Your search keyword '"Muttenthaler, Markus"' showing total 16 results

1. Hormonelle Signalgeber.

Author

Muttenthaler, Markus and Perisic, Monika

Published

2024

2. Targeting the Oxytocin Receptor for Breast Cancer Management: A Niche for Peptide Tracers

Author

Kalaba, Predrag, Sanchez de la Rosa, Cristina, Möller, Andreas, Alewood, Paul F., and Muttenthaler, Markus

Abstract

Breast cancer is a leading cause of death in women, and its management highly depends on early disease diagnosis and monitoring. This remains challenging due to breast cancer’s heterogeneity and a scarcity of specific biomarkers that could predict responses to therapy and enable personalized treatment. This Perspective describes the diagnostic landscape for breast cancer management, molecular strategies targeting receptors overexpressed in tumors, the theranostic potential of the oxytocin receptor (OTR) as an emerging breast cancer target, and the development of OTR-specific optical and nuclear tracers to study, visualize, and treat tumors. A special focus is on the chemistry and pharmacology underpinning OTR tracer development, preclinical in vitroand in vivostudies, challenges, and future directions. The use of peptide-based tracers targeting upregulated receptors in cancer is a highly promising strategy complementing current diagnostics and therapies and providing new opportunities to improve cancer management and patient survival.

Published

2024

3. On the Utility of Chemical Strategies to Improve Peptide Gut Stability

Author

Kremsmayr, Thomas, Aljnabi, Aws, Blanco-Canosa, Juan B., Tran, Hue N. T., Emidio, Nayara Braga, and Muttenthaler, Markus

Abstract

Inherent susceptibility of peptides to enzymatic degradation in the gastrointestinal tract is a key bottleneck in oral peptide drug development. Here, we present a systematic analysis of (i) the gut stability of disulfide-rich peptide scaffolds, orally administered peptide therapeutics, and well-known neuropeptides and (ii) medicinal chemistry strategies to improve peptide gut stability. Among a broad range of studied peptides, cyclotides were the only scaffold class to resist gastrointestinal degradation, even when grafted with non-native sequences. Backbone cyclization, a frequently applied strategy, failed to improve stability in intestinal fluid, but several site-specific alterations proved efficient. This work furthermore highlights the importance of standardized gut stability test conditions and suggests defined protocols to facilitate cross-study comparison. Together, our results provide a comparative overview and framework for the chemical engineering of gut-stable peptides, which should be valuable for the development of orally administered peptide therapeutics and molecular probes targeting receptors within the gastrointestinal tract.

Published

2022

4. Chemical Synthesis of TFF3 Reveals Novel Mechanistic Insights and a Gut-Stable Metabolite

Author

Braga Emidio, Nayara, Meli, Rajeshwari, Tran, Hue N. T., Baik, Hayeon, Morisset-Lopez, Séverine, Elliott, Alysha G., Blaskovich, Mark A. T., Spiller, Sabrina, Beck-Sickinger, Annette G., Schroeder, Christina I., and Muttenthaler, Markus

Abstract

TFF3 regulates essential gastro- and neuroprotective functions, but its molecular mode of action remains poorly understood. Synthetic intractability and lack of reliable bioassays and validated receptors are bottlenecks for mechanistic and structure–activity relationship studies. Here, we report the chemical synthesis of TFF3 and its homodimer vianative chemical ligation followed by oxidative folding. Correct folding was confirmed by NMR and circular dichroism, and TFF3 and its homodimer were not cytotoxic or hemolytic. TFF3, its homodimer, and the trefoil domain (TFF310-50) were susceptible to gastrointestinal degradation, revealing a gut-stable metabolite (TFF37-54; t1/2> 24 h) that retained its trefoil structure and antiapoptotic bioactivity. We tried to validate the putative TFF3 receptors CXCR4 and LINGO2, but neither TFF3 nor its homodimer displayed any activity up to 10 μM. The discovery of a gut-stable bioactive metabolite and reliable synthetic accessibility to TFF3 and its analogues are cornerstones for future molecular probe development and structure–activity relationship studies.

