In-depth structural characterization of the tetraspanin CD81
Lead Research Organisation:
University of Oxford
Department Name: Target Discovery Institute
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Planned Impact
The BBSRC policy news website states that the bio-based economy "encompasses a wide range of activities that use bioscience-based research or processes to produce products, food, fuel or therapies. Across Europe the sector already represents a market worth over 1.5 trillion Euros and more than 22 million people are employed in the bioeconomy".
The outputs of this project will directly contribute to the bio-based economy through their potential for commercial application: CD81 has a well-established role in infection by various pathogens including influenza, human immunodeficiency virus, the malarial plasmodium parasite, human T-cell lymphotropic virus type 1 and hepatitis C virus; it has also been proposed to be a tumour promoter. CD81 is involved in essential physiological processes including cell-cell adhesion, cell proliferation, the immune response and fertilization. An understanding of how CD81 forms homomeric and heteromeric complexes will therefore impact on our knowledge of many different proteins with fundamental biological functions as well as those involved in cancers and infectious diseases.
The outcomes of the proposed research will be exploited according to the "Pathways to Impact" document that accompanies this proposal and is likely to benefit the following non-academic beneficiaries:
1. Scientists in pharmaceutical and biotechnology companies - this work seeks to define the first structure of the tetraspanin family. We will also establish the oligomeric status of the CD81 functional unit. This knowledge will enable new drug targets to be defined and, in the long term, facilitate the development of allosteric ligands that can enter drug development pipelines;
2. UK economic competitiveness - No complex of a viral attachment protein together with an integral membrane receptor has been characterized in atomic detail to date; the results from this proposal will lead to the first such structure. This will be possible because of the expertise developed in this project on forming, stabilizing and characterizing HCV-E2/CD81 complexes. Potential exists for molecules or vaccine candidates to be developed by UK companies based on the new structural and functional understanding of CD81 complexes that will result from this project. In the long term, this will allow companies to create new jobs;
3. Patients - in the longer term, access to new and improved therapies for important human infections will be of direct benefit for patients, thereby improving the quality of life across the lifespan;
4. The scientists of tomorrow & their families- The primary impact of this research will be enhanced structural and functional understanding of a membrane protein (the tetraspanin, CD81) of broad biological and medical importance. Starting with our first display in 2016 (11th-20th March), we will build an exhibit to engage the public. We will show how microbes are used as biotechnological tools to make medically-important proteins that can be developed as drug targets. In the long-term, the exhibit will be used as part of Aston's ongoing links with Thinktank (Birmingham's science museum) which is directly opposite the Aston campus;
5. The researcher co-investigator, Dr Michelle Clare, and the PGRA on this proposal - MC generated preliminary data for this proposal during her BBSRC iCASE-funded PhD project and has established the experimental systems that underpin it. MC's exceptional crystal data are highly likely to lead to a high-impact publication within the first 18 months of the project. Supported by the high-quality portfolio of work, training by the investigator team and publications arising from the proposed project, (i) MC will be in a strong position to transition to independence by securing a personal fellowship at the end of the project and (ii) the PGRA will develop his/her employability by gaining sought-after EM, crystallization and other high-level technical skills.
The outputs of this project will directly contribute to the bio-based economy through their potential for commercial application: CD81 has a well-established role in infection by various pathogens including influenza, human immunodeficiency virus, the malarial plasmodium parasite, human T-cell lymphotropic virus type 1 and hepatitis C virus; it has also been proposed to be a tumour promoter. CD81 is involved in essential physiological processes including cell-cell adhesion, cell proliferation, the immune response and fertilization. An understanding of how CD81 forms homomeric and heteromeric complexes will therefore impact on our knowledge of many different proteins with fundamental biological functions as well as those involved in cancers and infectious diseases.
