‘Smart’ insulin-delivery technologies and intrinsic glucose-responsive insulin analogues

Jarosinski, Mark A.; Dhayalan, Balamurugan; Rege, Nischay; Chatterjee, Deepak; Weiss, Michael A.

doi:10.1007/s00125-021-05422-6

Cited by 53 publications

(46 citation statements)

References 140 publications

(196 reference statements)

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“…Such glucose-responsive insulins (GRIs) thus define a major and long-standing goal in molecular pharmacology (for recent reviews, see [ [173] , [174] , [175] ]. Intrinsic (or unimolecular) GRIs envisage a modified hormone whose bioavailability or activity is glucose-dependent [ 25 ]. Potential technologies include sequestration of the insulin analog within a glucose-dependent SQ depot or circulating inactive complex, released under conditions of hyperglycemia.…”

Section: Next-generation Insulin Analogsmentioning

confidence: 99%

“…We envisage that in the next decade, a continuing interplay between foundational and translational studies will enable new therapeutic approaches and treatment technologies for Type 1 and Type 2 diabetes mellitus (T1D and T2D) [ 23 ]. These frontiers promise to integrate protein engineering with systems biology and molecular physiology to address yet-unmet clinical needs [ 24 , 25 ].…”

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confidence: 99%

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Structural principles of insulin formulation and analog design: A century of innovation

Jarosinski

Dhayalan

Chen

et al. 2021

Molecular Metabolism

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Background The discovery of insulin in 1921 and its near-immediate clinical use initiated a century of innovation. Advances extended across a broad front, from the stabilization of animal insulin formulations to the frontiers of synthetic peptide chemistry, and in turn, from the advent of recombinant DNA manufacturing to structure-based protein analog design. In each case, a creative interplay was observed between pharmaceutical applications and then-emerging principles of protein science; indeed, translational objectives contributed to a growing molecular understanding of protein structure, aggregation and misfolding. Scope of review Pioneering crystallographic analyses—beginning with Hodgkin's solving of the 2-Zn insulin hexamer—elucidated general features of protein self-assembly, including zinc coordination and the allosteric transmission of conformational change. Crystallization of insulin was exploited both as a step in manufacturing and as a means of obtaining protracted action. Forty years ago, the confluence of recombinant human insulin with techniques for site-directed mutagenesis initiated the present era of insulin analogs. Variant or modified insulins were developed that exhibit improved prandial or basal pharmacokinetic (PK) properties. Encouraged by clinical trials demonstrating the long-term importance of glycemic control, regimens based on such analogs sought to resemble daily patterns of endogenous β-cell secretion more closely, ideally with reduced risk of hypoglycemia. Major conclusions Next-generation insulin analog design seeks to explore new frontiers, including glucose-responsive insulins, organ-selective analogs and biased agonists tailored to address yet-unmet clinical needs. In the coming decade, we envision ever more powerful scientific synergies at the interface of structural biology, molecular physiology and therapeutics.

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Section: Next-generation Insulin Analogsmentioning

confidence: 99%

mentioning

confidence: 99%

Structural principles of insulin formulation and analog design: A century of innovation

Jarosinski

Dhayalan

Chen

et al. 2021

Molecular Metabolism

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“…Using glucose-responsive insulin (GRI), which only acts in the hyperglycemic milieu without causing hypoglycemia, would be the most ideal option for insulin treatment. However, developing ‘smart’ insulin requires advances in various fields, such as formulation chemistry, protein engineering, glucose-sensing technology, and delivery devices, and many challenges still exist [ 83 ]. Because blood glucose levels fluctuate rapidly, a fast-responding system without a time lag is necessary.…”

Section: The Future Of Insulin Therapy: Glucose-responsive Insulinsmentioning

confidence: 99%

“…There are two broad classes of molecular GRIs: (1) polymer-based systems, which consist of insulin contained within a glucose-responsive polymeric matrix-based vesicle or hydrogel composed of glucose-binding proteins, glucose oxidase, or boronate- based chemistries, and (2) molecular-based bioconjugation systems, which introduce a glucose-sensitive motif (phenylboronic acid, glucosamine, or mannose) to the insulin molecule or its formulation. The characteristics of various GRIs have been extensively reviewed in recently published papers [ 83 , 86 ]. Although these elegant strategies remain in the early stage of development, continued progress is expected.…”

Section: The Future Of Insulin Therapy: Glucose-responsive Insulinsmentioning

confidence: 99%

A Century of Progress in Diabetes Care with Insulin: A History of Innovations and Foundation for the Future

Lee

Yoon

2021

Diabetes Metab J

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The year 2021 marks the 100th anniversary of the discovery of insulin, which has greatly changed the lives of people with diabetes and become a cornerstone of advances in medical science. A rapid bench-to-bedside application of the lifesaving pancreatic extract and its immediate commercialization was the result of a promising idea, positive drive, perseverance, and collaboration of Banting and colleagues. As one of the very few proteins isolated in a pure form at that time, insulin also played a key role in the development of important methodologies and in the beginning of various fields of modern science. Since its discovery, insulin has evolved continuously to optimize the care of people with diabetes. Since the 1980s, recombinant DNA technology has been employed to engineer insulin analogs by modifying their amino acid sequence, which has resulted in the production of insulins with various profiles that are currently used. However, unmet needs in insulin treatment still exist, and several forms of future insulins are under development. In this review, we discuss the past, present, and future of insulin, including a history of ceaseless innovations and collective intelligence. We believe that this story will be a solid foundation and an unerring guide for the future.

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“…Developing the 'technology' theme, Weiss and colleagues [10] take us into the fascinating world of 'smart' insulindelivery devices and molecular technologies designed to exploit feedback regulation. Whilst current pump-based closed-loop systems exploit algorithmic control based on the output of a continuous glucose monitor, the authors highlight the promise of molecular strategies to provide intrinsic in vivo feedback based on glucose-regulated insulin bioavailability or bioactivity.…”

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confidence: 99%

Celebrating 100 years of insulin

Marshall

2021

Diabetologia

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‘Smart’ insulin-delivery technologies and intrinsic glucose-responsive insulin analogues

Cited by 53 publications

References 140 publications

Structural principles of insulin formulation and analog design: A century of innovation

Structural principles of insulin formulation and analog design: A century of innovation

A Century of Progress in Diabetes Care with Insulin: A History of Innovations and Foundation for the Future

Celebrating 100 years of insulin

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