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LRC-TriCEPS Publications

LRC-TriCEPS / HATRIC-LRC Publications

Find below publications using LRC-TriCEPS or HATRIC-LRC platforms for target identification.

White Paper Ligand-Receptor Identification Methodologies Details Matter

European Biopharmaceutical Review April 2019, pages 16-20 / Maria P. Pavlou and Paul Helbling / White -Paper PDF

Validation of extracellular ligand–receptor interactions by Flow‑TriCEPS

BMC Research Notes 2018 11:863 https://doi.org/10.1186/s13104-018-3974-5
Laura A. Lopez‑Garcia, Levent Demiray, Sandra Ruch‑Marder, Ann‑Katrin Hopp, Michael O. Hottiger, Paul M. Helbling and Maria P. Pavlou Received: 28 October 2018 – Accepted: 30 November 2018- Published: 5 December 2018

Cardiac Targeting Peptide, a Novel Cardiac Vector: Studies in Bio-Distribution, Imaging Application, and Mechanism of Transduction

Maliha Zahid, Kyle S. Feldman, Gabriel Garcia-Borrero, Timothy N. Feinstein, Nicholas Pogodzinski, Xinxiu Xu, Raymond Yurko, Michael Czachowski , Yijen L. Wu, Neale S. Mason and CeciliaW. Lo Biomolecules 2018, 8, 147; doi:10.3390/biom8040147 Received: 24 September 2018 / Accepted: 8 November 2018 / Published: 14 November 2018

Leukocyte differentiation by histidine-rich glycoprotein/stanniocalcin-2 complex regulates murine glioma growth through modulation of anti-tumor immunity

Francis P Roche, Ilkka Pietilä, Hiroshi Kaito, Elisabet O Sjöström, Nadine Sobotzki, Oriol Noguer, Tor Persson Skare, Magnus Essand, Bernd Wollscheid, Michael Welsh and Lena Claesson-Welsh DOI: 10.1158/1535-7163.MCT-18-0097 Received January 27, 2018, Revision received April 21, 2018, Accepted June 19, 2018, Copyright ©2018, American Association for Cancer Research. PDF

Glycomics and Proteomics Approaches to Investigate Early Adenovirus–Host Cell Interactions

Lisa Lasswitz, Naresh Chandra, Niklas Arnberg, Gisa Gerold jmb Journal of Molecular Biology, doi.org/10.1016/j.jmb.2018.04.039 Received 15 February 2018, Revised 24 April 2018, Accepted 30 April 2018, Available online 7 May 2018.

HATRIC-based identification of receptors for orphan ligands

Nadine Sobotzki, Michael A. Schafroth, Alina Rudnicka, Anika Koetemann, Florian Marty, Sandra Goetze, Yohei Yamauchi, Erick M. Carreira & Bernd Wollscheid Nature Communications, volume 9, Article number: 1519 (2018) doi:10.1038/s41467-018-03936-z Published online: 17 April 2018

Staphylococcal Superantigens Use LAMA2 as a Coreceptor GPCT signaling To Activate T Cells

Zhigang Li, Joseph J. Zeppa, Mark A. Hancock, John K. McCormick, Terence M. Doherty, Geoffrey N. Hendy and Joaquín Madrenas J Immunol January 15, 2018, ji1701212; DOI: https://doi.org/10.4049/jimmunol.1701212  (Published online February 5, 2018) This work was supported by the Canadian Institutes for Health Research. J.M. holds a tier I Canada Research Chair in Human Immunology. The Department of Microbiology and Immunology Flow Cytometry and Cell Sorting Facility and McGill Surface Plasmon Resonance–Mass Spectrometry Facility are supported by the Canada Foundation for Innovation.

