A New Option for Glycemic Control: Insulin Degludec, a New‐Generation Basal Insulin with an Ultralong Duration of Action

Newer Insulin Preparations and Insulin Analogs

Diabetes mellitus represents a significant and growing global health challenge, with its prevalence steadily increasing. Insulin therapy remains a cornerstone of diabetes management. Since its discovery in 1921, insulin has undergone substantial advancements, evolving from crude animal extracts to highly refined recombinant formulations and biosimilars. This review explores the progression of insulin therapies, emphasizing the evolution from conventional insulins to modern analogs designed to mimic endogenous insulin more effectively. The limitations of early insulin formulations, such as unpredictable absorption, rigid dosing regimens, and an increased risk of hypoglycemia, highlighted the need for improved therapies. Modern insulin analogs, including fast-acting (e.g., insulin lispro), long-acting (e.g., insulin glargine and insulin degludec), and ultra-long-acting (e.g., insulin icodec) options, address these challenges by providing stable and consistent pharmacokinetics, along with enhanced glycemic control. Furthermore, biosimilar insulins, produced via recombinant DNA technology, have increased accessibility while maintaining therapeutic efficacy and safety. Recent innovations, such as ultra-long-acting insulins and combination therapies like insulin icodec with semaglutide, offer the potential to reduce injection frequency and enable personalized diabetes care. These advancements contribute to improved patient compliance, reduced glycemic variability, and an enhanced quality of life. This review highlights the critical role of ongoing research and innovation in insulin therapy to meet the evolving needs of diabetes management.

Recombinant Expression and Stapling of a Novel Long-Acting GLP-1R Peptide Agonist

Owing to their pleiotropic metabolic benefits, glucagon-like peptide-1 receptor (GLP-1R) agonists have been successfully utilized for treating metabolic diseases, such as type 2 diabetes and obesity. As part of our efforts in developing long-acting peptide therapeutics, we have previously reported a peptide engineering strategy that combines peptide side chain stapling with covalent integration of a serum protein-binding motif in a single step. Herein, we have used this strategy to develop a second generation extendin-4 analog rigidified with a symmetrical staple, which exhibits an excellent in vivo efficacy in an animal model of diabetes and obesity. To simplify the scale-up manufacturing of the lead GLP-1R agonist, a semisynthesis protocol was successfully developed, which involves recombinant expression of the linear peptide followed by attachment of a polyethylene glycol (PEG)-fatty acid staple in a subsequent chemical reaction step.

Clinically Relevant Insulin Degludec and its Interaction with Polysaccharides: A Biophysical Examination

Protein polysaccharide complexes have been widely studied for multiple industrial applications and are popular due to their biocompatibility. Insulin degludec, an analogue of human insulin, exists as di-hexamer in pharmaceutical formulations and has the potential to form long multi-hexamers in physiological environment, which dissociate into monomers to bind with receptors on the cell membrane. This study involved complexation of two negatively charged bio-polymers xanthan and alginate with clinically-relevant insulin degludec (PIC). The polymeric complexations and interactions were investigated using biophysical methods. Intrinsic viscosity [η] and particle size distribution (PSD) of PIC increased significantly with an increase in temperature, contrary to the individual components indicating possible interactions. [η] trend was X > XA > PIC > A > IDeg. PSD trend was X > A > IDeg > XA > PIC. Zeta (ζ)- potential (with general trend of IDeg < A < XA < X ≈ PIC) revealed stable interaction at lower temperature which gradually changed with an increase in temperature. Likewise, sedimentation velocity indicated stable complexation at lower temperature. With an increase in time and temperature, changes in the number of peaks and area under curve were observed for PIC. Conclusively, stable complexation occurred among the three polymers at 4 °C and 18 °C and the complex dissociated at 37 °C. Therefore, the complex has the potential to be used as a drug delivery vehicle.

Insulin Therapy and Diabetic Pregnancy

BACKGROUND

A good metabolic control before conception and throughout pregnancy with diabetes decreases the risk of short- and long-term adverse outcomes of the mothers and their offsprings. Insulin treatment remains the gold standard treatment recommended for any type of diabetes. New technologies including new insulins and insulin analogues, continuous subcutaneous insulin infusion without and with sensors, the low-glucose predictive suspension function, and closed-loop systems that persistently and automatically self-adjust according to patients' continuous glucose monitoring readings have expanded the offer to clinicians for achieving tight glucose control.

