Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

New therapies for the long-term treatment of type 2 diabetes are needed to ameliorate declining pancreatic beta-cell function. Ideally, these therapies should lower fasting and post-prandial blood glucose, produce no hypoglycemia or weight gain, cause no other limiting side effects, and reduce cardiovascular complications. Exenatide (synthetic exendin-4) is a potential therapeutic which may fulfill these criteria. Dose-ranging studies have identified an optimal dose of 0.05 to 0.2 microgram/kg administered subcutaneously twice daily. Pharmacokinetic data support a pivotal study design which mitigates the transient nausea observed in early studies by including a dose initiation period of 1 month at 5 micrograms twice daily, followed by maintenance therapy at 10 micrograms twice daily. Ongoing studies suggest exenatide improves glycemic control through a combination of mechanisms discussed in this review.
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PMID:Pharmacology of exenatide (synthetic exendin-4) for the treatment of type 2 diabetes. 1280 78

Exenatide [AC002993, AC2993A, AC 2993, LY2148568, exendin 4], a glucagon-like peptide-1 (GLP-1) agonist, is a synthetic exendin 4 compound under development with Amylin Pharmaceuticals for the treatment of type 2 diabetes. Both exendin 4 and its analogue, exendin 3, are 39-amino acid peptides isolated from Heloderma horridum lizard venom that have different amino acids at positions 2 and 3, respectively. Exendins are able to stimulate insulin secretion in response to rising blood glucose levels, and modulate gastric emptying to slow the entry of ingested sugars into the bloodstream. Amylin Pharmaceuticals acquired exclusive patent rights for the two exendin compounds (exendin 3 and exendin 4) from the originator, Dr John Eng (Bronx, NY, US). On 20 September 2002, Amylin and Eli Lilly signed a collaborative agreement for the development and commercialisation of exenatide for type 2 diabetes. Under the terms of the agreement, Eli Lilly has paid Amylin a licensing fee of 80 million US dollars and bought Amylin's stock worth 30 million US dollars at 18.69 US dollars a share. After the initial payment, Eli Lilly will pay Amylin up to 85 US dollars million upon reaching certain milestones and also make an additional payment of up to 130 million US dollars upon global commercialisation of exenatide. Both companies will share the US development and commercialisation costs, while Eli Lilly will pick up up to 80% of development costs and all commercialisation costs outside the US. Amylin and Eli Lilly will equally share profit from sales in the US, while Eli Lilly will get 80% of the profit outside the US and Amylin will get the rest. This agreement has also enabled Amylin to train its sales force to co-promote Lilly's human growth hormone Humatrope. Alkermes will receive research and development funding and milestone payments, and also a combination of royalty payments and manufacturing fees based on product sales. Alkermes undertakes the responsibility for the development of several initial formulations of the long-acting drug and manufacturing of the final product, while Amylin will be responsible for clinical trials, regulatory filings and worldwide marketing. The goal of the exenatide LAR programme is to develop a once-a-month injectable formulation of exenatide. In November 2003, Amylin announced positive results from the second of three pivotal, phase III studies that evaluated the effects of exenatide in combination with sulfonylureas in 377 randomised patients with type 2 diabetes. The design of the study was similar to that from the first study. The final third phase III study of exenatide was completed in November 2003. This study investigated the effects of exenatide in combination with metformin and sulfonylureas. Amylin and Eli Lilly announced that all of the pivotal phase III trials met the primary glucose control endpoint as measured by glycosylated haemoglobin. An NDA submission for exenatide is projected for mid-2004. A phase II, dose-ascending study in patients with type 2 diabetes was initiated in June 2002. This multicentre (US), double-blind, placebo-controlled study evaluated the safety, tolerability and the pharmacokinetic profile of exenatide LAR in up to 100 patients with type 2 diabetes. A phase I study of exenatide LAR began in Europe in March 2001 and was completed in Q3 2001. A long-acting, sustained-release formulation of exenatide lowered both pre- and post-meal glucose concentration during a 24h period in patients with type 2 diabetes. In November 2002, analysts at Prudential Financial estimated that exenatide, pending approval, has the potential to reach sales of 477 million US dollars in 2006.
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PMID:Exenatide: AC 2993, AC002993, AC2993A, exendin 4, LY2148568. 1472 90

Exenatide is an incretin mimetic with potential glucoregulatory activity in type 2 diabetes. This randomized, single-blind, placebo-controlled 6-way crossover study assessed exenatide's effect on acetaminophen pharmacokinetics. Of 40 randomized healthy subjects, 39 completed the study. On the placebo day, acetaminophen (1000 mg) was ingested and placebo injected subcutaneously at 0 hours. On exenatide days, acetaminophen was ingested at -1, 0, +1, +2, and +4 hours, relative to the 10 mug exenatide injected subcutaneously at 0 hours. With exenatide injection, mean plasma acetaminophen AUC(0-12 h) values were reduced by 11% to 24% (vs placebo). Peak plasma acetaminophen concentrations were similar for the -1-hour and placebo groups and reduced by 37% to 56% at other times. The most frequent adverse events were generally mild to moderate nausea and vomiting. Exenatide treatment concurrent with or preceding acetaminophen ingestion slowed acetaminophen absorption but had minimal effect on the extent of absorption.
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PMID:Pharmacokinetics of an oral drug (acetaminophen) administered at various times in relation to subcutaneous injection of exenatide (exendin-4) in healthy subjects. 1583 81