Toll like receptors TLR1/2, TLR6 and MUC5B as binding interaction partners with cytostatic proline rich polypeptide 1 in human chondrosarcoma

International Journal of Oncology, published online on: November 9, 2017   doi.org/10.3892/ijo.2017.4199 Authors: Karina Galoian, Silva Abrahamyan, Gor Chailyan, Amir Qureshi, Parthik Patel, Gil Metser, Alexandra Moran, Inesa Sahakyan, Narine Tumasyan, Albert Lee, Tigran Davtyan, Samvel Chailyan and Armen Galoyan Metastatic chondrosarcoma is a bone malignancy not responsive to conventional therapies; new approaches and therapies are urgently needed.

Phenotypic screening—the fast track to novel antibody discovery

ScienceDirekt, doi.org/10.1016/j.ddtec.2017.03.004
  • Ralph R. Minter,
  • Alan M. Sandercock,
  • Steven J. Rust,
Department of Antibody Discovery and Protein Engineering, MedImmune, Milstein Building, Granta Park, Cambridge CB21 6GH, UK Available online 25 April 2017

Identification of Putative Receptors for the Novel Adipokine CTRP3 Using Ligand-Receptor Capture Technology

PLoS One. 2016 Oct 11;11(10):e0164593. doi: 10.1371/journal.pone.0164593. eCollection 2016. Li Y1, Ozment T2, Wright GL1, Peterson JM1,3. We used Ligand-receptor glycocapture technology with TriCEPS™-based ligand-receptor capture (LRC-TriCEPS; Dualsystems Biotech AG). The LRC-TriCEPS experiment with CTRP3-FLAG protein as ligand and>INS as a control ligand was performed on the H4IIE rat hepatoma cell line.

Serum stimulation of CCR7 chemotaxis due to coagulation factor XIIa-dependent production of high-molecular-weight kininogen domain 5

Manish P. Ponda and Jan L. Breslow PNAS November 8, 2016. 113 (45) E7059-E7068; published ahead of print October 24, 2016. Contributed by Jan L. Breslow, September 23, 2016 (sent for review August 1, 2016; reviewed by Myron Cybulsky and Carl F. Nathan)

Laminin targeting of a peripheral nerve-highlighting peptide enables degenerated nerve visualization

Identification of cell surface receptors for the novel adipokine CTRP3

Dilp8 requires the neuronal relaxin receptor Lgr3 to couple growth to developmental timing

Nature Communications 6, Article number: 8732 (2015), doi:10.1038/ncomms9732
Received:
Accepted:
Published online:
Andres Garelli, Fabiana Heredia, Andreia P. Casimiro, Andre Macedo, Catarina Nunes, Marcia Garcez, Angela R. Mantas Dias, Yanel A. Volonte, Thomas Uhlmann, Esther Caparros, Takashi Koyama & Alisson M. Gontijo

A Mass Spectrometric-Derived Cell Surface Protein Atlas

Published: April 20, 2015 – http://dx.doi.org/10.1371/journal.pone.0121314 Cell surface proteins are major targets of biomedical research due to their utility as cellular markers and their extracellular accessibility for pharmacological intervention. However, information about the cell surface protein repertoire (the surfaceome) of individual cells is only sparsely available. Here, we applied the Cell Surface Capture (CSC) technology to 41 human and 31 mouse cell types to generate a mass-spectrometry derived Cell Surface Protein Atlas (CSPA) providing cellular surfaceome snapshots at high resolution. The CSPA is presented in form of an easy-to-navigate interactive database, a downloadable data matrix and with tools for targeted surfaceome rediscovery (http://wlab.ethz.ch/cspa).

Protter

Protter — the open-source tool for visualization of proteoforms and interactive integration of annotated and predicted sequence features together with experimental proteomic evidence. The ability to integrate and visualize experimental proteomic evidence in the context of rich protein feature annotations represents an unmet need of the proteomics community. Protter, a web-based tool that supports interactive protein data analysis and hypothesis generation by visualizing both annotated sequence features and experimental proteomic data in the context of protein topology. Protter supports numerous proteomic file formats and automatically integrates a variety of reference protein annotation sources, which can be readily extended via modular plug-ins. A built-in export function produces publication-quality customized protein illustrations, also for large datasets. Visualizations of surfaceome datasets show the specific utility of Protter both for the integrated visual analysis of membrane proteins and peptide selection for targeted proteomics.

