Periodic Reporting for period 1 - GD TCR LIGAND (Identification of the ligand of a human public anti-HCMV/cancer γδ T cell receptor)
Período documentado: 2017-03-01 hasta 2019-02-28
- Transwell experiments. The transwell insert is porous, allowing for dynamic interactions between the cells via secreted factors. Our results from transwell co-culture (S cells and public-cells) experiments demonstrated that the ligand of the public TCR is not a soluble molecule. Therefore, we hypothesized that the ligand could be a plasma membrane protein.
- Generation of a list of candidate ligands starting from previous microarray data. Assuming that the ligand is expressed by stimulator cells and not (or less) by non-stimulator cell lines, and starting from previous microarray data, we were able to generate a list of 150 genes to be tested as candidate ligands.
- Study of the role of a Butyrophilin protein in public-TCR activation and during HCMV infection. We selected this candidate ligand (we will call it BTNx) starting from literature, in particular because it is member of the butyrophilin (BTN) family and recent data indicates that this family of proteins could play an important role in γδ T cells activation. In order to analyse BTNx-counterreceptor expression, we worked with a recombinant BTNx-Fc fusion protein (and the relative control-Fc fusion protein). By incubating the biotinylated recombinant proteins with peripheral blood mononuclear cells derived both from HCMV- and HCMV+ new borns, we observed the binding of BTNx on γδ T cells derived from HCMV+ samples. At this point we checked the expression of BTNx protein in our different cell lines. We performed several runs of the experiments but finally we were not able to set up the protocols because of the results obtained were neither clear nor reproducible. The next step was to evaluate BTNx gene expression in our strongest stimulator cell line via RT-PCR. Surprisingly, several experiments demonstrated that this cell line does not express BTNx, thus our candidate protein can’t be the ligand of the public TCR.
- Screening of antibodies produced by hybridoma cells previously generated by the laboratory, in order to find a blocking antibody able to immunoprecipitate putative ligands of the public TCR. Upon the identification of blocking antibodies, able to block the activation of our public TCR, we performed immunoprecipitation experiments starting from protein extracts of stimulator cells, obtaining some nice and apparently specific bands. Unfortunately, the subsequent mass spectrometry analysis did not result in the identification of the putative ligand.
- Generation of γδbodies as an alternative tool to immunoprecipitate the ligand (collaboration with University of Hannover). A body is a chimeric structure which consist of the variable regions of the TCR and the constant regions of an antibody. In collaboration with the group of Immo Prinz we were in the process of the generation of such γδ bodies starting from the public TCR, as an alternative tool to immunoprecipitate the ligand. Unfortunately, our collaborators have encountered many difficulties in the production of these structures, and have failed to develop a protocol able to provide a sufficient amount of γδ bodies that could allow us to perform the planned experiments.
- Development of a surface proximity-dependent biotinylation assay (collaboration with University of South Dakota). The group of K. Roux developed a simply and quick technique for identifying interacting proteins. The difficulty with this method was that it has always been used as an intracellular system, and we needed to apply it in the extracellular interface. This is the reason why finally our collaborators have not been able to apply successfully this technique to our purpose, so we could not work with this key reagent.
The results obtained by working at this project has been presented and discussed during periodic meetings of the team, as well as during the annual meeting of the Institute for Medical Immunology (IMI) where the experiments were conducted. Taking into account that the prospects for the dissemination/exploitation of the results were based on the assumption of finding the ligand of the public γδ TCR, and finally we were not able to identify it, we didn’t have the opportunity to carry out any exploitation activity. For the same reason we decided not to share our data at scientific conferences, having been confident until now to get closer and closer to achieving our goal.
With this work we reviewed the latest progress in the identification and validation of putative γδ T cell ligands and discuss the implications of such findings for γδ T cell responses in health and disease.