Published

2021

5. Improving the Gastrointestinal Stability of Linaclotide

Author

Braga Emidio, Nayara, Tran, Hue N. T., Andersson, Asa, Dawson, Philip E., Albericio, Fernando, Vetter, Irina, and Muttenthaler, Markus

Abstract

High susceptibility to proteolytic degradation in the gastrointestinal tract limits the therapeutic application of peptide drugs in gastrointestinal disorders. Linaclotide is an orally administered peptide drug for the treatment of irritable bowel syndrome with constipation (IBS-C) and abdominal pain. Linaclotide is however degraded in the intestinal environment within 1 h, and improvements in gastrointestinal stability might enhance its therapeutic application. We therefore designed and synthesized a series of linaclotide analogues employing a variety of strategic modifications and evaluated their gastrointestinal stability and pharmacological activity at its target receptor guanylate cyclase-C. All analogues had substantial improvements in gastrointestinal half-lives (>8 h vs linaclotide 48 min), and most remained active at low nanomolar concentrations. This work highlights strategic approaches for the development of gut-stable peptides toward the next generation of orally administered peptide drugs for the treatment of gastrointestinal disorders.

Published

2021

6. Trends in peptide drug discovery

Author

Muttenthaler, Markus, King, Glenn F., Adams, David J., and Alewood, Paul F.

Abstract

Since the introduction of insulin almost a century ago, more than 80 peptide drugs have reached the market for a wide range of diseases, including diabetes, cancer, osteoporosis, multiple sclerosis, HIV infection and chronic pain. In this Perspective, we summarize key trends in peptide drug discovery and development, covering the early efforts focused on human hormones, elegant medicinal chemistry and rational design strategies, peptide drugs derived from nature, and major breakthroughs in molecular biology and peptide chemistry that continue to advance the field. We emphasize lessons from earlier approaches that are still relevant today as well as emerging strategies such as integrated venomics and peptide-display libraries that create new avenues for peptide drug discovery. We also discuss the pharmaceutical landscape in which peptide drugs could be particularly valuable and analyse the challenges that need to be addressed for them to reach their full potential.

Published

2021

7. Two for the Price of One: Heterobivalent Ligand Design Targeting Two Binding Sites on Voltage-Gated Sodium Channels Slows Ligand Dissociation and Enhances Potency

Author

Peschel, Alicia, Cardoso, Fernanda C., Walker, Andrew A., Durek, Thomas, Stone, M. Rhia L., Braga Emidio, Nayara, Dawson, Philip E., Muttenthaler, Markus, and King, Glenn F.

Abstract

Voltage-gated sodium (NaV) channels are pore-forming transmembrane proteins that play essential roles in excitable cells, and they are key targets for antiepileptic, antiarrhythmic, and analgesic drugs. We implemented a heterobivalent design strategy to modulate the potency, selectivity, and binding kinetics of NaVchannel ligands. We conjugated μ-conotoxin KIIIA, which occludes the pore of the NaVchannels, to an analogue of huwentoxin-IV, a spider-venom peptide that allosterically modulates channel gating. Bioorthogonal hydrazide and copper-assisted azide–alkyne cycloaddition conjugation chemistries were employed to generate heterobivalent ligands using polyethylene glycol linkers spanning 40–120 Å. The ligand with an 80 Å linker had the most pronounced bivalent effects, with a significantly slower dissociation rate and 4–24-fold higher potency compared to those of the monovalent peptides for the human NaV1.4 channel. This study highlights the power of heterobivalent ligand design and expands the repertoire of pharmacological probes for exploring the function of NaVchannels.

Published

2020

8. The oxytocin receptor signalling system and breast cancer: a critical review

Author

Liu, Huiping, Gruber, Christian W., Alewood, Paul F., Möller, Andreas, and Muttenthaler, Markus

Abstract

Breast cancer is making up one-quarter of all new female cancer cases diagnosed worldwide. Breast cancer surgeries, radiation therapies, cytotoxic chemotherapies and targeted therapies have made significant progress and play a dominant role in breast cancer patient management. However, many challenges remain, including resistance to systemic therapies, tumour recurrence and metastasis. The cyclic neuropeptide oxytocin (OT) elicits a plethora of biological responses via the oxytocin receptor (OTR) in both the central and peripheral nervous system, including social bonding, stress, maternal behaviour, sexual activity, uterus contraction, milk ejection and cancer. As a typical member of the G protein-coupled receptor family, OTR represents also an intriguing target for cancer therapy. There is emerging evidence that OTR plays a role in breast cancer development and progression, and several breast cancer cell lines express OTR. However, despite supporting evidence that OT lowers breast cancer risks, its mechanistic role in breast cancer development and the related signalling pathways are not fully understood. Here, we review the current knowledge of the OT/OTR signalling system in healthy breast tissue as well as in breast cancer, and discuss OTR as a potential therapeutic target for breast cancer management.