Ligand-based receptor identification on living cells and tissues using TRICEPS

Nature Protocols 8, 1321–1336 (2013) doi:10.1038/nprot.2013.072 Published online 13 June 2013

Flex your TRICEPS

Nature Chemical Biology 8, 950 (2012) doi:10.1038/nchembio.1126 Published online 26 November 2012

The power of TRICEPS

Nature Methods 9, 1044–1045 (2012) doi:10.1038/nmeth.2237 Published online 06 November 2012 Researchers describe a multifunctional reagent for identifying extracellular interactions.

Discovering ligand-receptor interactions

Affiliations ¦ Corresponding authors Nature Biotechnology 30, 959–961 (2012) doi:10.1038/nbt.2373
Published online 10 October 2012
A new probe identifies cell-surface receptors bound by known ligands.

Direct identification of ligand-receptor interactions on living cells and tissues

Nature Biotechnology 30, 997–1001 doi:10.1038/nbt.2354 – ReceivedAccepted Published online


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Customers Testimonials – LRC-TriCEPS Service


Testimonials from our customers who have used the LRC-TriCEPS technology – in collaboration with Dualsystems Biotech AG.


University of California San Francisco

"We have been trying to identify a receptor that has been sought after for nearly 30 years by laboratories across the globe. Thanks to Dualsystems service CaptiRec (LRC-TriCEPS), we now have a strong candidate receptor." indexDe'Broski R. Herbert Ph.D.
Assistant Professor in Residence
University of California San Francisco (UCSF)
2015-02-17T14:27:53+00:00
"We have been trying to identify a receptor that has been sought after for nearly 30 years by laboratories across the globe. Thanks to Dualsystems service CaptiRec (LRC-TriCEPS), we now have a strong candidate receptor." De'Broski R. Herbert Ph.D. Assistant Professor in Residence University of California San Francisco (UCSF)

Washington University School of Medicine

"Thanks to LRC-TriCEPS (CaptiRec) technology we were able to identify a long sought receptor of our ligand using genetically-engineered cell lines with the support of Dualsystems".Washington_University_in_StFumihiko Urano, MD, PhD
Samuel E. Schechter Professor of Medicine
Washington University School of Medicine
2015-02-17T14:30:12+00:00
"Thanks to LRC-TriCEPS (CaptiRec) technology we were able to identify a long sought receptor of our ligand using genetically-engineered cell lines with the support of Dualsystems".Fumihiko Urano, MD, PhD Samuel E. Schechter Professor of Medicine Washington University School of Medicine

Centro de Estudos de Doenças Crónicas

New publication in Nature Communications using the LRC-TriCEPS technology in collaboration with Alisson Gontijo
« The fruitful collaboration with Dualsystems Biotech using the LRC-TriCEPS (CaptiRec) technology showed that even on insect cells receptors could be identified »

Cedoc-logoAlisson M. Gontijo,
Principal Investigator at CEDOC
Centro de Estudos de Doenças Crónicas
2015-02-24T07:32:40+00:00
New publication in Nature Communications using the LRC-TriCEPS technology in collaboration with Alisson Gontijo « The fruitful collaboration with Dualsystems Biotech using the LRC-TriCEPS (CaptiRec) technology showed that even on insect cells receptors could be identified » Alisson M. Gontijo, Principal Investigator at CEDOC Centro de Estudos de Doenças Crónicas

Igenica Biotherapeutics

«Leveraging Dualsystems Biotech novel linker technology (LRC-TriCEPS) and its analytical data processing capabilities we were able to identify the heterophilic receptor for a highly-pursued immuno-oncology target.»Igenica-Biotherapeutics-logoDr. Edward van der Horst,
Senior Director, Preclinical Development
Igenica Biotherapeutics
2016-05-09T11:13:08+00:00
«Leveraging Dualsystems Biotech novel linker technology (LRC-TriCEPS) and its analytical data processing capabilities we were able to identify the heterophilic receptor for a highly-pursued immuno-oncology target.»Dr. Edward van der Horst, Senior Director, Preclinical Development Igenica Biotherapeutics

