"Integrating China in the International Consortium for Personalized Medicine": The Coordination and Support Action to Foster Collaboration in Personalized Medicine Development between Europe and China

"Integrating China in the International Consortium for Personalized Medicine" (IC2PerMed) is a coordination and support action funded within the Horizon 2020 work program. Following the guidance of the International Consortium for Personalized Medicine (ICPerMed), the project's overarching aim is to align the European Union and China's research agendas in the field of personalized medicine (PM) to enable a swift development of PM approaches in the EU with strong leverage upon EU-Chinese collaboration. Living in the CO­VID-19 era, we are witnessing how the challenges imposed by the pandemic all around the globe have been acting as a catalyst for collaborations and knowledge sharing among national health systems worldwide. Given the strong interest on behalf of both Europe and China in the advancement of PM approaches, now more than ever, a cross-border collaboration between the 2 powers can accelerate the effective translation of such innovation to healthcare systems, advance research, and ensure that such change follows the directions toward the path of sustainability. IC2PerMed developments will be led by European and Chinese experts equally assembled into 3 Working Groups: (1) people and organization, (2) innovation and market, and (3) research and clinical studies in PM. This complex and dynamic network of actions thrives on dialog, cooperation, and alignment of research at national and global levels; work in the direction taken by IC2PerMed shall pave the way toward the realization of PM's full potential, prevent it from becoming a burden for healthcare systems, and, rather, prove that it provides an essential and irreplaceable contribution to their effectiveness, efficiency, and sustainability

Research on rare diseases:ten years of progress and challenges at IRDiRC

The International Rare Diseases Research Consortium (IRDiRC) is a global collaborative initiative launched in 2011, aimed at tackling rare diseases through research. Here, we summarize IRDiRC’s vision and goals and highlight achievements and prospects after its first decade.</p

The alliance between genetic biobanks and patient organisations: the experience of the telethon network of genetic biobanks

Background: Rare diseases (RDs) are often neglected because they affect a small percentage of the population (6-8 %), which makes research and development of new therapies challenging processes. Easy access to high-quality samples and associated clinical data is therefore a key prerequisite for biomedical research. In this context, Genetic Biobanks are critical to developing basic, translational and clinical research on RDs. The Telethon Network of Genetic Biobanks (TNGB) is aware of the importance of biobanking as a service for patients and has started a dialogue with RD-Patient Organisations via promotion of dedicated meetings and round-tables, as well as by including their representatives on the TNGB Advisory Board. This has enabled the active involvement of POs in drafting biobank policies and procedures, including those concerning ethical issues. Here, we report on our experience with RD-Patient Organisations who have requested the services of existing biobanks belonging to TNGB and describe how these relationships were established, formalised and maintained. Results: The process of patient engagement has proven to be successful both for lay members, who increased their understanding of the complex processes of biobanking, and for professionals, who gained awareness of the needs and expectations of the people involved. This collaboration has resulted in a real interest on the part of Patient Organisations in the biobanking service, which has led to 13 written agreements designed to formalise this process. These agreements enabled the centralisation of rare genetic disease biospecimens and their related data, thus making them available to the scientific community. Conclusions: The TNGB experience has proven to be an example of good practice with regard to patient engagement in biobanking and may serve as a model of collaboration between disease-oriented Biobanks and Patient Organisations. Such collaboration serves to enhance awareness and trust and to encourage the scientific community to address research on RDs

Targeting Cx43 and N-Cadherin, Which Are Abnormally Upregulated in Venous Leg Ulcers, Influences Migration, Adhesion and Activation of Rho GTPases

Venous leg ulcers can be very hard to heal and represent a significant medical need with no effective therapeutic treatment currently available

The role of gap junctions in diabetic wound healing

EThOS - Electronic Theses Online ServiceGBUnited Kingdo

COVID-19 and rare diseases: reflections and recommendations by the International Rare Diseases Research Consortium

Aim: The ambitious goals set by the International Rare Diseases Research Consortium (IRDiRC) by 2027 to fulfill the vision of providing diagnosis and treatments to rare diseases (RDs) patients within one year of coming to medical attention have been challenged by the COVID-19 pandemic. This article aims to identify the needs and challenges of the RD community during the COVID-19 pandemic and to understand whether the pandemic would hinder achievement of the IRDiRC goals.Methods: A survey was developed in 2020 to answer key issues related to the potential impact of the pandemic on RD research and distributed to all 96 IRDiRC Constituent Committee members and Scientific Committee experts.Results: The overall participation rate was 46%, with the highest response rates from the Patient Advocates, Funders, and Therapies Committees. Most respondents reported impacts on various aspects of RD research including decreased access to healthcare, clinical trials, and diagnostics for patients, as well as disrupted operations for patient and funding organizations and restrictions in access to workplaces for researchers. Despite these challenges, there was overall optimism that the IRDiRC goals could still be met by 2027, although there would be an inevitable slowdown in RD research activities.Conclusions: Maintaining funding for RD research and implementing new workflows to ensure that patients have continued access to diagnostics, therapies, and clinical trials will be key to ensuring that IRDiRC meets it goals by 2027

Cbl-b mediates TGF\uce\ub2 sensitivity by downregulating inhibitory SMAD7 in primary T cells

T cell-intrinsic transforming growth factor \u3b2 (TGF\u3b2) receptor signaling plays an essential role in controlling immune responses. The RING-type E3 ligase Cbl-b has been shown to mediate the sensitivity of T cells to TGF\u3b2; however, the mechanism underlying this process is unknown. This study shows that SMAD7, an established negative regulator of TGF\u3b2 receptor (TGF\u3b2R) signaling, is a key downstream effector target of Cbl-b. SMAD7 protein levels, but not SMAD7 mRNA levels, are upregulated in cblb-/- T cells. Cbl-b directly interacts with and ubiquitinates SMAD7, suggesting that Cbl-b posttranscriptionally regulates SMAD7. In support of this notion, concomitant genetic loss of SMAD7 in cblb-/- mice restored TGF\u3b2 sensitivity on T cell cytokine responses and abrogated the tumor rejection phenotype of cblb-/- mice. These results demonstrate an essential and non-redundant role for Cbl-b in controlling TGF\u3b2R signaling by directly targeting SMAD7 for degradation during T cell responses in vitro and in vivo