Evolution of Exenatide as a Diabetes Therapeutic

Bhavsar, Sunil; Mudaliar, Sunder; Cherrington, Alan D.

doi:10.2174/157339913805076472

Cited by 26 publications

(33 citation statements)

References 124 publications

(245 reference statements)

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“…Synthetic analogs of exendin-4 have been approved for diabetes therapy, and their efficacy is mostly linked to their resistance to degradation by DPP-4, the enzyme that quickly degrades endogenous GLP-1. 114 Later studies suggested that epigenetic effects, such as DNA methylation and/or histone modifications, could mediate the effects of exendin-4 and its synthetic analogs. 115 However, it is not known whether these peptides exert the anti-diabetic effect by inducing epigenetic changes, and their classification as epidrug remains hypothetical.…”

Section: Other Potential Epidrugsmentioning

confidence: 99%

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

et al. 2017

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Epigenetics is involved in the altered expression of gene networks that underlie insulin resistance and insufficiency. Major genes controlling b-cell differentiation and function, such as PAX4, PDX1, and GLP1 receptor, are epigenetically controlled. Epigenetics can cause insulin resistance through immunomediated pro-inflammatory actions related to several factors, such as NF-kB, osteopontin, and Toll-like receptors. Hereafter, we provide a critical and comprehensive summary on this topic with a particular emphasis on translational and clinical aspects. We discuss the effect of epigenetics on b-cell regeneration for cell replacement therapy, the emerging bioinformatics approaches for analyzing the epigenetic contribution to type 2 diabetes mellitus (T2DM), the epigenetic core of the transgenerational inheritance hypothesis in T2DM, and the epigenetic clinical trials on T2DM. Therefore, prevention or reversion of the epigenetic changes occurring during T2DM development may reduce the individual and societal burden of the disease.

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Section: Other Potential Epidrugsmentioning

confidence: 99%

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

et al. 2017

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“…In contrast, rosiglitazone was associated with a two-fold increase in insulin sensitivity, while exenatide twice daily had no significant insulin-sensitizing effect. β-cell function was further evaluated using the disposition index, which is calculated from hyperglycemic and glucagon secretion [14], which in turn reduces hepatic glucose production [15]. Furthermore, GLP-1RAs slow gastric emptying, decrease food intake, and promote satiety [14].…”

Section: Functional Studiesmentioning

confidence: 99%

“…β-cell function was further evaluated using the disposition index, which is calculated from hyperglycemic and glucagon secretion [14], which in turn reduces hepatic glucose production [15]. Furthermore, GLP-1RAs slow gastric emptying, decrease food intake, and promote satiety [14]. Because native GLP-1 and GLP-1RAs were shown to reduce apoptosis and/or increase cellular proliferation and β-cell mass in rodent models of diabetes and insulin resistance [16,17], it was hypothesized that GLP-1RAs may modify β-cell function in patients with T2D.…”

Section: Functional Studiesmentioning

confidence: 99%

Effects of Glucagon-Like Peptide-1 Receptor Agonists on β-Cell Function in Patients with Type 2 Diabetes

Grandy¹,

Shaunik²

2015

J Diabetes Metab

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Type 2 diabetes (T2D) is characterized by insulin resistance and a progressive decline in pancreatic β-cell function. Over time, upregulation of insulin secretion is no longer sufficient to compensate for insulin resistance, leading to fasting hyperglycemia, while β-cell function continues to deteriorate. Effective treatments targeting the underlying pathophysiology of T2D involve early lifestyle interventions and a combination of therapies to counteract insulin resistance and progressive deterioration of β cells. Glucagon-like peptide-1 receptor agonists (GLP-1RAs) are one class of antihyperglycemic agents that target multiple pathways, mediating clinical benefits for patients with T2D. This review summarizes the effects of treatment with various GLP-1RAs, including exenatide (twice daily and once weekly), liraglutide, dulaglutide, and lixisenatide, on β-cell function in patients with T2D. β-cell function was assessed in randomized controlled trials and their extension studies using a variety of methods, including glucose and arginine clamp techniques, proinsulin-to-insulin ratio, and homeostatic model assessment of β-cell function (HOMA-B). Exenatide twice daily and liraglutide both improved first-and second-phase insulin secretory responses. In addition, numerous studies reported significant improvements in HOMA-B with exenatide (twice daily and once weekly; range of relative change from baseline: +28-50%; range of absolute change: +5-40%) or liraglutide (range of change vs. placebo: +13-43%). Improvements in HOMA-B were also observed with the newer GLP-1RAs dulaglutide and lixisenatide. In contrast to the effects on HOMA-B, treatment with GLP-1RAs had a lesser effect on insulin sensitivity. Taken together, the results suggest that glucagon-like peptide-1 analogs have a greater effect on β-cell function than insulin sensitivity.