East Tennessee State University

For the ligand sample two unique receptors were identified. Flow cytometry analysis with siRNA induced knockdown of these proteins confirmed that the presence of the protein is needed for CTRP3 binding to occur. CONCLUSION The LRC-TriCEPS methodology was successful in identifying the receptor for CTRP3.Logo East Tennessee State UniversityJonathan M Peterson
Assistant Professor
East Tennessee State University
2016-05-30T15:20:03+00:00
“For the ligand sample two unique receptors were identified. Flow cytometry analysis with siRNA induced knockdown of these proteins confirmed that the presence of the protein is needed for CTRP3 binding to occur. CONCLUSION The LRC-TriCEPS methodology was successful in identifying the receptor for CTRP3.”Jonathan M Peterson Assistant Professor East Tennessee State University

Medizinische Hochschule Hannover

With the support of Dualsystems Biotech and their LRC-TriCEPS technology we were able to identify receptor candidates for our peptide with renoprotective properties in kidney injury.

mh-hannover-logoDr. rer. nat. Inga Sörensen-Zender
Postdoc
Medizinische Hochschule Hannover

 
2016-09-26T10:26:51+00:00
“With the support of Dualsystems Biotech and their LRC-TriCEPS technology we were able to identify receptor candidates for our peptide with renoprotective properties in kidney injury.” Dr. rer. nat. Inga Sörensen-Zender Postdoc Medizinische Hochschule Hannover  

The Rockefeller University

"We are very pleased with the work product of Dualsystems Biotech. The TriCEPS reagent allowed us to identify a novel ligand-extracellular matrix protein receptor interaction, which was not possible using traditional techniques. The Dualsystems team were very helpful in tailoring the experimental conditions to fit our biological question."rockefeller-university-logoManish Ponda, M.D., M.S.
Assistant Professor of Clinical Investigation
The Rockefeller University
2016-10-10T14:21:51+00:00
"We are very pleased with the work product of Dualsystems Biotech. The TriCEPS reagent allowed us to identify a novel ligand-extracellular matrix protein receptor interaction, which was not possible using traditional techniques. The Dualsystems team were very helpful in tailoring the experimental conditions to fit our biological question."Manish Ponda, M.D., M.S. Assistant Professor of Clinical Investigation The Rockefeller University

University of Manitoba

"Every aspect of our experience with Dualsystems Biotech was outstanding.  They provided excellent customer service and technical support throughout the entire process.  Their LRC-TriCEPS technology allowed us to identify several new candidate receptors for our protein of interest in rat primary neurons, and this has created new and exciting avenues for our research."

University of Manitba-logoSari S. Hannila, PhD
Associate Professor, Department of Human Anatomy and Cell Science
Associate Member, Spinal Cord Research Centre
Max Rady College of Medicine, Rady Faculty of Health Sciences
University of Manitoba
2017-06-12T10:05:43+00:00
"Every aspect of our experience with Dualsystems Biotech was outstanding.  They provided excellent customer service and technical support throughout the entire process.  Their LRC-TriCEPS technology allowed us to identify several new candidate receptors for our protein of interest in rat primary neurons, and this has created new and exciting avenues for our research." Sari S. Hannila, PhD Associate Professor, Department of Human Anatomy and Cell Science Associate Member, Spinal Cord Research Centre Max Rady College of Medicine, Rady Faculty of Health Sciences University of Manitoba

Münster University Hospital (UKM)

