Tomomi Ishihara scite author profile

T-1095A and T-1095 are synthetic agents derived from phlorizin, a specific inhibitor of Na+-glucose cotransporters (SGLTs). Unlike phlorizin, T-1095 is absorbed into the circulation via oral administration, is metabolized to the active form, T-1095A, and suppresses the activity of SGLTs in the kidney. Orally administered T-1095 increases urinary glucose excretion in diabetic animals, thereby decreasing blood glucose levels. Indeed, the postprandial hyperglycemia after a meal load was shown to be suppressed by this compound in streptozotocin (STZ)-induced diabetic rats. With long-term T-1095 treatment, both blood glucose and HbA1c levels were reduced in STZ-induced diabetic rats and yellow KK mice. In addition, there was amelioration of abnormal carbohydrate metabolism, i.e., hyperinsulinemia and hypertriglyceridemia, and of the development of microalbuminuria, in yellow KK mice. Thus, T-1095 may be a useful antidiabetic drug, providing a novel therapeutic approach for diabetes.

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Improved diabetic syndrome in C57BL/KsJ‐db/db mice by oral administration of the Na⁺‐glucose cotransporter inhibitor T‐1095

Akita

Ishihara

Oku

et al. 2001

British J Pharmacology

143

110

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1 The therapeutic e ects of an orally active inhibitor of Na + -glucose cotransporter (SGLT), T-1095 (a derivative of phlorizin; 3-(benzo [b]furan-5-yl)-2',6'-dihydroxy-4'-methylpropiophenone 2'-O-(6-O-methoxycarbonyl-b-D-glycopyranoside)) were examined in C57BL/KsJ-db/db (db/db) mice, a genetic animal model of obese type 2 diabetes. 2 The higher renal SGLT activity in db/db mice than normoglycaemic C57BL/KsJ-db/+m (db/ +m) mice may support the rationale for using an SGLT inhibitor in the treatment regimen for type 2 diabetes. Both T-1095 and its metabolite, T-1095A, which had approximately 10 times more potency, e ectively inhibited renal SGLT activity of these mice in vitro.3 Single oral administration of T-1095 (10, 30, 100 mg kg 71 , p.o.) to db/db mice caused a dosedependent reduction in blood glucose levels and a concomitant increase in glucose excretion into urine. In contrast, T-1095 only slightly a ected blood glucose levels in db/+m mice. 4 Chronic administration of T-1095 (0.1% w w 71 pellet chow, for 12 weeks) decreased blood glucose and haemoglobin A 1C levels, and improved glucose intolerance in db/db mice. The agerelated decrease in plasma insulin levels was markedly inhibited and there was a 2.5 fold increase of insulin content in the pancreas of T-1095-treated db/db mice. Food consumption was not changed, while impaired body weight gain was ameliorated by T-1095 treatment. 5 Both the development of albuminuria and the expansion of glomerular mesangial area in db/db mice were signi®cantly suppressed by chronic T-1095 treatment, indicating the prevention of the progression of diabetic nephropathy. 6 These results demonstrate that the SGLT inhibitor T-1095 is able to improve the metabolic abnormalities and inhibit the development of diabetic complications in db/db mice. Thus, T-1095 can be used for therapy of type 2 diabetic patients.

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Long-term treatment with the Na+-glucose cotransporter inhibitor T-1095 causes sustained improvement in hyperglycemia and prevents diabetic neuropathy in Goto-Kakizaki Rats

et al. 2005

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Counteraction of retinoic acid and 1,25-dihydroxyvitamin D3 on up-regulation of adipocyte differentiation with PPARγ ligand, an antidiabetic thiazolidinedione, in 3T3-L1 cells

Hida

Kawada²,

Kayahashi

et al. 1998

Life Sciences

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MGAT2 deficiency ameliorates high-fat diet-induced obesity and insulin resistance by inhibiting intestinal fat absorption in mice

Tsuchida¹,

Fukuda²,

Aoyama³

et al. 2012

Lipids Health Dis

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BackgroundResynthesis of triglycerides in enterocytes of the small intestine plays a critical role in the absorption of dietary fat. Acyl-CoA:monoacylglycerol acyltransferase-2 (MGAT2) is highly expressed in the small intestine and catalyzes the synthesis of diacylglycerol from monoacylglycerol and acyl-CoA. To determine the physiological importance of MGAT2 in metabolic disorders and lipid metabolism in the small intestine, we constructed and analyzed Mgat2-deficient mice.ResultsIn oral fat tolerance test (OFTT), Mgat2-deficient mice absorbed less fat into the circulation. When maintained on a high-fat diet (HFD), Mgat2-deficient mice were protected from HFD-induced obesity and insulin resistance. Heterozygote (Mgat2+/−) mice had an intermediate phenotype between Mgat2+/+ and Mgat2−/− and were partially protected from metabolic disorders. Despite of a decrease in fat absorption in the Mgat2-deficient mice, lipid levels in the feces and small intestine were comparable among the genotypes. Oxygen consumption was increased in the Mgat2-deficient mice when maintained on an HFD. A prominent upregulation of the genes involved in fatty acid oxidation was observed in the duodenum but not in the liver of the Mgat2-deficient mice.ConclusionThese results suggest that MGAT2 has a pivotal role in lipid metabolism in the small intestine, and the inhibition of MGAT2 activity may be a promising strategy for the treatment of obesity-related metabolic disorders.

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Tomomi Ishihara

T-1095, an inhibitor of renal Na+-glucose cotransporters, may provide a novel approach to treating diabetes.

Improved diabetic syndrome in C57BL/KsJ‐db/db mice by oral administration of the Na⁺‐glucose cotransporter inhibitor T‐1095

Long-term treatment with the Na+-glucose cotransporter inhibitor T-1095 causes sustained improvement in hyperglycemia and prevents diabetic neuropathy in Goto-Kakizaki Rats

Counteraction of retinoic acid and 1,25-dihydroxyvitamin D3 on up-regulation of adipocyte differentiation with PPARγ ligand, an antidiabetic thiazolidinedione, in 3T3-L1 cells

MGAT2 deficiency ameliorates high-fat diet-induced obesity and insulin resistance by inhibiting intestinal fat absorption in mice

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Tomomi Ishihara

T-1095, an inhibitor of renal Na+-glucose cotransporters, may provide a novel approach to treating diabetes.

Improved diabetic syndrome in C57BL/KsJ‐db/db mice by oral administration of the Na+‐glucose cotransporter inhibitor T‐1095

Long-term treatment with the Na+-glucose cotransporter inhibitor T-1095 causes sustained improvement in hyperglycemia and prevents diabetic neuropathy in Goto-Kakizaki Rats

Counteraction of retinoic acid and 1,25-dihydroxyvitamin D3 on up-regulation of adipocyte differentiation with PPARγ ligand, an antidiabetic thiazolidinedione, in 3T3-L1 cells

MGAT2 deficiency ameliorates high-fat diet-induced obesity and insulin resistance by inhibiting intestinal fat absorption in mice

Contact Info

Product

Resources

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Improved diabetic syndrome in C57BL/KsJ‐db/db mice by oral administration of the Na⁺‐glucose cotransporter inhibitor T‐1095