KDT501, a Derivative from Hops, Normalizes Glucose Metabolism and Body Weight in Rodent Models of Diabetes

Konda, Veera Reddy; Desai, Anuradha; Darland, Gary; Grayson, Neile; Bland, Jeffrey S.

doi:10.1371/journal.pone.0087848

Cited by 27 publications

(37 citation statements)

References 37 publications

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“…In examining the influence of isohumulones on obesity, Konda et al reported that a specific molecule synthesized from the isohumulone THIAA mixture had the ability to improve insulin signaling and obesity in both the diet-induced obesity mouse model of type 2 diabetes and the Zucker diabetic fatty rat model [49]. This study demonstrated that the isohumulone pharmacophore represents itself as a privileged structure that influences adipocyte physiology and adiposity.…”

Section: Influence Of the Hops-derived Isohumulones On Obesitymentioning

confidence: 84%

Isohumulones from hops (Humulus lupulus) and their potential role in medical nutrition therapy

Bland¹,

Minich²,

Lerman³

et al. 2015

PharmaNutrition

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Section: Influence Of the Hops-derived Isohumulones On Obesitymentioning

confidence: 84%

Isohumulones from hops (Humulus lupulus) and their potential role in medical nutrition therapy

Bland¹,

Minich²,

Lerman³

et al. 2015

PharmaNutrition

Self Cite

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“…Interestingly, KDT501 administration dose-dependently reduced weight gain in ZDF rats, while pioglitazone gained the weight. In addition, KDT501 reduced total cholesterol unlike pioglitazone, suggesting that the anti-diabetic action of KDT501 differs from that of pioglitazone (Konda et al, 2014). This study suggests that KDT501 might be a novel therapeutic agent for the management of T2DM.…”

Section: ) Falcarindiolmentioning

confidence: 79%

“…Administration of KDT501 in the DIO mouse and the ZDF rat improved glucose metabolism and reduced plasma HbA1c while it dose-dependently reduced the weight gain in the ZDF rat (Konda et al, 2014). Amorfrutin B…”

Section: Mbx-102mentioning

confidence: 99%

“…A recent study has identified an extract from hops (Humulus lupulus), known as KDT501 as a PPARγ partial agonist (Konda et al, 2014). KDT501 (EC 50 , 14.0 mM) was noted to exhibit weak and partial PPARγ activity, attaining only 297 7% of rosiglitazone's maximal activation (Konda et al, 2014).…”

Section: ) Falcarindiolmentioning

confidence: 99%

“…KDT501 (EC 50 , 14.0 mM) was noted to exhibit weak and partial PPARγ activity, attaining only 297 7% of rosiglitazone's maximal activation (Konda et al, 2014). Oral administration of KDT501 in the diet-induced obesity (DIO) mouse and the Zucker Diabetic Fatty (ZDF) rat models of diabetes mellitus improved glucose metabolism and reduced plasma glycated hemoglobin (HbA1c).…”

Section: ) Falcarindiolmentioning

confidence: 99%

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A step ahead of PPARγ full agonists to PPARγ partial agonists: Therapeutic perspectives in the management of diabetic insulin resistance

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Key Questions for Translation of FFA Receptors: From Pharmacology to Medicines

Suckow¹,

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The identification of fatty acids as ligands for the G-protein coupled free fatty acid (FFA) receptor family over 10 years ago led to intensive chemistry efforts to find small-molecule ligands for this class of receptors. Identification of potent, selective modulators of the FFA receptors and their utility in medicine has proven challenging, in part due to their complex pharmacology. Nevertheless, ligands have been identified that are sufficient for exploring the therapeutic potential of this class of receptors in rodents and, in the case of FFA1, FFA2, FFA4, and GPR84, also in humans. Expression profiling, the phenotyping of FFA receptor knockout mice, and the results of studies exploring the effects of these ligands in rodents have uncovered a number of indications where engagement of one or a combination of FFA receptors might provide some clinical benefit in areas including diabetes, inflammatory bowel syndrome, Alzheimer's, pain, and cancer. In this chapter, we will review the clinical potential of modulating FFA receptors based on preclinical and in some cases clinical studies with synthetic ligands. In particular, key aspects and challenges associated with small-molecule ligand identification and FFA receptor pharmacology will be addressed with a view of the hurdles that need to be overcome to fully understand the potential of the receptors as therapeutic targets.

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KDT501, a Derivative from Hops, Normalizes Glucose Metabolism and Body Weight in Rodent Models of Diabetes

Cited by 27 publications

References 37 publications

Isohumulones from hops (Humulus lupulus) and their potential role in medical nutrition therapy

Isohumulones from hops (Humulus lupulus) and their potential role in medical nutrition therapy

A step ahead of PPARγ full agonists to PPARγ partial agonists: Therapeutic perspectives in the management of diabetic insulin resistance

Key Questions for Translation of FFA Receptors: From Pharmacology to Medicines

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