The researcher of this project, Dr. Samuel Peña-Llopis, started a Junior Group Leader position in July 1st, 2018, at the same time as the MSCA-IF started. However, the remodeling of the wet laboratories did not finish until around October/November 2018. A PhD student was recruited with funds from a German Research Foundation (DFG) grant and started working in October 15th, 2018, spearheading Objective 1 (WP1-3). Another PhD student was recruited with funds from the German Cancer Consortium (DKTK) and started spearheading Objective 2 (WP4-6) in November 1st, 2018. Anyway, the authorization for performing experiments in S1 and S2 safety laboratories were approved in November 21st, 2018, delaying almost 5 months the beginning of the experiments for the VulneraBAP1 project. Here are the Work Packages (WP), Major Deliverables and Milestones achieved:
Objective 1
WP1: Serially truncated regions of the miRNA cluster were generated and analyzed by dual-luciferase assay to pinpoint the key region that confers BAP1 repression in cell lines reconstituted with wild-type or mutant BAP1.
Major Deliverable 1: The minimal region of binding of BAP1 to the miRNA cluster promoter was identified.
Major Milestone 1: Minimal promoter DNA was used for DNA pull-down assay (TIGR) by Proteomics group.
WP2: In collaboration with Prof. Jeroen Krijgsveld at DKFZ, we aimed to identifying the proteins that bind to the miRNA cluster using a custom-made DNA pull-down assay. Unfortunately, results suggest that BAP1 is not directly regulating the promoter region of the miRNA cluster and, therefore, we are exploring alternative regulatory mechanisms.
Objective 2
WP4: A third experiment for the synthetic lethality screen has been completed. Data analysis identified several genes involved in DNA repair whose knockdown is potentially synthetic lethal with BAP1 loss.
Major Deliverable 4: The synthetic lethality screen for BAP1 loss reveals candidate hits after proper comparisons.
Major Milestone 2: Decision to start the in vitro validation of the hits.
WP5: In vitro validation of three hits using the renal cell carcinoma BAP1 deficient cell lines UM-RC-6 and the wild-type BAP1 cell lines 786-O, Caki-1, Caki-2 and RCC4 was completed. Five different shRNAs were tested for each of the three hits and the two most efficient shRNAs were selected for the in vitro assays using cell proliferation and colony formation.
Major Deliverable 5: Validation of candidate hits that selectively kill BAP1-mutant but not wild-type human cells.
Major Milestone 4: Decision to validate the successful in vitro candidate hit(s) in mouse models of metastasis.
WP6: Unfortunately, ethics approvals for animal experiments were significantly delayed and by the time everything was in place, the COVID-19 pandemic took hold, preventing the execution of the mouse experiments. Currently, the situation in the lab is much better and we have started the experiments with mouse models of metastasis.
The work carried out can bring important benefits for society by using the loss of BAP1 in immunohistochemistry to identify patients with mutations in this tumor suppressor gene who could benefit from novel treatments that we are developing in the lab.