Your search keyword '"Ruibal, Paula"' showing total 5 results

1. T-Cell Receptor Diversity and the Control of T-Cell Homeostasis Mark Ebola Virus Disease Survival in Humans

Author

Speranza, Emily, Ruibal, Paula, Port, Julia R., Feng, Feng, Burkhardt, Lia, Grundhoff, Adam, Günther, Stephan, Oestereich, Lisa, Hiscox, Julian A., Connor, John H., and Muñoz-Fontela, César

Published

2018

2. Beziehung zwischen HLA und T-Zell-Reaktionen auf Ebola-Virus

Author

Ruibal, Paula, Dotzauer, Andreas, and Munoz-Fontela, César

Subjects

HLA, Ebola virus, ddc:570, T cells, 570 Life sciences, biology

Abstract

Ebola virus disease (EVD) is a severe illness caused by infection with Ebola virus (EBOV) which causes sporadic outbreaks in African countries, the last one taking place in West Africa and affecting over 28000 people. Even though several decades have passed since the description of the first EVD cases, there are still many unanswered questions regarding the involvement of the human immune response in the pathophysiology of EVD. Research in this field is challenging because of the requirement of biosafety level 4 containment and the scarcity of human data. During the last EVD outbreak in West Africa, we had the opportunity to establish an immunology lab at Donka hospital in Conakry, Guinea where we collected and analysed leftover blood samples from patients diagnosed by the European Mobile Laboratory. With the use of benchtop multiparametric flow cytometry and subsequent analysis in the biosafety level 4 laboratory in Hamburg, we evaluated the kinetics and phenotype of antigen-presenting cells as well as T cells with the goal to identify immune biomarkers of disease outcome. Our approach was to utilize flow cytometry to characterize cell profiles in blood as well as immunogenetics, in particular analysis of the T-cell receptor clonotypes and HLA polymorphisms. Immune data was then correlated with clinical and epidemiological findings to try to detect potential predictors of outcome and targets for immunotherapy. Our observations highlight the importance of CD16 monocytes in the innate immune response to EBOV infection and in viral clearance. Additionally, we could identify a dysregulation of the adaptive immune response in fatal cases, characterised by the upregulation of the T cell inhibitory markers CTLA-4 and PD-1 and the inability to control viral replication. These results identify CD16 monocytes and the regulatory pathways of T cell responses as potential targets for post-exposure EVD immunotherapy. Moreover, our immunogenetics study evidenced the relevance of the expression of various HLA alleles and the activation of a T cell response through a broad and diverse T cell receptor repertoire in improved disease outcome.

Published

2017

3. Ebola Virus Disease Is Characterized by Poor Activation and Reduced Levels of Circulating CD16+ Monocytes.

Author

Lüdtke, Anja, Ruibal, Paula, Becker-Ziaja, Beate, Rottstegge, Monika, Wozniak, David M., Cabeza-Cabrerizo, Mar, Thorenz, Anja, Weller, Romy, Kerber, Romy, Idoyaga, Juliana, Magassouba, N'Faly, Gabriel, Martin, Günther, Stephan, Oestereich, Lisa, and Muñoz-Fontela, César

Subjects

*EBOLA virus disease, *CD antigens, *VIRUS inactivation, *MONOCYTES, *DENDRITIC cells, *NEUTROPHILS, *DIAGNOSIS

Abstract

A number of previous studies have identified antigen-presenting cells (APCs) as key targets of Ebola virus (EBOV), but the role of APCs in human Ebola virus disease (EVD) is not known. We have evaluated the phenotype and kinetics of monocytes, neutrophils, and dendritic cells (DCs) in peripheral blood of patients for whom EVD was diagnosed by the European Mobile Laboratory in Guinea. Acute EVD was characterized by reduced levels of circulating nonclassical CD16+ monocytes with a poor activation profile. In survivors, CD16+ monocytes were activated during recovery, coincident with viral clearance, suggesting an important role of this cell subset in EVD pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2016

4. Ebola Virus Disease Survivors Show More Efficient Antibody Immunity than Vaccinees Despite Similar Levels of Circulating Immunoglobulins.

Author

Koch, Till, Rottstegge, Monika, Ruibal, Paula, Gomez-Medina, Sergio, Nelson, Emily V., Escudero-Pérez, Beatriz, Pillny, Matthias, Ly, My Linh, Koundouno, Fara Raymond, Bore, Joseph Akoi, Magassouba, N'Faly, Dahlke, Christine, Günther, Stephan, Carroll, Miles W., Addo, Marylyn M., and Muñoz-Fontela, César

Subjects

EBOLA virus disease, IMMUNOLOGIC memory, VACCINE effectiveness, IMMUNOGLOBULINS, VACCINE trials

Abstract

The last seven years have seen the greatest surge of Ebola virus disease (EVD) cases in equatorial Africa, including the 2013–2016 epidemic in West Africa and the recent epidemics in the Democratic Republic of Congo (DRC). The vaccine clinical trials that took place in West Africa and the DRC, as well as follow-up studies in collaboration with EVD survivor communities, have for the first time allowed researchers to compare immune memory induced by natural infection and vaccination. These comparisons may be relevant to evaluate the putative effectiveness of vaccines and candidate medical countermeasures such as convalescent plasma transfer. In this study, we compared the long-term functionality of anti-EBOV glycoprotein (GP) antibodies from EVD survivors with that from volunteers who received the recombinant vesicular stomatitis virus vectored vaccine (rVSV-ZEBOV) during the Phase I clinical trial in Hamburg. Our study highlights important differences between EBOV vaccination and natural infection and provides a framework for comparison with other vaccine candidates. [ABSTRACT FROM AUTHOR]

Published

2020

5. Avatar Mice Underscore the Role of the T Cell-Dendritic Cell Crosstalk in Ebola Virus Disease and Reveal Mechanisms of Protection in Survivors.

Author

Rottstegge, Monika, Tipton, Tom, Oestereich, Lisa, Ruibal, Paula, Nelson, Emily V., Olal, Catherine, Port, Julia R., Seibel, Johan, Pallasch, Elisa, Bockholt, Sabrina, Koundouno, Fara Raymond, Boré, Joseph Akoi, Rodríguez, Estefanía, Escudero-Pérez, Beatriz, Günther, Stephan, Carroll, Miles W., and Muñoz-Fontela, César

Subjects

*EBOLA virus disease, *T cell receptors, *ANTIGEN presenting cells, *EBOLA virus, *MAJOR histocompatibility complex, *T cells, *MULTIPLE organ failure

Abstract

Ebola virus disease (EVD) is a complex infectious disease characterized by high inflammation, multiorgan failure, the dysregulation of innate and adaptive immune responses, and coagulation abnormalities. Evidence accumulated over the last 2 decades indicates that, during fatal EVD, the infection of antigen-presenting cells (APC) and the dysregulation of T cell immunity preclude a successful transition between innate and adaptive immunity, which constitutes a key disease checkpoint. In order to better understand the contribution of the APC-T cell crosstalk to EVD pathophysiology, we have developed avatar mice transplanted with human, donorspecific APCs and T cells. Here, we show that the transplantation of T cells and APCs from Ebola virus (EBOV)-naive individuals into avatar mice results in severe disease and death and that this phenotype is dependent on T cell receptor (TCR)-major histocompatibility complex (MCH) recognition. Conversely, avatar mice were rescued from death induced by EBOV infection after the transplantation of both T cells and plasma from EVD survivors. These results strongly suggest that protection from EBOV reinfection requires both cellular and humoral immune memory responses. [ABSTRACT FROM AUTHOR]

Published

2022