Current Advances in the Biochemical and Physiological Aspects of the Treatment of Type 2 Diabetes Mellitus with Thiazolidinediones

Alemán-González-Duhart, Diana; Tamay‐Cach, Feliciano; Álvarez-Almazán, Samuel; Mendieta-Wejebe, Jessica Elena

doi:10.1155/2016/7614270

Cited by 44 publications

(34 citation statements)

References 81 publications

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“…Based on the crucial role of thiazolidinediones in the treatment of diabetes, and given the risk associated with the use of the available drugs of this class (AlSalman et al, 2000;Maeda, 2001;Scheen, 2001;Scheen, 2003;Marcy et al, 2004;Alemán-González-Duhart et al, 2016), the development of new safer thiazolidinediones is of current interest (Cesar et al, 2015;Rudnicki et al, 2016;Silva et al, 2016;Naim et al, 2017;Thangavel et al, 2017). Since glitazones do not cause liver damage in laboratory animals, comparing these to new thiazolidinediones in order to research the mechanism of toxicity can be misleading (Patel et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…Troglitazone was the first launched thiazolidinedione, but it was withdrawn from the market due to severe and sometimes fatal hepatotoxicity (Scheen, 2003). Rosiglitazone is available in the United States, whilst in Europe, its approval was withdrawn due to a significant increase in myocardial infarction (Alemán-González-Duhart et al, 2016); hepatotoxicity was also reported (Al-Salman et al, 2000;Forman et al, 2000). Pioglitazone ( Figure 1A) use in the United States is restricted as it may cause urinary bladder cancer (Alemán- González-Duhart et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Rosiglitazone is available in the United States, whilst in Europe, its approval was withdrawn due to a significant increase in myocardial infarction (Alemán-González-Duhart et al, 2016); hepatotoxicity was also reported (Al-Salman et al, 2000;Forman et al, 2000). Pioglitazone ( Figure 1A) use in the United States is restricted as it may cause urinary bladder cancer (Alemán- González-Duhart et al, 2016). In addition, hepatotoxicity cases have occurred (Maeda, 2001;Marcy et al, 2004), including one fulminant hepatic failure (Chase and Yarze, 2002).…”

Section: Introductionmentioning

confidence: 99%

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New Pioglitazone Metabolites and Absence of Opened-Ring Metabolites in New N-Substituted Thiazolidinedione

et al. 2018

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Number of references: 55Number of words in the Abstract: 241 Number of words in the Introduction: 750Number of words in the Discussion: 828Nonstandard abbreviations: ADME, absorption, distribution, metabolism, and excretion; CL h , hepatic clearance; CL int , intrinsic clearance; ESI, electrospray ionization; GQ-11, 5-(indol-3-ylmethylene)-3-(4-methylbenzyl)-thiazolidine-2,4-dione; HLM, human liver microsome; LC-HRMS, liquid chromatography coupled to high resolution mass spectrometry; LC-MS/MS, liquid chromatography-tandem mass spectrometry; MRM, multiple reaction monitoring; PPARγ, peroxisome proliferatoractivated receptor gamma; RLM, rat liver microsome; t 1/2 , half-life; TZD, thiazolidinedione;This article has not been copyedited and formatted. The final version may differ from this version. AbstractThiazolidinediones are drugs used to treat type 2 diabetes mellitus; however, there remain several safety concerns regarding the available drugs in this class. Therefore, the search for new thiazolidinedione candidates is still ongoing; metabolism studies play a crucial step in the development of new candidates. Pioglitazone, which is one of the most commonly used thiazolidinediones, and GQ-11, a new N-substituted thiazolidinedione, were investigated in terms of their metabolic activity in rat and human liver microsomes, in order to assess their metabolic stability and to investigate their metabolites. Methods for preparation of samples were based on liquid-liquid extraction and protein precipitation. Quantitation was performed using liquid chromatography-tandem mass spectrometry (LC-MS/MS), and the metabolite investigation was performed using Ultra-Performance Liquid Chromatography (UPLC) coupled to a hybrid quadrupole-time of flight (Q-Tof) mass spectrometer. The predicted intrinsic clearance of GQ-11 was 70.3 and 46.1 mL/kg/min for rats and humans, respectively. The predicted intrinsic clearance of pioglitazone was 24.1 and 15.9 mL/kg/min for rats and humans, respectively. The pioglitazone metabolite investigation revealed two unpublished metabolites (M-D and M-A). M-A is a hydration product, which may be related to the mechanism of ring opening, and the toxicity of pioglitazone. The metabolites of GQ-11 are products of oxidation; no ring opening metabolite was observed for GQ-11. In conclusion, in the same experimental conditions, a ring opening metabolite was observed only for pioglitazone. The resistance of GQ-11 to ring opening is probably related to N-substitution in the thiazolidinedione ring.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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New Pioglitazone Metabolites and Absence of Opened-Ring Metabolites in New N-Substituted Thiazolidinedione