"Dualsystems Biotech’s approach to receptor identification with the TriCEPS reagent gave us a powerful platform with great support for a successful and fast data generation, when conventional approaches had previously failed."Münster University Hospital (UKM) Dr. rer. nat. Martin Herold
Working group from Prof. Dr. med. Luisa Klotz
Münster University Hospital (UKM), Germany
2017-08-24T14:48:20+00:00
"Dualsystems Biotech’s approach to receptor identification with the TriCEPS reagent gave us a powerful platform with great support for a successful and fast data generation, when conventional approaches had previously failed."Dr. rer. nat. Martin Herold Working group from Prof. Dr. med. Luisa Klotz Münster University Hospital (UKM), Germany

University of Miami, Miller School of Medicine

We are very pleased with the experience and interaction on very high professional level with Dualsystems Biotech. As a result of such collaboration the new receptor MUC5B was identified in human chondrosarcoma cells for the first time for antiproliferative neuropeptide PRP-1. Read more
I would like to thank once again the company and, particularly, Dr Helbling for his attention and collaboration.
Dualsystems-Logo-University of Miami, Miller School of MedicineDr Karina Galoian
Research associate professor
University of Miami, Miller School of Medicine
Department of Orthopedic surgery
Miami, Florida, USA
2017-11-16T08:07:04+00:00
We are very pleased with the experience and interaction on very high professional level with Dualsystems Biotech. As a result of such collaboration the new receptor MUC5B was identified in human chondrosarcoma cells for the first time for antiproliferative neuropeptide PRP-1. Read more I would like to thank once again the company and, particularly, Dr Helbling for his attention and collaboration. Dr Karina Galoian Research associate professor University of Miami, Miller School of Medicine Department of Orthopedic surgery Miami, Florida, USA

QIMR Berghofer Medical Research Institute

“With the help of the team at Dualsystems we confirmed a potential receptor which has lead to a Nature paper submission and successful funding of a research grant. The LRC-TriCEPS experiment was straightforward and the process was cost effective. We look forward to using TriCEPS in the future.”QIMR Berghofer Medical Research Institute LogoAnita Burgess  |  PhD
Hepatic Fibrosis Group
QIMR Berghofer Medical Research Institute, Australia
2017-12-12T13:21:33+00:00
“With the help of the team at Dualsystems we confirmed a potential receptor which has lead to a Nature paper submission and successful funding of a research grant. The LRC-TriCEPS experiment was straightforward and the process was cost effective. We look forward to using TriCEPS in the future.”Anita Burgess  |  PhD Hepatic Fibrosis Group QIMR Berghofer Medical Research Institute, Australia

Biomedical Research Institute

PUBLICATION:  Li Z, Zeppa JJ, Hancock MA, McCormick JK, Doherty TM, Hendy GN, and Madrenas J.  Staphylococcal Superantigens Use LAMA2 as a Coreceptor To Activate T Cells. J Immunol. 2018; 200: 1471-1479.

The identification of a T cell co-receptor for staphylococcal superantigens had been challenging due to the structural features of the interaction and its kinetics.  However, working with Dualstystems Biotech AG, and with Dr. Paul Helbling in particular, and using the LRC-TriCEPS technology, we were able to identify a candidate that was subsequently corroborated by biochemical and functional assays.   We are very happy with this collaboration , and sincerely recommend it for the identification of novel receptor or co-receptor candidates.LABioMed-Logo(Quim) Madrenas, MD, PhD, FCAHS
Chief Scientific Officer
Los Angeles Biomedical Research Institute at Harbor-UCLA Medical Center
Torrance, USA
2018-04-19T11:18:18+00:00
PUBLICATION:  Li Z, Zeppa JJ, Hancock MA, McCormick JK, Doherty TM, Hendy GN, and Madrenas J.  Staphylococcal Superantigens Use LAMA2 as a Coreceptor To Activate T Cells. J Immunol. 2018; 200: 1471-1479. The identification of a T cell co-receptor for staphylococcal superantigens had been challenging due to the structural features of the interaction and its kinetics.  However, working with Dualstystems Biotech AG, and with Dr. Paul Helbling in particular, and using the LRC-TriCEPS technology, we were able to identify a candidate that was subsequently corroborated by biochemical and functional assays.   We are very happy with this collaboration , and sincerely recommend it for the identification of novel receptor or co-receptor candidates.(Quim) Madrenas, MD, PhD, FCAHS Chief Scientific Officer Los Angeles Biomedical Research Institute at Harbor-UCLA Medical Center Torrance, USA

