Respiratory Host-Pathogen Interaction

Expand the current sentinel system (s’ouvre dans une nouvelle fenêtre)

Expand the current Danish Sentinel Surveillance System to include blood samples from individuals with respiratory viral infections of concern, in order to “live monitor” emerging viral variants and investigate novel host-pathogen interactions.Create a prospective cohort based on the Spanish Sentinel Surveillance System to include blood samplesfrom individuals with respiratory viral infections of concern, in order to “live monitor” emerging viral variants and investigate novel host-pathogen interactions.

A repository of HNE-patient derived organoids from European and black South African individuals available for the entire scientific community (s’ouvre dans une nouvelle fenêtre)

A repository of HNE-patient derived organoids from European and black South African individuals available for the entire scientific communityGeneration of REACT organoid platform

Create a large biobank prospective collection for WP 04 - WP 07 (s’ouvre dans une nouvelle fenêtre)

Collection of a large prospective biobank including live cells from hospitalized patients infected with SARS-CoV-2, influenza, or RSV. For the latter, this will also include sampling from children admitted to hospitals in RegH. Collection of a large prospective biobank including live cells from hospitalized patients infected with SARSCoV-2, influenza, or RSV from the nodes of the ISCIII-BBP coordinated by CNIO Biobank.

Plan for dissemination and exploitation of results (s’ouvre dans une nouvelle fenêtre)

A plan describing activities of dissemination and exploitation of results.The utility of results through dissemination and exploitation will be planned according to the plan provided in section 2.2.1 in Part B of Annex 1.

Lung Chip (s’ouvre dans une nouvelle fenêtre)

Task 12.1. Lung-chip generation; M21-M27. Taking advantage of current protocols forlung tumor-chip generation within the widening partner, lung-chip models will be established from resected tumor-free lung tissue. Characterization will be performed by immunofluorescence and FACS (lineage and functional markers for T/ B cells, macrophages, endothelial cells, epithelial cells and fibroblasts, among others).

Identify the most critical parameters for immune protection against SARS-CoV2 within the T cell compartments (s’ouvre dans une nouvelle fenêtre)

Characterisation of T cell immunity in SARS-CoV. In-depth evaluation of CD4 and CD8 T cell immune responses to SARS-CoV-2 infection, including epitope landscape, cross-reactivity, HLA-specific effects, TCR usage, T cell functional and transcriptomic profiling, cytokine secreting profiles.

Data Management Plan (s’ouvre dans une nouvelle fenêtre)

The Data Manager will create a Data Management Plan (DMP), which will aim to maximise access to and re-use of research data gathered and produced through REACT where possible.The DMP will be reviewed and updated regularly during the project. This will be done in close collaboration with the Ethics Manager (EM).

Online meeting with existing EU projects to initiate collaboration (s’ouvre dans une nouvelle fenêtre)

Collaborate with existing initiatives such as the EU-funded ORCHESTRA project and the European COVID-19 Data Platform. Build on existing collaborations and platforms such as GISAID, ELIXIR, ICPerMed and 1+ Million Genomes Initiative.

Suggest measures to improve the critical immune parameters in susceptible individuals (s’ouvre dans une nouvelle fenêtre)

In-depth evaluation of T cell immunity will be assessed directly in patients ‘at risk’ of severe disease, i.e.with various immune deficiencies, either induced by disease or medication (e.g. hematological B cell malignancies, MS (or other) patients treated with antiCD20 (rituximab, ocrelizumab or ofatumumab), patients with T cell malignancies, other immunosuppressive drugs (e.g. patients under transplantation). This will allow us to determine, in real patient cohorts, how deficiencies in different components of the immune system will influence the overall antiviral response, the balance of the immune reaction and the capacity to control disease. We aim to evaluate a total number of 60 patients, representing a minimum of three different types of immune deficiencies.

Risk and Contingency Plan (s’ouvre dans une nouvelle fenêtre)

The PC will carefully observe any potential conflicts and risks related to both scientific delivery and the participants’ contractual obligations. Any conflict will be dealt with immediately and with the appropriate measures. With the assistance of the legal team at SSI, the coordinator will negotiate a Consortium Agreement (CA) with all participants prior to project start. This will ensure that all the participants are aware of their rights and obligations as well as processes for conflict resolution. The project’s identified risks will be monitored carefully, and if any issues should occur, these will be dealt with in a timely and efficient manner, taking all necessary precautions and steps to mitigate the risks. Moreover, the initial contingency plan will be updated annually by the Scientific Core Group, comprised of all WP leaders to ensure that it remains relevant and useful.

Create a grand overview of existing resources (s’ouvre dans une nouvelle fenêtre)

Integrate existing cohorts, collections and biobanks from the consortium partners. Denmark: RegH, Zealco, DTU and SSI cohorts, and the Danish National Biobank. Sweden: Karolinska cohorts. Spain: ISCIII-BBP coordinated by CNIO Biobank. As lead partner in this WP we will revise and harmonize all the cohorts samples and research information so as to integrate and share with participants from other WPs as required. The biorepository of biological samples from black South African hospitalized patients will be stored at the NICD; samples will be shipped as required to participants from other WPs.

A repository of longitudinal plasma/serum, whole blood, swab, PBMCs and neutrophils from SARS-CoV-2 infected hospitalized black South African individuals with and without HIV-1 infection (s’ouvre dans une nouvelle fenêtre)

A repository of longitudinal plasma/serum, whole blood, swab, PBMCs and neutrophils from black South African individuals with and without HIV-1 infection (from Dec 2020 through different SARS-CoV-2 waves, dominated by specific viral variants (wave 1: ancestral D614G, wave 2: beta, wave 3: delta, and is ongoing). Recruitment complete; clinical data analysis, patient sample selection for D 7.2-7.4 (M12).

Data Management updated version (s’ouvre dans une nouvelle fenêtre)

The Data Manager will create a Data Management Plan (DMP), which will aim to maximise access to and re-use of research data gathered and produced through REACT where possible.The DMP will be reviewed and updated regularly during the project. This will be done in close collaboration with the Ethics Manager (EM).

Dissemination & Communication strategy (s’ouvre dans une nouvelle fenêtre)

We will prepare materials including (1) Project logo and a graphical chart to build the consortium signature and increase REACT visibility worldwide. (2) Slide templates edited with the project chart will be distributed to all partners. (3) A brochure and poster presenting the partners, the consortium, its objectives and expected results, contact and website details will be issued to support the dissemination activities of the project to the wider public (M3).

Project website and REACT materials (logo, templates and brochure) (s’ouvre dans une nouvelle fenêtre)

It will include the proposed innovations and knowledge to reach their final exploitation and, thus, make them available and delivered to the scientific community and to the society. The web site will count with a secure intranet system to have internal communications among REACT project members (M3).

Securing ethical and regulatory approvals for studying influenza and RSV (s’ouvre dans une nouvelle fenêtre)

Ensure approvals and legal aspects of the use of already genotyped cohorts for this study.