sakamoto, K.1
Holman, G.2
-
18
-
-
33847010957
-
Contraction of insulin-resistant muscle normalizes insulin action in association with increased mitochondrial activity and fatty acid catabolism
-
Thyfault JP, Cree MG, Zheng D, et al. Contraction of insulin-resistant muscle normalizes insulin action in association with increased mitochondrial activity and fatty acid catabolism. Am J Physiol Cell Physiol 2007;292:729-739.
-
(2007)
Am J Physiol Cell Physiol
, vol.292
, pp. 729-739
-
-
Thyfault, J.1
Cree, M.2
Zheng, D.3
-
19
-
-
20044389885
-
Insulin-stimulated phosphorylation of the akt substrate AS160 is impaired in skeletal muscle of type 2 diabetic subjects
-
Karlsson HKR, Zierath JR, Kane S, et al. Insulin-stimulated phosphorylation of the akt substrate AS160 is impaired in skeletal muscle of type 2 diabetic subjects. Diabetes 2005;54:1692-1697.
-
(2005)
Diabetes
, vol.54
, pp. 1692-1697
-
-
Karlsson, H.1
Zierath, J.2
Kane, S.3
-
20
-
-
34347390598
-
Tissue-specific effects of rosiglitazone and exercise in the treatment of lipid-induced insulin resistance
-
Lessard SJ, Rivas DA, Chen Z, et al. Tissue-specific effects of rosiglitazone and exercise in the treatment of lipid-induced insulin resistance. Diabetes 2007;56:1856-1864.
-
(2007)
Diabetes
, vol.56
, pp. 1856-1864
-
-
Lessard, S.1
Rivas, D.2
Chen, Z.3
-
22
-
-
69949101547
-
Insulin-stimulated translocation of glucose transporter (GLUT) 12 parallels that of GLUT4 in normal muscle
-
Stuart CA, Howell MA, Zhang Y, et al. Insulin-stimulated translocation of glucose transporter (GLUT) 12 parallels that of GLUT4 in normal muscle. J Clin Endocrinol Metab 2009;94:3535-3542.
-
(2009)
J Clin Endocrinol Metab
, vol.94
, pp. 3535-3542
-
-
Stuart, C.1
Howell, M.2
Zhang, Y.3
-
23
-
-
77956641101
-
Proinflammatory cytokine and chemokine gene expression profiles in subcutaneous and visceral adipose tissue depots of insulin resistant and insulin sensitive light breed horses
-
Burns TA, Geor RJ, Mudge MC, et al. Proinflammatory cytokine and chemokine gene expression profiles in subcutaneous and visceral adipose tissue depots of insulin resistant and insulin sensitive light breed horses. J Vet Intern Med 2010;24:932-939.
-
(2010)
J Vet Intern Med
, vol.24
, pp. 932-939
-
-
Burns, T.1
Geor, R.2
Mudge, M.3
-
24
-
-
33645241775
-
Use of proxies and reference quintiles obtained from minimal model analysis for determination of insulin sensitivity and pancreatic beta-cell responsiveness in horses
-
Treiber KH, Kronfeld DS, Hess TM, et al. Use of proxies and reference quintiles obtained from minimal model analysis for determination of insulin sensitivity and pancreatic beta-cell responsiveness in horses. Am J Vet Res 2005;66:2114-2121.
-
(2005)
Am J Vet Res
, vol.66
, pp. 2114-2121
-
-
Treiber, K.1
Kronfeld, D.2
Hess, T.3
-
25
-
-
0344512595
-
Effects of exercise and glucose administration on content of insulin-sensitive glucose-transporter in equine skeletal muscles
-
Lacombe VA, Hinchcliff KW, Devor ST. Effects of exercise and glucose administration on content of insulin-sensitive glucose-transporter in equine skeletal muscles. Am J Vet Research 2003;64:1500-1506.
-
(2003)
Am J Vet Research
, vol.64
, pp. 1500-1506
-
-
Lacombe, V.1
Hinchcliff, K.2
Devor, S.3
-
26
-
-
56749170729
-
Calorie restriction initiated at a young age activates the Akt/PKCζ/λ-Glut4 pathway in rat white adipose tissue in an insulin-independent manner
-
Park S, Komatsu T, Hayashi H, et al. Calorie restriction initiated at a young age activates the Akt/PKCζ/λ-Glut4 pathway in rat white adipose tissue in an insulin-independent manner. AGE 2008;30:293-302.