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“…[1][2][3] In 2012, the US FDA approved a long-acting formulation of exenatide for once-weekly administration that can be administered regardless of meal times; 4 European Medicines Agency approval occurred in 2011. The long-acting, sustained release of exenatide is achieved by dispersion of the parent exenatide molecule in poly-(D,L-lactide-co-glycolide) polymer microspheres approximately 0.06 mm in diameter.…”

mentioning

confidence: 99%

“…After injection of microspheres into the subcutaneous space, gradual biodegradation of the polymer matrix into CO 2 and H 2 O releases exenatide continuously over an extended duration. With regular once-weekly dosing, mean exenatide levels exceed the minimal effective concentration (50 pg/mL) in 2 weeks and achieve steady state in 6-7 weeks, resulting in consistent concentrations of exenatide.…”

mentioning

confidence: 99%

Evaluation of the Dual-Chamber Pen Design for the Injection of Exenatide Once Weekly for the Treatment of Type 2 Diabetes

LaRue

Malloy

2015

J Diabetes Sci Technol

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Exenatide is the first-in-class glucagon-like peptide-1 receptor agonist (GLP-1RA) originally approved in 2005 by the US Food and Drug Administration (FDA) as a twice daily premeal subcutaneous injection administered by pen for the treatment of hyperglycemia in patients with type 2 diabetes mellitus (T2DM).1 GLP-1RAs increase glucose-dependent insulin secretion, suppress glucagon secretion, and slow gastric emptying.2 The exenatide molecule shares approximately 53% structural similarity to human GLP-1 but is resistant to enzymatic degradation by dipeptidyl peptidase-4 resulting in a prolonged physiological response and an increased halflife of 2.4 hours compared with 2 minutes for native GLP-1. [1][2][3] In 2012, the US FDA approved a long-acting formulation of exenatide for once-weekly administration that can be administered regardless of meal times; 4 European Medicines Agency approval occurred in 2011. The long-acting, sustained release of exenatide is achieved by dispersion of the parent exenatide molecule in poly-(D,L-lactide-co-glycolide) polymer microspheres approximately 0.06 mm in diameter. Similar polymer material has been used in surgical sutures, bone plates, and orthopedic implants for decades. 5These exenatide-containing microspheres must be suspended Methods: Design development goals were established, and validation tests (dose accuracy, torque/force requirements, usability, and ease-of-use) were performed. Dose accuracy was tested under a variety of conditions. After 10 exploratory studies in 329 patients, the final design's usability and ease-of-use were tested in untrained health care practitioners (HCPs; n = 16) and untrained/trained patients (n = 30/17). Usability testing evaluated completion of multiple setup, dose preparation, and injection steps. Ease-of-use impression was assessed using a scale of 1−7 (1 = very difficult, 7 = very easy). Results:The dual-chamber pen successfully met development goals and delivered target volume (650 µL ± 10%) under tested conditions (mean 644.7-649.3 µL), with torque and force requirements below prespecified maximum values. In the final user study, most participants (≥87%) correctly completed pen setup, dose preparation, and injection steps. Mean easeof-use scores were 5.8, 6.3, and 6.5 out of 7 in untrained HCPs, untrained patients, and trained patients, respectively. Conclusion:With self-education or minimal training, participants accurately and precisely suspended, mixed, and delivered exenatide-containing microspheres using the dual-chamber pen with high ease-of-use scores. The dual-chamber pen was FDA-approved in February 2014.

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Evolution of Exenatide as a Diabetes Therapeutic

Cited by 26 publications

References 124 publications

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

Effects of Glucagon-Like Peptide-1 Receptor Agonists on β-Cell Function in Patients with Type 2 Diabetes

Evaluation of the Dual-Chamber Pen Design for the Injection of Exenatide Once Weekly for the Treatment of Type 2 Diabetes

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