The outcomes of the proposed research will be exploited according to the "Pathways to Impact" document that accompanies this proposal and is likely to benefit the following non-academic beneficiaries:
1. Scientists in pharmaceutical and biotechnology companies - this work seeks to define the first structure of the tetraspanin family. We will also establish the oligomeric status of the CD81 functional unit. This knowledge will enable new drug targets to be defined and, in the long term, facilitate the development of allosteric ligands that can enter drug development pipelines;
2. UK economic competitiveness - No complex of a viral attachment protein together with an integral membrane receptor has been characterized in atomic detail to date; the results from this proposal will lead to the first such structure. This will be possible because of the expertise developed in this project on forming, stabilizing and characterizing HCV-E2/CD81 complexes. Potential exists for molecules or vaccine candidates to be developed by UK companies based on the new structural and functional understanding of CD81 complexes that will result from this project. In the long term, this will allow companies to create new jobs;
3. Patients - in the longer term, access to new and improved therapies for important human infections will be of direct benefit for patients, thereby improving the quality of life across the lifespan;
4. The scientists of tomorrow & their families- The primary impact of this research will be enhanced structural and functional understanding of a membrane protein (the tetraspanin, CD81) of broad biological and medical importance. Starting with our first display in 2016 (11th-20th March), we will build an exhibit to engage the public. We will show how microbes are used as biotechnological tools to make medically-important proteins that can be developed as drug targets. In the long-term, the exhibit will be used as part of Aston's ongoing links with Thinktank (Birmingham's science museum) which is directly opposite the Aston campus;
5. The researcher co-investigator, Dr Michelle Clare, and the PGRA on this proposal - MC generated preliminary data for this proposal during her BBSRC iCASE-funded PhD project and has established the experimental systems that underpin it. MC's exceptional crystal data are highly likely to lead to a high-impact publication within the first 18 months of the project. Supported by the high-quality portfolio of work, training by the investigator team and publications arising from the proposed project, (i) MC will be in a strong position to transition to independence by securing a personal fellowship at the end of the project and (ii) the PGRA will develop his/her employability by gaining sought-after EM, crystallization and other high-level technical skills.
Organisations
People |
ORCID iD |
Jane McKeating (Principal Investigator) |
Publications
Vettori A
(2017)
Glucocorticoids promote Von Hippel Lindau degradation and Hif-1a stabilization.
in Proceedings of the National Academy of Sciences of the United States of America
Cardo L
(2018)
Metallo supramolecular cylinders inhibit HIV-1 TAR-TAT complex formation and viral replication in cellulo.
in Scientific reports
Benedikz EK
(2019)
Bacterial flagellin promotes viral entry via an NF-kB and Toll Like Receptor 5 dependent pathway.
in Scientific reports
D'Arienzo V
(2021)
A PCR assay to quantify patterns of HBV transcription.
in The Journal of general virology
Fletcher NF
(2017)
TNF superfamily members promote hepatitis C virus entry via an NF-?B and myosin light chain kinase dependent pathway.
in The Journal of general virology
Zhuang X
(2018)
Daytime variation in hepatitis C virus replication kinetics following liver transplant.
in Wellcome open research
Grove J
(2017)
A new panel of epitope mapped monoclonal antibodies recognising the prototypical tetraspanin CD81.
in Wellcome open research
Lai AG
(2018)
Glucose and glutamine availability regulate HepG2 transcriptional responses to low oxygen.
in Wellcome open research
Description | This award sought to exploit the recently published crystal structure of CD81, using a large panel of anti CD81 antibodies we developed. Using these tools we will be able to resolve the physical structure of this molecule in unprecedented detail. These findings have now been published. |
Exploitation Route | The information generated by this work has been used by other labs and the publications generated have several citations. |
Sectors | Healthcare,Pharmaceuticals and Medical Biotechnology |
Description | Wellcome Trust ISSF Award |
Amount | £49,760 (GBP) |
Organisation | University of Oxford |
Sector | Academic/University |
Country | United Kingdom |
Start | 09/2018 |
End | 08/2021 |
Description | Oxford Immunology Symposium |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Organiser, Chair and speaker at international meeting |
Year(s) Of Engagement Activity | 2018 |
Description | Seminar, Imperial College, London |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Research Seminar |
Year(s) Of Engagement Activity | 2017 |
Description | Seminar, University of Bristol |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Research Seminar |
Year(s) Of Engagement Activity | 2018 |