-
(2008)
AGE
, vol.30
, pp. 293-302
-
-
Park, S.1
Komatsu, T.2
Hayashi, H.3
-
27
-
-
3442890305
-
Effects of feeding meals with various soluble-carbohydrate content on muscle glycogen synthesis after exercise in horses
-
Lacombe VA, Hinchcliff KW, Kohn CW, et al. Effects of feeding meals with various soluble-carbohydrate content on muscle glycogen synthesis after exercise in horses. Am J Vet Res 2004;65:916-923.
-
(2004)
Am J Vet Res
, vol.65
, pp. 916-923
-
-
Lacombe, V.1
Hinchcliff, K.2
Kohn, C.3
-
28
-
-
79952336228
-
-
BLAST. BLAST protein sequence database. Available at: Accessed May 21, 2010.
-
BLAST. 2010 BLAST protein sequence database. Available at: Accessed May 21, 2010.
-
(2010)
-
-
-
30
-
-
0031888070
-
Regulation of Glut 4 protein and glycogen synthase during muscle glycogen synthesis after exercise
-
Ivy JL, Kuo CH. Regulation of Glut 4 protein and glycogen synthase during muscle glycogen synthesis after exercise. Acta Physiol Scand 1998;162:295-304.
-
(1998)
Acta Physiol Scand
, vol.162
, pp. 295-304
-
-
Ivy, J.1
Kuo, C.2
-
31
-
-
34548403777
-
Time course of insulin sensitivity and skeletal muscle glycogen synthase activity after a single bout of exercise in horses
-
Pratt SE, Geor RJ, Spriet LL, et al. Time course of insulin sensitivity and skeletal muscle glycogen synthase activity after a single bout of exercise in horses. J Appl Physiol 2007;103:1063-1069.
-
(2007)
J Appl Physiol
, vol.103
, pp. 1063-1069
-
-
Pratt, S.1
Geor, R.2
Spriet, L.3
-
32
-
-
77649190291
-
Insulin stimulates GLUT4 translocation in the semitendinosus muscle of Shetland ponies
-
Duehlmeier R, Hacker A, Widdel-Bigdely A, et al. Insulin stimulates GLUT4 translocation in the semitendinosus muscle of Shetland ponies. Vet J 2010;184:176-181.
-
(2010)
Vet J
, vol.184
, pp. 176-181
-
-
Duehlmeier, R.1
Hacker, A.2
Widdel-Bigdely, A.3
-
33
-
-
3543038202
-
New insights into the integrated physiology of insulin action
-
Kitamura Y, Accili D. New insights into the integrated physiology of insulin action. Rev Endrocr Metab Disord 2004;5:143-149.
-
(2004)
Rev Endrocr Metab Disord
, vol.5
, pp. 143-149
-
-
Kitamura, Y.1
Accili, D.2
-
34
-
-
0030664299
-
Insulin resistance of muscle glucose transport in rats fed a high-fat diet
-
Diabetes.
-
Han DH, Hansen PA, Host HH, et al. Insulin resistance of muscle glucose transport in rats fed a high-fat diet: A reevaluation. Diabetes 1997;46:1761-1767.
-
(1997)
A reevaluation
, vol.46
, pp. 1761-1767
-
-
Han, D.1
Hansen, P.2
Host, H.3
-
35
-
-
0025302915
-
Evidence against altered expression of GLUT1 or GLUT4 in skeletal muscle of patients with obesity or NIDDM
-
Pedersen O, Bak JF, Andersen PH, et al. Evidence against altered expression of GLUT1 or GLUT4 in skeletal muscle of patients with obesity or NIDDM. Diabetes 1990;39:865-870.
-
(1990)
Diabetes
, vol.39
, pp. 865-870
-
-
Pedersen, O.1
Bak, J.2
Andersen, P.3
-
36
-
-
0025147293
-
Expression of insulin regulatable glucose transporters in skeletal muscle from type 2 (non-insulin-dependent) diabetic patients
-
Handberg A, Vaag A, Damsbo P, et al. Expression of insulin regulatable glucose transporters in skeletal muscle from type 2 (non-insulin-dependent) diabetic patients. Diabetologia 1990;33:625-627.