Published

2020

9. Photoswitchable Probes of Oxytocin and Vasopressin

Author

Wirth, Ulrike, Raabe, Konstantin, Kalaba, Predrag, Keimpema, Erik, Muttenthaler, Markus, and König, Burkhard

Abstract

Oxytocin (OT) and vasopressin (VP) are related neuropeptides that regulate many biological processes. In humans, OT and VP act via four G protein-coupled receptors, OTR, V1aR, V1bR, and V2R (VPRs), which are associated with several disorders. To investigate the therapeutic potential of these receptors, particularly in the receptor-dense areas of the brain, molecular probes with a high temporal and spatial resolution are required. Such a spatiotemporal resolution can be achieved by incorporating photochromic moieties into OT and VP. Here, we report the design, synthesis, and (photo)pharmacological characterization of 12 OT- and VP-derived photoprobes using different modification strategies. Despite OT’s and VP’s sensitivity toward structural changes, we identified two photoprobes with good potency and photoswitch window for investigating the OTR and V1bR. These photoprobes should be of high value for producing cutting-edge photocontrollable peptide probes for the study of dynamic and kinetic receptor activation processes in specific regions of the brain.

Published

2023

10. Methods, setup and safe handling for anhydrous hydrogen fluoride cleavage in Boc solid-phase peptide synthesis

Author

Muttenthaler, Markus, Albericio, Fernando, and Dawson, Philip E

Abstract

Solid-phase peptide synthesis (SPPS) using tert-butyloxycarbonyl (Boc)/benzyl (Bzl) chemistry is an indispensable technique in many laboratories around the globe, and it provides peptides to the pharmaceutical industry and to thousands of scientists working in basic research. The Boc/Bzl strategy has several advantages, including reliability in the synthesis of long and difficult polypeptides, alternative orthogonality regarding protecting groups and ease of producing C-terminal thioesters for native chemical ligation applications. In this process, anhydrous hydrogen fluoride (HF) is used to remove the side chain protecting groups of the assembled peptide and to release the peptide from the resin, a process typically described as 'HF cleavage'. This protocol describes the general methodology, apparatus setup and safe handling of HF, with the aim of providing comprehensive information on the safe use of this valuable, well-studied and validated cleavage technique. We explain the cleavage mechanism, the physicochemical properties and risks of HF, first aid measures and the correct use of the apparatus. In addition, we provide advice on scavenger selection, as well as a troubleshooting section and video material illustrating key steps of the procedure. The protocol comprises precleavage sample preparation (30 min–2.5 h), complete HF cleavage procedure (2 h) and reaction workup (30 min).

Published

2015

11. Site‐Specific pKaDetermination of Selenocysteine Residues in Selenovasopressin by Using 77Se NMR Spectroscopy

Author

Mobli, Mehdi, Morgenstern, David, King, Glenn F., Alewood, Paul F., and Muttenthaler, Markus

Abstract

Selenocysteine(Sec), the 21st amino acid, is a component of a variety of proteins in all lineages of life, and the greater acidity of selenols compared to thiols provides Sec with unique chemical properties. By using 77Se NMR spectroscopy the pKaof Sec residues in a protein could be measured at atomic resolution. This information can be used to predict chemical reactions.

Published

2011

12. Structure-Activity Studies on Alpha-Conotoxins

Author

Muttenthaler, Markus, B. Akondi, Kalyana, and F. Alewood, Paul

Abstract

Conotoxins are small bioactive highly structured peptides from the venom of marine cone snails (genus Conus). Over the past 50 million years these molluscs have developed a complex venom cocktail for each species that is comprised of 100-2000 distinct cysteine- rich peptides for prey capture and defence. This review focuses on an important and well-studied class of conotoxins, the - conotoxins. These -conotoxins are potent and selective antagonists of various subtypes of the nicotinic acetylcholine receptors (nAChRs). Key structure-activity relationship studies are presented to illustrate the common motifs, structural features and pharmacophores that define this interesting peptide class. Additionally, their synthesis, chemical modifications, the development of more selective and stable analogues and their therapeutic potential are discussed.