AREAS OF UNCERTAINTY

Unsafe effects of insulin and insulin analogues in pregnancy with diabetes could be linked with changes in insulin immunogenicity, teratogenicity, and mitogenicity. Second-generation insulin analogues need to be tested and proven. Effectiveness and safety of new insulin delivery systems in real life of diabetic women in pregnancy need further confirmations.

SOURCES

MEDLINE, EMBASE, Web of Science, Cochrane Library, randomized controlled trials, systematic review and meta-analysis, observational prospective and retrospective studies, case series reports for the most recent insulin analogues, published in English impacted journals, and consensus statements from scientific societies I excluded 60 from 221 papers as not suitable for the purpose of the subject.

RESULTS

Subcutaneous insulin infusion can be safely used during pregnancy and delivery of well-trained women. Sensors are increasingly accurate tools that improve the efficacy and safety of integrated systems' functioning. Continuous glucose monitoring provides metrics ("time in range" time in "hypoglycemia" and in "hyperglycemia," glucose variability, average glucose levels in different time intervals) used as a guide to diabetes management; these new metrics are object of discussion in special populations. Randomized controlled trials have shown that sensor-augmented pump therapy improves pregnancy outcomes in women with type 1 diabetes. Closed-loop insulin delivery provides better glycemic control than sensor-augmented pump therapy during pregnancy, before, and after delivery.

CONCLUSION

Second-generation insulin analogues and newer insulin infusion systems that automatically self-adjust according to patients continuous glucose monitor readings are important tools improving the treatment and quality of life of these women. Multi-institutional and disciplinary teams are working to develop and evaluate a pregnancy-specific artificial pancreas.

Stapled, Long-Acting Glucagon-like Peptide 2 Analog with Efficacy in Dextran Sodium Sulfate Induced Mouse Colitis Models

Glucagon-like peptide 2 (GLP-2) is a hormone that has been shown to stimulate intestinal growth and attenuate intestinal inflammation. Despite being efficacious in a variety of animal models of disease, its therapeutic potential is hampered by the short half-life in vivo. We now describe a highly potent, stapled long-acting GLP-2 analog, peptide 10, that has a more than 10-fold longer half-life than teduglutide and improved intestinotrophic and anti-inflammatory effects in mouse models of DSS-induced colitis.

New Basal Insulins: a Clinical Perspective of Their Use in the Treatment of Type 2 Diabetes and Novel Treatment Options Beyond Basal Insulin

PURPOSE OF REVIEW

The purpose of this review was to review advances in basal insulin formulations and new treatment options for patients with type 2 diabetes not achieving glycemic targets despite optimized basal insulin therapy.

RECENT FINDINGS

Advances in basal insulin formulations have resulted in products with increasingly favorable pharmacokinetic and pharmacodynamic properties, including flatter, peakless action profiles, less inter- and intra-patient variability, and longer duration of activity. These properties have translated to significantly reduced risk of hypoglycemia (particularly during the night) compared with previous generation basal insulins. When optimized basal insulin therapy is not sufficient to obtain or maintain glycemic goals, various options exist to improve glycemic control, including intensification of insulin therapy with the addition of prandial insulin or changing to pre-mixed insulin and, more recently, the addition of a GLP-1 receptor agonist, either as a separate injection or as a component of one of the new fixed-ratio combinations of a basal insulin and GLP-1 RA. New safer and often more convenient basal insulins and fixed ratio combinations containing basal insulin (and GLP-1 receptor agonist) are available today for patients with type 2 diabetes not achieving glycemic goals. Head-to-head studies comparing the latest generation basal insulins are underway, and future studies assessing the fixed-ratio combinations will be important to better understand their differentiating features.

Type 2 Diabetes, Hypoglycemia, and Basal Insulins: Ongoing Challenges

Hypoglycemia in people with insulin-treated type 2 diabetes can be a limiting factor for management and a barrier to optimizing glycemic control. Even mild episodes of hypoglycemia can affect an individual's quality of life, and fear of hypoglycemia can lead to underinsulinization. This article explores the prevalence and consequences of hypoglycemia in people with type 2 diabetes with a focus on those who use basal insulins, offering strategies for prevention and management. It also discusses the benefits and challenges associated with new basal insulins, and their potential role in reducing hypoglycemia risk.

