Anne Lützen scite author profile

IntroductionInsulin icodec is a novel, long-acting insulin analog designed to cover basal insulin requirements with once-weekly subcutaneous administration. Here we describe the molecular engineering and the biological and pharmacological properties of insulin icodec.Research design and methodsA number of in vitro assays measuring receptor binding, intracellular signaling as well as cellular metabolic and mitogenic responses were used to characterize the biological properties of insulin icodec. To evaluate the pharmacological properties of insulin icodec in individuals with type 2 diabetes, a randomized, double-blind, double-dummy, active-controlled, multiple-dose, dose escalation trial was conducted.ResultsThe long half-life of insulin icodec was achieved by introducing modifications to the insulin molecule aiming to obtain a safe, albumin-bound circulating depot of insulin icodec, providing protracted insulin action and clearance. Addition of a C20 fatty diacid-containing side chain imparts strong, reversible albumin binding, while three amino acid substitutions (A14E, B16H and B25H) provide molecular stability and contribute to attenuating insulin receptor (IR) binding and clearance, further prolonging the half-life. In vitro cell-based studies showed that insulin icodec activates the same dose-dependent IR-mediated signaling and metabolic responses as native human insulin (HI). The affinity of insulin icodec for the insulin-like growth factor-1 receptor was proportionately lower than its binding to the IR, and the in vitro mitogenic effect of insulin icodec in various human cells was low relative to HI. The clinical pharmacology trial in people with type 2 diabetes showed that insulin icodec was well tolerated and has pharmacokinetic/pharmacodynamic properties that are suited for once-weekly dosing, with a mean half-life of 196 hours and close to even distribution of glucose-lowering effect over the entire dosing interval of 1 week.ConclusionsThe molecular modifications introduced into insulin icodec provide a novel basal insulin with biological and pharmacokinetic/pharmacodynamic properties suitable for once-weekly dosing.Trial registration numberNCT02964104.

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Characterization of human exonuclease 1 in complex with mismatch repair proteins, subcellular localization and association with PCNA

Nielsen

Jäger

Lützen

et al. 2003

Oncogene

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Human exonuclease 1 (hEXO1) has been implicated in DNA mismatch repair (MMR), replication, and recombination, but the nature of its interaction with these cellular processes is still ambiguous. We show that hEXO1 colocalizes with proliferating cell nuclear antigen (PCNA) at DNA replication sites and that the C-terminal region of hEXO1 is sufficient for this localization. We also show that both hMLH1-hPMS2 (MutLa) and hMLH1-hEXO1 complexes are formed in a reaction mixture containing all three proteins. Moreover, hEXO1 5 0 double-stranded exonuclease activity on a homoduplex substrate but not on a substrate containing a G/T mismatch was inhibited by complex formation with hMSH2-hMSH6 (MutSa) or MutLa. Taken together, the results support a model in which hEXO1 plays a role in events at the replication sites as well as a functional role in the MMR and/or recombination processes.

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Nuclear translocation contributes to regulation of DNA excision repair activities

et al. 2009

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Molecular Characterisation of Long-Acting Insulin Analogues in Comparison with Human Insulin, IGF-1 and Insulin X10

et al. 2012

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Aims/HypothesisThere is controversy with respect to molecular characteristics of insulin analogues. We report a series of experiments forming a comprehensive characterisation of the long acting insulin analogues, glargine and detemir, in comparison with human insulin, IGF-1, and the super-mitogenic insulin, X10.MethodsWe measured binding of ligands to membrane-bound and solubilised receptors, receptor activation and mitogenicity in a number of cell types.ResultsDetemir and glargine each displayed a balanced affinity for insulin receptor (IR) isoforms A and B. This was also true for X10, whereas IGF-1 had a higher affinity for IR-A than IR-B. X10 and glargine both exhibited a higher relative IGF-1R than IR binding affinity, whereas detemir displayed an IGF-1R:IR binding ratio of ≤1. Ligands with high relative IGF-1R affinity also had high affinity for IR/IGF-1R hybrid receptors. In general, the relative binding affinities of the analogues were reflected in their ability to phosphorylate the IR and IGF-1R. Detailed analysis revealed that X10, in contrast to the other ligands, seemed to evoke a preferential phosphorylation of juxtamembrane and kinase domain phosphorylation sites of the IR. Sustained phosphorylation was only observed from the IR after stimulation with X10, and after stimulation with IGF-1 from the IGF-1R. Both X10 and glargine showed an increased mitogenic potency compared to human insulin in cells expressing many IGF-1Rs, whereas only X10 showed increased mitogenicity in cells expressing many IRs.ConclusionsDetailed analysis of receptor binding, activation and in vitro mitogenicity indicated no molecular safety concern with detemir.