Exenatide is an incretin mimetic. It improves glycaemic control via various glucoregulatory mechanisms, including glucose-dependent insulinotropism, suppression of inappropriately high glucagon levels, delayed gastric emptying and reduction of food intake. In three large, well designed, phase III trials in adults with type 2 diabetes mellitus and suboptimal glycaemic control despite treatment with metformin and/or a sulfonylurea, mean changes from baseline in glycosylated haemoglobin (HbA(1c)) significantly favoured subcutaneous exenatide 5 or 10microg twice daily over placebo after 30 weeks' treatment (primary endpoint). Relative to placebo, reductions from baseline in bodyweight were significantly greater with twice-daily exenatide 5microg (in two studies) or 10microg (in all three studies). Post hoc completer analyses revealed that the beneficial effects of exenatide on HbA(1c) and bodyweight were maintained for up to 82 weeks. Adjunctive therapy with subcutaneous exenatide 10microg twice daily improved glycaemic control to a similar extent as insulin glargine in patients with type 2 diabetes suboptimally controlled with metformin plus a sulfonylurea in a large, well designed, 26-week, phase III trial. Subcutaneous exenatide was generally well tolerated in patients with type 2 diabetes. The incidence of hypoglycaemia in patients receiving exenatide plus metformin was similar to that seen in placebo plus metformin recipients; however, in patients receiving a sulfonylurea (with or without metformin), the incidence of hypoglycaemia was numerically higher with exenatide than with placebo.
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PMID:Exenatide. 1606 Jul 3

The "incretin effect" describes the enhanced insulin response from orally ingested glucose compared with intravenous glucose leading to identical postprandial plasma glucose excursions. It makes up to 60% of the postprandial insulin secretion but is diminished in type 2 diabetes. Gastrointestinal hormones promoting the incretin effect are called incretins. Glucagon-like peptide- 1 (GLP-1) is an important incretin. In vitro and animal data have demonstrated that GLP-1 increases beta-cell mass by stimulating islet cell neogenesis and by inhibiting apoptosis of islets. The improvement of beta-cell function can be indirectly observed from the increased insulin secretory capacity of humans receiving GLP-1 or incretin mimetics that act like GLP-1. Furthermore, GLP-1 inhibits glucagon secretion and rarely causes hypoglycemia. It may represent an attractive therapeutic method for type 2 diabetes because of its multiple effects, including a slowing of gastric emptying and the simulation of satiety by acting as a transmitter in the CNS. Native GLP-1 is degraded rapidly upon intravenous or subcutaneous administration and is therefore not feasable for routine therapy. Long-acting GLP-1 analogs (e.g., Liraglutide [Novo Nordisk, Copenhagen, Denmark]) and exenadin-4 (Exenatide [Eli Lilly, Indianapolis, IN]) that are resistant to degradation, called "incretin mimetics," are being investigated in clinical trials. Dipeptidyl peptidase IV inhibitors (e.g., Vildagliptin [Novartis, Basel, Switzerland]) that inhibit the enzyme responsible for incretin degradation are also under study.
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PMID:Glucagon-like peptide-1 as a treatment option for type 2 diabetes and its role in restoring beta-cell mass. 1612 42

Exenatide (exendin-4) is an incretin mimetic with potential antidiabetic activity. This study examined the effects of a continuous subcutaneous (SC) infusion of exenatide (0.2, 0.4, 0.6, or 0.8 microg/kg/day) or placebo (PBO) on glycemic control over 23 h intervals. Twelve subjects with type 2 diabetes treated with metformin and/or diet received 10 infusions (4 exenatide, 6 PBO) on consecutive days. Exenatide was given in a dose-increasing design with at least one placebo infusion between each exenatide infusion, and with meals and a snack provided during the first 14 h of infusion. Plasma exenatide concentrations were dose-proportional. Plasma glucose (4-23 h) was lower in all exenatide arms compared to placebo (p<0.0001). The change in insulin/glucagon ratio and amylin concentrations from pre-infusion to post-infusion was increased (p<0.005, p<0.05, respectively) in the combined exenatide arms, but remained unchanged in the placebo groups. Nausea and vomiting were the most common treatment emergent adverse events. Exenatide infusion also appeared to have positive effects on beta-cell and alpha-cell function as measured by proinsulin/insulin ratios and mean glucagon concentrations. In summary, exenatide lowered plasma glucose during both prandial and fasting states when delivered as a continuous SC infusion over twenty-three hours, suggesting that exenatide can provide day-long glycemic control in patients with type 2 diabetes.
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PMID:Day-long subcutaneous infusion of exenatide lowers glycemia in patients with type 2 diabetes. 1627 86

