Chemical synthesis of peptides within the insulin superfamily

Liu, Fa; Zaykov, Alexander N.; Levy, Jay J.; DiMarchi, Richard D.; Mayer, John P.

doi:10.1002/psc.2863

Cited by 45 publications

(50 citation statements)

References 100 publications

(148 reference statements)

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“…In our previous study, we used DPDS in trifluoromethanesulfonic acid (TfOH)/TFA solution for deprotecting MeOBn group . However, this reaction conditions were quite similar to those for the removal of Bu t group reported previously . In order to remove MeOBn group specifically, the reaction conditions were examined.…”

Section: Resultsmentioning

confidence: 99%

Chemical synthesis of the crustacean insulin‐like peptide with four disulfide bonds

Katayama

Mukainakano

Kogure

et al. 2018

Journal of Peptide Science

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Among the insulin‐family peptides, two additional cysteine residues other than six conserved cysteines are sometimes found in invertebrate insulin‐like peptides (ILPs), although the synthetic method for such four disulfide ILPs has not yet been well established. In this study, we synthesized a crustacean insulin‐like androgenic gland factor with four disulfides by the regioselective disulfide bond formation reactions using four orthogonal Cys‐protecting groups. Its disulfide isomer could be also synthesized by the same method, indicating that the synthetic strategy developed in this study might be useful for the synthesis of other four disulfide ILPs.

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Section: Resultsmentioning

confidence: 99%

Chemical synthesis of the crustacean insulin‐like peptide with four disulfide bonds

Katayama

Mukainakano

Kogure

et al. 2018

Journal of Peptide Science

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“…36,37,50,51 In order to expedite our study, we first systematically optimized the reagents, procedures, and conditions to obtain simple and effective routes for the synthesis of all the glycosylated insulin analogs in this study. 30,52 As shown in Scheme 1A, the glycosylated and unglycosylated insulin chains were prepared at 0.2 g scale through the use of preloaded NovaSyn TGT resins (EMD Millipore), and HATU as the coupling agent.…”

Section: Resultsmentioning

confidence: 99%

Chemically Precise Glycoengineering Improves Human Insulin

et al. 2017

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Diabetes is a leading cause of death worldwide and results in over 3 million annual deaths. While insulin manages the disease well, many patients fail to comply with injection schedules, and despite significant investment, a more convenient oral formulation of insulin is still unavailable. Studies suggest that glycosylation may stabilize peptides for oral delivery, but the demanding production of homogeneously glycosylated peptides has hampered transition into the clinic. We report here the first total synthesis of homogeneously glycosylated insulin. After characterizing a series of insulin glycoforms with systematically varied O-glycosylation sites and structures, we demonstrate that O-mannosylation of insulin B-chain Thr27 reduces the peptide’s susceptibility to proteases and self-association, both critical properties for oral dosing, while maintaining full activity. This work illustrates the promise of glycosylation as a general mechanism for regulating peptide activity and expanding its therapeutic use.

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“…The chemical synthesis of heterodimeric, insulin-like peptides has long been a significant challenge given the complexity of its two-chain, three-disulfide structure [20] . Our laboratory has developed efficient protocols that exploit the availability of cysteine S-thiol protecting groups that are orthogonal to one another and which allows the sequential, directed disulfide bond formation of separately assembled A- and B-chains (Scheme 1) [21] .…”

Section: Resultsmentioning

confidence: 99%

Total Solid-Phase Synthesis of Biologically Active Drosophila Insulin-Like Peptide 2 (DILP2)

et al. 2017

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In the fruit fly Drosophila melanogaster, there are eight insulin-like peptides (DILPs) with DILPs 1-7 interacting with a sole insulin-like receptor tyrosine kinase (DInR) while DILP8 interacts with a single G protein-coupled receptor (GPCR), Lgr3. Loss-of-function dilp mutation studies show that the neuropeptide DILP2 has a key role in carbohydrate and lipid metabolism as well as longevity and reproduction. A better understanding of the processes whereby DILP2 mediates its specific actions is required. Consequently we undertook to prepare DILP2 as part of a larger, detailed structure-function relationship study. Use of our well-established insulin-like peptide synthesis protocol that entails separate solid phase assembly of each of the A- and B-chains with selective cysteine S-protection followed by sequential S-deprotection and simultaneous disulfide bond formation produced DILP2 in good overall yield and high purity. The synthetic DILP2 was shown to induce significant DInR phosphorylation and downstream signalling, with it being more potent than human insulin. This peptide will be a valuable tool to provide further insights into its binding to the insulin receptor, the subsequent cell signalling and role in insect metabolism.

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Chemical synthesis of peptides within the insulin superfamily

Cited by 45 publications

References 100 publications

Chemical synthesis of the crustacean insulin‐like peptide with four disulfide bonds

Chemical synthesis of the crustacean insulin‐like peptide with four disulfide bonds

Chemically Precise Glycoengineering Improves Human Insulin

Total Solid-Phase Synthesis of Biologically Active Drosophila Insulin-Like Peptide 2 (DILP2)

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