Toshiyuki Takasu scite author profile

We evaluated the pharmacological characteristics of (R)-2-(2-aminothiazol-4-yl)-4Ј-{2-[(2-hydroxy-2-phenylethyl)amino]-ethyl} acetanilide (YM178). YM178 increased cyclic AMP accumulation in Chinese hamster ovary (CHO) cells expressing human ␤ 3 -adrenoceptor (AR). The half-maximal effective concentration (EC 50 ) value was 22.4 nM. EC 50 values of YM178 for human ␤ 1 -and ␤ 2 -ARs were 10,000 nM or more, respectively. The ratio of intrinsic activities of YM178 versus maximal response induced by isoproterenol (nonselective ␤-AR agonist) was 0.8 for human ␤ 3 -ARs, 0.1 for human ␤ 1 -ARs, and 0.1 for human ␤ 2 -ARs. The relaxant effects of YM178 were evaluated in rats and humans bladder strips precontracted with carbachol (CCh) and compared with those of isoproterenol and 4-[3-[(1,1-dimethylethyl)amino]-2-hydroxypropoxy]-1,3-dihydro-2H-benzimidazol-2-one hydrochloride (CGP-12177A) (␤ 3 -AR agonist). EC 50 values of YM178 and isoproterenol in rat bladder strips precontracted with 10 Ϫ6 M CCh were 5.1 and 1.4 M, respectively, whereas those in human bladder strips precontracted with 10 Ϫ7 M CCh were 0.78 and 0.28 M, respectively. In in vivo study, YM178 at a dose of 3 mg/kg i.v. decreased the frequency of rhythmic bladder contraction induced by intravesical filling with saline without suppressing its amplitude in anesthetized rats. These findings suggest the suitability of YM178 as a therapeutic drug for the treatment of symptoms of overactive bladder such as urinary frequency, urgency, and urge incontinence.

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Effects of SGLT2 selective inhibitor ipragliflozin on hyperglycemia, hyperlipidemia, hepatic steatosis, oxidative stress, inflammation, and obesity in type 2 diabetic mice

Tahara

Kurosaki

Yokono

et al. 2013

European Journal of Pharmacology

266

201

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SGLT2 selective inhibitor ipragliflozin reduces body fat mass by increasing fatty acid oxidation in high-fat diet-induced obese rats

Yokono

Takasu

Hayashizaki

et al. 2014

European Journal of Pharmacology

175

138

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Characterization and comparison of sodium-glucose cotransporter 2 inhibitors in pharmacokinetics, pharmacodynamics, and pharmacologic effects

Tahara

Takasu

Yokono

et al. 2016

Journal of Pharmacological Sciences

120

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The sodium-glucose cotransporter (SGLT) 2 offer a novel approach to treating type 2 diabetes by reducing hyperglycaemia via increased urinary glucose excretion. In the present study, the pharmacokinetic, pharmacodynamic, and pharmacologic properties of all six SGLT2 inhibitors commercially available in Japan were investigated and compared. Based on findings in normal and diabetic mice, the six drugs were classified into two categories, long-acting: ipragliflozin and dapagliflozin, and intermediate-acting: tofogliflozin, canagliflozin, empagliflozin, and luseogliflozin. Long-acting SGLT2 inhibitors exerted an antihyperglycemic effect with lower variability of blood glucose level via a long-lasting increase in urinary glucose excretion. In addition, ipragliflozin and luseogliflozin exhibited superiority over the others with respect to fast onset of pharmacological effect. Duration and onset of the pharmacologic effects seemed to be closely correlated with the pharmacokinetic properties of each SGLT2 inhibitor, particularly with respect to high distribution and long retention in the target organ, the kidney. While all six SGLT2 inhibitors were significantly effective in increasing urinary glucose excretion and reducing hyperglycemia, our findings suggest that variation in the quality of daily blood glucose control associated with duration and onset of pharmacologic effects of each SGLT2 inhibitor might cause slight differences in rates of improvement in type 2 diabetes.

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Ipragliflozin improves mitochondrial abnormalities in renal tubules induced by a high‐fat diet

Takagi

Takagaki

et al. 2018

J of Diabetes Invest

101

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Aims/IntroductionComplete mechanisms of renoprotective effects of sodium–glucose cotransporter 2 (SGLT2) inhibitors have not been elucidated yet. Mitochondrial biogenesis is regulated by membrane GTPases, such as optic atrophy factor 1 and mitofusion 2. Here, we investigated whether SGLT2 inhibition in mice fed with a high‐fat diet (HFD) improved mitochondrial morphology and restored mitochondrial biogenesis‐related molecules.Materials and MethodsMice were fed a control diet or HFD with or without ipragliflozin treatment. After 16 weeks, the kidneys were taken out and utilized for the analysis.Results HFD‐fed mice treated with ipragliflozin showed increased caloric intake and ate more food than the control HFD‐fed mice. Body and kidney weights, and blood glucose levels were not altered by ipragliflozin treatment in HFD‐fed mice. Histological analysis showed that, compared with control mice, HFD‐fed mice displayed tubular vacuolation, dilatation and epithelial cell detachment; ipragliflozin ameliorated these alterations. Furthermore, ultrastructural analysis showed that the tubule mitochondria of HFD‐fed mice exhibited significant damage. Again, ipragliflozin reversed the damage to a normal state, and restored optic atrophy factor 1 and mitofusion 2 levels in HFD‐fed mice. Increased urine 8‐hydroxydeoxyguanosine levels in HFD‐fed mice were suppressed by ipragliflozin as well. In vitro experiments using HK‐2 cells revealed that either high glucose or high palmitate suppressed optic atrophy factor 1 and mitofusion 2 levels. Suppression of SGLT2 by a specific small interfering ribonucleic acid or ipragliflozin restored these GTPase levels to their normal values.Conclusions SGLT2 inhibition might act directly on tubular cells and protect kidney tubular cells from mitochondrial damage by metabolic insults regardless of blood glucose levels or improvement in bodyweight reduction.

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