Engineering a long-acting, potent GLP-1 analog for microstructure-based transdermal delivery

Antidiabetic treatments aiming to reduce body weight are currently gaining increased interest. Exendin-4, a glucagon-like peptide-1 (GLP-1) receptor agonist administered twice daily via s.c. injection, improves glycemic control, often with associated weight reduction. To further improve the therapeutic efficacy of exendin-4, we have developed a novel peptide engineering strategy that incorporates a serum protein binding motif onto a covalent side-chain staple and applied to the peptide to enhance its helicity and, as a consequence, its potency and serum half-life. We demonstrated that one of the resulting peptides, E6, has significantly improved half-life and glucose tolerance in an oral glucose tolerance test in rodents. Chronic treatment of E6 significantly decreased body weight and fasting blood glucose, improved lipid metabolism, and also reduced hepatic steatosis in diet-induced obese mice. Moreover, the high potency of E6 allowed us to administer this peptide using a dissolvable microstructure-based transdermal delivery system. Pharmacokinetic and pharmacodynamic studies in guinea pigs showed that a single 5-min application of a microstructure system containing E6 significantly improved glucose tolerance for 96 h. This delivery strategy may offer an effective and patient-friendly alternative to currently marketed GLP-1 injectables and can likely be extended to other peptide hormones.

U300 Insulin Glargine: A Novel Basal Insulin for Type 1 and Type 2 Diabetes

Objective: To review clinical efficacy and safety of insulin glargine 300 units/mL (Gla-300), a novel high-concentration basal insulin. Data Sources: A MEDLINE search was performed to identify relevant articles published 1960 through February 2015 using the search term glargine 300. Published abstracts from conference proceedings of the American Diabetes Association 74th Scientific Sessions were identified. Study Selection and Data Extraction: Human studies that evaluated pharmacokinetics, efficacy, or safety of Gla-300 were included. Data Synthesis: Six trials investigated efficacy and safety of Gla-300; 3 of 6 trials were available in abstract form only. The EDITION group of trials compared Gla-300 to insulin glargine 100 units/mL (Gla-100) in several populations. These included subjects with type 1 diabetes continuing mealtime insulin and subjects with type 2 diabetes on basal and mealtime insulin, basal insulin and oral antidiabetic drugs (OADs), and with no prior insulin use. Three studies were multinational including 2 studies exclusive to Japanese participants. Each clinical trial was an open-label, multicenter, randomized study with 6 to 12 months of follow-up. Gla-300 demonstrated similar reductions in HbA1c compared to Gla-100. Basal insulin requirements increased by 11% to 17% with Gla-300 without excessive weight gain. Rates of overall hypoglycemia were similar with Gla-300 compared to Gla-100; however, 16% to 38% less nocturnal hypoglycemia was observed in type 2 clinical trials. Conclusions: Gla-300 in combination with mealtime insulin or OADs has shown comparable glycemic control with higher insulin dose requirements versus Gla-100, and may induce less hypoglycemia in patients with type 2 diabetes.

Optimal therapy of type 2 diabetes: a controversial challenge

Type 2 diabetes mellitus (T2DM) is one of the most common chronic disorders in older adults and the number of elderly diabetic subjects is growing worldwide. Nonetheless, the diagnosis of T2DM in elderly population is often missed or delayed until an acute metabolic emergency occurs. Accumulating evidence suggests that both aging and environmental factors contribute to the high prevalence of diabetes in the elderly. Clinical management of T2DM in elderly subjects presents unique challenges because of the multifaceted geriatric scenario. Diabetes significantly lowers the chances of "successful" aging, notably it increases functional limitations and impairs quality of life. In this regard, older diabetic patients have a high burden of comorbidities, diabetes-related complications, physical disability, cognitive impairment and malnutrition, and they are more susceptible to the complications of dysglycemia and polypharmacy. Several national and international organizations have delivered guidelines to implement optimal therapy in older diabetic patients based on individualized treatment goals. This means appreciation of the heterogeneity of the disease as generated by life expectancy, functional reserve, social support, as well as personal preference. This paper will review current treatments for achieving glycemic targets in elderly diabetic patients, and discuss the potential role of emerging treatments in this patient population.