University of Pittsburgh

It was a pleasure working with Paul Helbling and his team. I was impressed by their attention to detail, and optimization of all cell conditions to produce the most reliable possible results. They kept me informed at every stage of the process and shared data as soon as they were able to. Using their LRC-TriCEPS platform, we were able to follow leading candidates as binding partners for our cardiac targeting peptide and identified the most likely binding partner.

Dualsystems-Logo-University-of-Pittsburgh

Maliha Zahid, M.D., Ph.D.
Assistant Professor
Departement of Developmental Biology
University of Pittsburgh
2018-11-15T19:35:14+00:00
It was a pleasure working with Paul Helbling and his team. I was impressed by their attention to detail, and optimization of all cell conditions to produce the most reliable possible results. They kept me informed at every stage of the process and shared data as soon as they were able to. Using their LRC-TriCEPS platform, we were able to follow leading candidates as binding partners for our cardiac targeting peptide and identified the most likely binding partner. Maliha Zahid, M.D., Ph.D. Assistant Professor Departement of Developmental Biology University of Pittsburgh

CuroNZ Ltd

The team from DualSystems Biotech AG has been extremely helpful in delivering scientific advice for CuroNZ’s target identification journey. The quick turnaround time and the precision of NRP2945’s target identification in regard to the utilization of their TRICEPS technology impressed us very much. Meanwhile we could identify another NRP2945 receptor target that was identified by DualSystems as being recruited to the NRP2945-activated membrane receptor complex. An absolute pleasure to work with Paul Helbling’s team.

Dualsystems-Biotech-Testimonial-Curonz Logo

Frank Sieg, PhD
CSO
CuroNZ Ltd
Mangawhai in New Zealand
2019-02-20T12:18:04+00:00
The team from DualSystems Biotech AG has been extremely helpful in delivering scientific advice for CuroNZ’s target identification journey. The quick turnaround time and the precision of NRP2945’s target identification in regard to the utilization of their TRICEPS technology impressed us very much. Meanwhile we could identify another NRP2945 receptor target that was identified by DualSystems as being recruited to the NRP2945-activated membrane receptor complex. An absolute pleasure to work with Paul Helbling’s team. Frank Sieg, PhD CSO CuroNZ Ltd Mangawhai in New Zealand

The University of Oklahoma – Health Sciences Center

I was very pleased with my collaboration with the team at Dualsystems. We had to work with difficult cells and the team helped us develop modifications to the original protocol to be able to use the TriCEPS approach with our cells. The whole team was very responsive, involved, and knowledgeable and this led to a successful identification of a receptor for our ligand of interest. We have since then confirmed the interaction and we are now getting ready to publish this study, which will have implications in the treatment of ocular injuries.



Anne Kasus-Jacobi, PhD
Associate Professor of Research
University of Oklahoma Health Sciences Center
Department of Pharmaceutical Sciences
Oklahoma City, Oklahoma, USA
2019-07-02T04:38:05+00:00
I was very pleased with my collaboration with the team at Dualsystems. We had to work with difficult cells and the team helped us develop modifications to the original protocol to be able to use the TriCEPS approach with our cells. The whole team was very responsive, involved, and knowledgeable and this led to a successful identification of a receptor for our ligand of interest. We have since then confirmed the interaction and we are now getting ready to publish this study, which will have implications in the treatment of ocular injuries. Anne Kasus-Jacobi, PhD Associate Professor of Research University of Oklahoma Health Sciences Center Department of Pharmaceutical Sciences Oklahoma City, Oklahoma, USA


LRC-TriCEPS customers worldwide

Over 200 satisfied customers from 28 countries.



Publication list from 2014 – Previous stopped Services


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