Orally Active Peptidic Bradykinin B<sub>1</sub> Receptor Antagonists Engineered from a Cyclotide Scaffold for Inflammatory Pain Treatment

Wong, Chi‐Ming; Rowlands, Dewi K.; Wong, C. K.; Lo, Theodore W. C.; Nguyen, Giang Kien Truc; Hy, Li; Tam, James P.

doi:10.1002/anie.201200984

Cited by 220 publications

(201 citation statements)

References 40 publications

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“…This unique three-dimensional fold confers them intrinsic stability to resist chemical, enzymatic and thermal degradation (Colgrave and Craik 2004). Therefore cyclotides have become attractive tools in chemical biology and drug development (Huang et al 2015), for instance as template for molecular grafting applications (Craik et al 2012) and for receptor ligand design (Koehbach et al 2013), since they exhibit activity following oral administration (Wong et al 2012).…”

Section: Cyclotides and Their Immunomodulatory Propertiesmentioning

confidence: 99%

“…The remarkable stability and hydrophobic surface properties of cyclotides render them well suited for oral administration (Wong et al 2012). Our data demonstrate significant therapeutic effects of T20K in the in vivo gold-standard model for MS, the murine EAE approach, after oral administration (Thell et al 2016).…”

Section: Cyclotides and Their Immunomodulatory Propertiesmentioning

confidence: 99%

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T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

Gründemann

Stenberg²,

Gruber

2018

Int J Pept Res Ther

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Cyclotides represent a new class of natural plant compounds, which could be considered ideal "template" molecules for drug design. Their structure is characterized by a circular cystine-knot motif, comprising an amino acid chain stabilized by three conserved disulfide bonds in a knotted arrangement, and a head-to-tail cyclized peptide backbone. Our laboratories initially demonstrated their activity to modulate immune cell signaling. Following nearly a decade of extensive research, we are now aware that cyclotide-based peptides provide an outstanding opportunity to develop novel drugs for autoimmune disorders, especially multiple sclerosis. Here we review and demonstrate the potential of cyclotide-derived peptide therapeutics on their way from preclinical studies to clinical trials as promising therapeutics in immunopharmacological applications.

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Section: Cyclotides and Their Immunomodulatory Propertiesmentioning

confidence: 99%

Section: Cyclotides and Their Immunomodulatory Propertiesmentioning

confidence: 99%

T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

Gründemann

Stenberg²,

Gruber

2018

Int J Pept Res Ther

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“…[9] For example, the first cyclotide to be discovered, kalata B1, is an orally effective uterotonic, [13] and other engineered cyclotides based on kalata B1 have also been shown to be orally bioactive. [14] In addition, some cyclotides can cross mammalian cell membranes [15] and are able to target intracellular protein interactions both in vitro and in vivo . [16] Cyclotides thus appear as promising leads or frameworks for the development of novel peptide-based diagnostics, therapeutics and research tools.…”

Section: Introductionmentioning

confidence: 99%

Cyclotides: Overview and Biotechnological Applications

Gould

Camarero

2017

ChemBioChem

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Cyclotides are globular microproteins with a unique head-to-tail cyclized backbone, stabilized by three disulfide bonds forming a cystine knot. This unique circular backbone topology and knotted arrangement of three disulfide bonds makes them exceptionally stable to chemical, thermal and biological degradation compared to other peptides of similar size. In addition, cyclotides have been shown to be highly tolerant to sequence variability aside from the conserved residues forming the cystine knot. Cyclotides can also cross cellular membranes and are able to modulate intracellular protein-protein interactions both in vitro and in vivo. All these features make cyclotides appear as highly promising leads or frameworks for the design of peptide-based diagnostic and therapeutic tools. This article provides an overview on cyclotides and their applications as molecular imaging agents and peptide-based therapeutics.

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“…Several other knottins are currently undergoing preclinical or phase I/II clinical trials for the treatment of pain related diseases [7]. In addition to their potential as drug candidates, the use of knottins, especially cyclotides, has been extended to peptide engineering for the development of protease-resistant ligand scaffolds [3,4,8–12]. The cyclotide kalata B1, which exhibits stability towards pepsin, trypsin, and chymotrypsin, is a promising scaffold for the development of orally effective peptide drugs; however, the oral bio-availability of kalata B1 was found to be dramatically reduced when its head-to-tail cyclization was not performed [3,4].…”

Section: Introductionmentioning

confidence: 99%

“…In addition to their potential as drug candidates, the use of knottins, especially cyclotides, has been extended to peptide engineering for the development of protease-resistant ligand scaffolds [3,4,8–12]. The cyclotide kalata B1, which exhibits stability towards pepsin, trypsin, and chymotrypsin, is a promising scaffold for the development of orally effective peptide drugs; however, the oral bio-availability of kalata B1 was found to be dramatically reduced when its head-to-tail cyclization was not performed [3,4]. The linear knottins from squash (SE-EM and SE-EP), human agouti related protein (SE-AGAZ), and even hybrid recombinant knottins (SE-ET-TP-020 and SE-MC-TR-020) were found to be extensively degraded by chymotrypsin or trypsin [13–15].…”

Section: Introductionmentioning

confidence: 99%

Asteropsins B–D, sponge-derived knottins with potential utility as a novel scaffold for oral peptide drugs

Bowling

Hong

et al. 2014

Biochimica et Biophysica Acta (BBA) - General Subjects

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Background Known linear knottins are unsuitable as scaffolds for oral peptide drug due to their gastrointestinal instability. Herein, a new subclass of knottin peptides from Porifera is structurally described and characterized regarding their potential for oral peptide drug development. Methods Asteropsins B–D (ASPB, ASPC, and ASPD) were isolated from the marine sponge Asteropus sp. The tertiary structures of ASPB and ASPC were determined by solution NMR spectroscopy and that of ASPD by homology modeling. Results The isolated asteropsins B–D, together with the previously reported asteropsin A (ASPA), compose a new subclass of knottins that share a highly conserved structural framework and remarkable stability against the enzymes in gastrointestinal tract (chymotrypsin, elastase, pepsin, and trypsin) and human plasma. Conclusion Asteropsins can be considered as promising peptide scaffolds for oral bioavailability. General significance The structural details of asteropsins provide essential information for the engineering of orally bioavailable peptides.

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Orally Active Peptidic Bradykinin B₁ Receptor Antagonists Engineered from a Cyclotide Scaffold for Inflammatory Pain Treatment

Cited by 220 publications

References 40 publications

T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

Cyclotides: Overview and Biotechnological Applications

Asteropsins B–D, sponge-derived knottins with potential utility as a novel scaffold for oral peptide drugs

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Orally Active Peptidic Bradykinin B1 Receptor Antagonists Engineered from a Cyclotide Scaffold for Inflammatory Pain Treatment

Cited by 220 publications

References 40 publications

T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

T20K: An Immunomodulatory Cyclotide on Its Way to the Clinic

Cyclotides: Overview and Biotechnological Applications

Asteropsins B–D, sponge-derived knottins with potential utility as a novel scaffold for oral peptide drugs

Contact Info

Product

Resources

About

Orally Active Peptidic Bradykinin B₁ Receptor Antagonists Engineered from a Cyclotide Scaffold for Inflammatory Pain Treatment