Exenatide is the first in a new class of compounds that exhibit activity similar to the naturally occurring hormone glucagon-like peptide-1 (GLP-1). Released from cells in the gut in response to food, GLP-1 binds to pancreatic beta-cell receptors to stimulate the release of insulin. Exenatide mirrors many of the effects of GLP-1, improving glycemic control through a combination of mechanisms, which include glucose-dependent stimulation of insulin secretion, suppression of glucagon secretion, slowing of gastric emptying, reduced appetite and enhanced beta-cell function. As stimulation of insulin secretion occurs only in the presence of elevated blood glucose concentrations, the risk of hypoglycemia should be greatly reduced with exenatide. In addition to positive therapeutic effects on fasting and postprandial glucose levels, exenatide treatment is associated with significant, dose-dependent reductions in glycated hemoglobin (HbA1c) from baseline and progressive reductions in body weight. Exenatide is generally well tolerated; nausea is the most commonly reported side effect, but it can be significantly reduced when a target dose of exenatide is achieved in patients with gradual dose titration. Exenatide may enable patients with type 2 diabetes to achieve glycemic control while reducing or eliminating the risk of hypoglycemia and weight gain. These would represent significant therapeutic gains.
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PMID:Exenatide. 1634 Dec 88

Exenatide is a glucagon-like peptide-1 agonist. It is being investigated as an add-on therapy for patients with type 2 diabetes mellitus who are taking oral antidiabetic drugs. Evidence indicates that exenatide reduces glycosylated hemoglobin and plasma glucose levels when compared with placebo. Limitations of the therapy include the need for twice daily injections and potentially dose-limiting nausea and vomiting. Long-term studies are required to determine the effects of exenatide on disease-related morbidity and mortality.
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PMID:Exenatide for the treatment of type 2 diabetes mellitus. 1638 94

Type 2 diabetes is characterized by hyperglycemia resulting from insulin resistance in the setting of inadequate beta-cell compensation. Currently available therapeutic agents lower blood glucose through multiple mechanisms but do not directly reverse the decline in beta-cell mass. Glucagon-like peptide-1 (GLP-1) receptor agonists, exemplified by Exenatide (exendin-4), not only acutely lower blood glucose but also engage signaling pathways in the islet beta-cell that lead to stimulation of beta-cell replication and inhibition of beta-cell apoptosis. Similarly, glucose-dependent insulinotropic polypeptide (GIP) receptor activation stimulates insulin secretion, enhances beta-cell proliferation, and reduces apoptosis. Moreover, potentiation of the endogenous postprandial levels of GLP-1 and GIP via inhibition of dipeptidyl peptidase-IV (DPP-IV) also expands beta-cell mass via related mechanisms. The thiazolidinediones (TZDs) enhance insulin sensitivity, reduce blood glucose levels, and also preserve beta-cell mass, although it remains unclear whether TZDs affect beta-cell mass via direct mechanisms. Complementary approaches to regeneration of beta-cell mass involve combinations of factors, exemplified by epidermal growth factor and gastrin, which promote islet neogenesis and ameliorate diabetes in rodent studies. Considerable preclinical data support the concept that one or more of these therapeutic approaches, alone or in combination, may potentially reverse the decline in beta-cell mass that is characteristic of the natural history of type 2 diabetes.
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PMID:Therapeutic approaches to preserve islet mass in type 2 diabetes. 1640 49

Type 2 diabetes is recognised as a major cardiovascular risk factor, and future therapies must therefore address more than just blood glucose levels. Novel approaches to the treatment of type 2 diabetes are now at various stages of development or regulatory approval. Exenatide and pramlintide, analogues of gut-derived hormones glucagon-like peptide-1 (GLP-1) and amylin, respectively, have demonstrated improvements in glycaemic control and bodyweight in clinical studies and have been recently approved for treatment of type 2 diabetes. Initial studies have indicated that agents that activate both peroxisome proliferator-activated receptor (PPAR)alpha and gamma improve glycaemic control and have beneficial effects on lipid profiles. Two dual PPARalpha/gamma agonists, muraglitazar and tesaglitazar, are under regulatory review and in phase III trials, respectively. Modulation of the endogenous endocannabinoid system by rimonabant, which is under regulatory review, has been shown to improve body weight, atherogenic lipid profiles and glycaemic control. In addition, enhanced understanding of the pathophysiology underlying the microvascular complications of type 2 diabetes has led to the development of targeted therapies for conditions such as diabetic retinopathy, including the protein kinase C (PKC)-antagonist ruboxistaurin, now in phase III trials. Such therapies should enable physicians to achieve more for their patients with type 2 diabetes.
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PMID:Diabetes: assessing the pipeline. 1650 99


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