et al. 2018

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“…Treatment strategies have focused on increasing the insulin receptor sensitivity. It has been clearly shown that Peroxisome proliferator-activated receptor-γ (PPAR-γ) agonists such as Rosiglitazone might improve glycemic control by enhancing insulin sensitivity [1] and ameliorate the impaired coronary arteriolar dilation by reducing oxidative stress. In spite of this positive effect on insulin sensitivity of Rosiglitazone, some authors indicated its adverse effects including fluid retention, weight gain, hepatotoxicity, plasma-volume expansion, hemodilution, edema, bone fractures [1].…”

Section: Introductionmentioning

confidence: 99%

“…It has been clearly shown that Peroxisome proliferator-activated receptor-γ (PPAR-γ) agonists such as Rosiglitazone might improve glycemic control by enhancing insulin sensitivity [1] and ameliorate the impaired coronary arteriolar dilation by reducing oxidative stress. In spite of this positive effect on insulin sensitivity of Rosiglitazone, some authors indicated its adverse effects including fluid retention, weight gain, hepatotoxicity, plasma-volume expansion, hemodilution, edema, bone fractures [1]. From 2007 in which was noticed the adverse effect of Rosiglitazone in development of atherosclerosis [2] till today, many conflicting meta-analyses have reported on the cardiovascular effect of thiazolidinediones [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Effect of PPAR-γ agonists on macrophage activation in type2 diabetes mellitus

Sözmen¹,

Karakaş²,

Topçugil³

et al. 2018

Ann Clin Anal Med

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Effect of (PPAR-γ) agonists on macrophage activationEffect of PPAR-γ agonists on macrophage activation in type2 diabetes mellitus DOI: 10.4328 AbstractAim: Recently, it has been proposed that inflammation triggered by macrophages as the pathogenic mechanism linked to the development of obesity-related insulin resistance. Peroxisome proliferator-activated receptor-γ (PPAR-γ) agonists which increase the insulin receptor sensitivity, might improve glycemic control by enhancing insulin sensitivity and ameliorate the impaired lipid profile. In this study, we assessed the effect of rosiglitazone (PPAR-γ agonist) on the insulin resistance and inflammatory markers. Material and Method: Thirty patients (11 men, 19 women) with type II diabetes mellitus (DM) were taken into the study. They were treated by rosiglitazone in a dose of 4mg/day as well as a diet for 12 weeks. Results: Rosiglitazone treatment significantly decreased HbA1c (p<0,01), IR-HOMA, hsCRP (p<0,01), triglyceride levels (p<0,05), CETP activity (p<0,01) and basal serum oxidation (TBARS levels, p<0,05). However, Chitotriosidase activity significantly increased after Rosiglitazone treatment (p<0,01). TNF, IL-6, sTNFR1, and sTNFR2 levels showed no statistically significant difference compared to their basal levels. Discussion: Rosiglitazone might treat diabetes by mediating glucose/lipid metabolism and preventing lipid oxidation in patients with DM. On the other hand, it has a dual role on inflammation; while it might induce macrophage activation suggesting its pro-inflammatory effect, it might also reduce the CRP levels by lowering gene expression suggesting its anti-inflammatory effect.

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