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Functional analysis helps to clarify the clinical importance of unclassified variants in DNA mismatch repair genes

Niessen

Lützen

et al. 2007

Hum. Mutat.

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Hereditary nonpolyposis colorectal cancer (HNPCC) or Lynch syndrome is caused by DNA variations in the DNA mismatch repair (MMR) genes MSH2, MLH1, MSH6, and PMS2. Many of the mutations identified result in premature termination of translation and thus in loss-of-function of the encoded mutated protein. These DNA variations are thought to be pathogenic mutations. However, some patients carry other DNA mutations, referred to as unclassified variants (UVs), which do not lead to such a premature termination of translation; it is not known whether these contribute to the disease phenotype or merely represent rare polymorphisms. This is a major problem which has direct clinical consequences. Several criteria can be used to classify these UVs, such as: whether they segregate with the disease within pedigrees, are absent in control individuals, show a change of amino acid polarity or size, provoke an amino acid change in a domain that is evolutionary conserved and/or shared between proteins belonging to the same protein family, or show altered function in an in vitro assay. In this review we discuss the various functional assays reported for the HNPCC-associated MMR proteins and the outcomes of these tests on UVs identified in patients diagnosed with or suspected of having HNPCC. We conclude that a large proportion of MMR UVs are likely to be pathogenic, suggesting that missense variants of MMR proteins do indeed play a role in HNPCC.

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Functional analysis of HNPCC-related missense mutations in MSH2

Lützen

Wind

Georgijevic

et al. 2008

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Cadmium inhibits human DNA mismatch repair in vivo

Lützen

Liberti

Rasmussen

2004

Biochemical and Biophysical Research Communications

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Genetic screens to identify pathogenic gene variants in the common cancer predisposition Lynch syndrome

Drost

Lützen

Hees

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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In many individuals suspected of the common cancer predisposition Lynch syndrome, variants of unclear significance (VUS), rather than an obviously pathogenic mutations, are identified in one of the DNA mismatch repair (MMR) genes. The uncertainty of whether such VUS inactivate MMR, and therefore are pathogenic, precludes targeted healthcare for both carriers and their relatives. To facilitate the identification of pathogenic VUS, we have developed an in cellulo genetic screen-based procedure for the large-scale mutagenization, identification, and cataloging of residues of MMR genes critical for MMR gene function. When a residue identified as mutated in an individual suspected of Lynch syndrome is listed as critical in such a reverse diagnosis catalog, there is a high probability that the corresponding human VUS is pathogenic. To investigate the applicability of this approach, we have generated and validated a prototypic reverse diagnosis catalog for the MMR gene MutS Homolog 2 (Msh2) by mutagenizing, identifying, and cataloging 26 deleterious mutations in 23 amino acids. Extensive in vivo and in vitro analysis of mutants listed in the catalog revealed both recessive and dominant-negative phenotypes. Nearly half of these critical residues match with VUS previously identified in individuals suspected of Lynch syndrome. This aids in the assignment of pathogenicity to these human VUS and validates the approach described here as a diagnostic tool. In a wider perspective, this work provides a model for the translation of personalized genomics into targeted healthcare.

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Anne Lützen

Molecular and pharmacological characterization of insulin icodec: a new basal insulin analog designed for once-weekly dosing

Characterization of human exonuclease 1 in complex with mismatch repair proteins, subcellular localization and association with PCNA

Nuclear translocation contributes to regulation of DNA excision repair activities

Molecular Characterisation of Long-Acting Insulin Analogues in Comparison with Human Insulin, IGF-1 and Insulin X10

Functional analysis helps to clarify the clinical importance of unclassified variants in DNA mismatch repair genes

Functional analysis of HNPCC-related missense mutations in MSH2

Cadmium inhibits human DNA mismatch repair in vivo

Genetic screens to identify pathogenic gene variants in the common cancer predisposition Lynch syndrome

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