Published

2011

13. Ligand-Based Peptide Design and Combinatorial Peptide Libraries to Target G Protein-Coupled Receptors

Author

W. Gruber, Christian, Muttenthaler, Markus, and Freissmuth, Michael

Abstract

G protein-coupled receptors (GPCRs) are considered to represent the most promising drug targets it has been repeatedly said that a large fraction of the currently marketed drugs elicit their actions by binding to GPCRs (with cited numbers varying from 30-50). Closer scrutiny, however, shows that only a modest fraction of (∼60) GPCRs are, in fact, exploited as drug targets, only ∼20 of which are peptide-binding receptors. The vast majority of receptors in the humane genome have not yet been explored as sites of action for drugs. Given the drugability of this receptor class, it appears that opportunities for drug discovery abound. In addition, GPCRs provide for binding sites other than the ligand binding sites (referred to as the “orthosteric site”). These additional sites include (i) binding sites for ligands (referred to as “allosteric ligands”) that modulate the affinity and efficacy of orthosteric ligands, (ii) the interaction surface that recruits G proteins and arrestins, (iii) the interaction sites of additional proteins (GIPs, GPCR interacting proteins that regulate G protein signaling or give rise to G protein-independent signals). These sites can also be targeted by peptides. Combinatorial and natural peptide libraries are therefore likely to play a major role in identifying new GPCR ligands at each of these sites. In particular the diverse natural peptide libraries such as the venom peptides from marine cone-snails and plant cyclotides have been established as a rich source of drug leads. High-throughput screening and combinatorial chemistry approaches allow for progressing from these starting points to potential drug candidates. This will be illustrated by focusing on the ligand-based drug design of oxytocin (OT) and vasopressin (AVP) receptor ligands using natural peptide leads as starting points.

Published

2010

14. p-Nitrobenzyl protection for cysteine and selenocysteine: A more stable alternative to the acetamidomethyl group

Author

Muttenthaler, Markus, Ramos, Yesica Garcia, Feytens, Debby, de Araujo, Aline D., and Alewood, Paul F.

Abstract

This study evaluated the acidic lability of the acetamidomethyl (Acm), trimethylacetamidomethyl (Tacm), and the p-nitrobenzyl (pNB) as protecting groups for cysteine and selenocysteine (Sec) during the tert-butyloxycarbonyl (Boc)-chemistry solid-phase peptide synthesis of oxytocin (OT). Two novel Sec building blocks (Na-tert-butyloxycarbonyl-Se(acetamidomethyl)-L-selenocysteine (Boc-L-Sec(Acm)-OH) and Na-tert-butyloxycarbonyl-S(4-nitrobenzyl)-L-selenocysteine (Boc-L-Sec(pNB)-OH)) were developed for this study. Six partially protected thio- and seleno-OT analogues were synthesized, purified, and exposed to neat trifluoroacetic acid (TFA) at temperatures of 25, 40, 50, and 60°C for 1 h, and HF treatment at 0°C for 1 h. Significant losses were observed for the Acm and Tacm group in TFA at temperatures greater than 25°C and during HF treatment at 0°C, whereas the pNB group remained intact. Removal of the pNB was achieved via reduction to the p-aminobenzyl group either with zinc in acetic acid in solution or via tin chloride in hydrochloric acid on solid support, followed by oxidative cleavage with iodine yielding the corresponding disulfide or diselenide bond. No major side reactions were observed. This study confirms the occasionally described Acm instability and underpins the development of the pNB group as an alternative for cysteine and Sec protection. © 2010 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 94: 423–432, 2010.

Published

2010

15. Subtle modifications to oxytocin produce ligands that retain potency and improved selectivity across species

Author

Muttenthaler, Markus, Andersson, Åsa, Vetter, Irina, Menon, Rohit, Busnelli, Marta, Ragnarsson, Lotten, Bergmayr, Christian, Arrowsmith, Sarah, Deuis, Jennifer R., Chiu, Han Sheng, Palpant, Nathan J., O’Brien, Margaret, Smith, Terry J., Wray, Susan, Neumann, Inga D., Gruber, Christian W., Lewis, Richard J., and Alewood, Paul F.

Abstract

An oxytocin derivative that may not trigger adverse side effects has been generated.

Published

2017

16. Peptide-mediated cellular delivery of semiconductor quantum dots

Author

Southern, Šárka O., Gemmill, Kelly Boeneman, Muttenthaler, Markus, Delehanty, James, Deschamps, Jeff, Susumu, Kimihiro, Stewart, Michael, Dawson, Philip, Huston, Alan, and Medintz, Igor

Published

2013