-
(1990)
Diabetologia
, vol.33
, pp. 625-627
-
-
Handberg, A.1
Vaag, A.2
Damsbo, P.3
-
37
-
-
0029775874
-
Insulin action on glucose transport and plasma membrane GLUT4 content in skeletal muscle from patients with NIDDM
-
Zierath JR, He L, Guma A, et al. Insulin action on glucose transport and plasma membrane GLUT4 content in skeletal muscle from patients with NIDDM. Diabetologia 1996;39:1180-1189.
-
(1996)
Diabetologia
, vol.39
, pp. 1180-1189
-
-
Zierath, J.1
He, L.2
Guma, A.3
-
38
-
-
0026459873
-
Insulin resistance in obese Zucker rat (fa/fa) skeletal muscle is associated with a failure of glucose transporter translocation
-
King PA, Horton ED, Hirshman MF, et al. Insulin resistance in obese Zucker rat (fa/fa) skeletal muscle is associated with a failure of glucose transporter translocation. J Clin Invest 1992;90:1568-1575.
-
(1992)
J Clin Invest
, vol.90
, pp. 1568-1575
-
-
King, P.1
Horton, E.2
Hirshman, M.3
-
39
-
-
57349197971
-
Resistance exercise increases human skeletal muscle AS160/TBC1D4 phosphorylation in association with enhanced leg glucose uptake during postexercise recovery
-
Drummond MJ, Bell JA, Fujita S, et al. Resistance exercise increases human skeletal muscle AS160/TBC1D4 phosphorylation in association with enhanced leg glucose uptake during postexercise recovery. J Appl Physiol 2008;105:1967-1974.
-
(2008)
J Appl Physiol
, vol.105
, pp. 1967-1974
-
-
Drummond, M.1
Bell, J.2
Fujita, S.3
-
40
-
-
33845998942
-
As160 regulates insulin- and contraction- stimulated glucose uptake in mouse skeletal muscle
-
Kramer HF, Witczak CA, Taylor EB, et al. As160 regulates insulin- and contraction- stimulated glucose uptake in mouse skeletal muscle. J Biol Chem 2006;281:31478-31485.
-
(2006)
J Biol Chem
, vol.281
, pp. 31478-31485
-
-
Kramer, H.1
Witczak, C.2
Taylor, E.3
-
41
-
-
26844573782
-
AS160, the Akt substrate regulating GLUT4 translocation, has a functional Rab GTPase-activating protein domain
-
Mîinea CP, Sano H, Kane S, et al. AS160, the Akt substrate regulating GLUT4 translocation, has a functional Rab GTPase-activating protein domain. Biochem J 2005;39:87-93.
-
(2005)
Biochem J
, vol.39
, pp. 87-93
-
-
Mîinea, C.1
Sano, H.2
Kane, S.3
-
42
-
-
56749173518
-
Regulation of glucose transporter 4 translocation by the Rab guanosine triphosphatase-activating protein AS160/TBC1D4
-
Mol Endocrinol.
-
Stöckli J, Davey JR, Hohnen-Behrens C, et al. Regulation of glucose transporter 4 translocation by the Rab guanosine triphosphatase-activating protein AS160/TBC1D4: Role of phosphorylation and membrane association. Mol Endocrinol 2008;22:2703-2715.
-
(2008)
Role of phosphorylation and membrane association
, vol.22
, pp. 2703-2715
-
-
Stöckli, J.1
Davey, J.2
Hohnen-Behrens, C.3
-
43
-
-
34147191128
-
Overexpression of GLUT5 in diabetic muscle is reversed by pioglitazone
-
Stuart CA, Howell MEA, Yin D. Overexpression of GLUT5 in diabetic muscle is reversed by pioglitazone. Diabetes Care 2007;30:925-931.
-
(2007)
Diabetes Care
, vol.30
, pp. 925-931
-
-
Stuart, C.1
Howell, M.2
Yin, D.3
|