scholarly journals Differential Accumulation of Innate- and Adaptive-Immune-Response-Derived Transcripts during Antagonism between Papaya Ringspot Virus and Papaya Mosaic Virus

Viruses ◽  
2020 ◽  
Vol 12 (2) ◽  
pp. 230
Author(s):  
Pablo Vargas-Mejía ◽  
Julio Vega-Arreguín ◽  
Gabriela Chávez-Calvillo ◽  
Enrique Ibarra-Laclette ◽  
Laura Silva-Rosales
Keyword(s):  
Immune System ◽  
Mosaic Virus ◽  
Innate Immune System ◽  
Adaptive Immune Response ◽  
Innate Immune ◽  
Ringspot Virus ◽  
Papaya Ringspot Virus ◽  
Adaptive Immune ◽  
Papaya Mosaic Virus ◽  
Synergism And Antagonism

Papaya ringspot virus (PRSV), a common potyvirus infecting papaya plants worldwide, can lead to either antagonism or synergism in mixed infections with Papaya mosaic virus (PapMV), a potexvirus. These two unrelated viruses produce antagonism or synergism depending on their order of infection in the plant. When PRSV is inoculated first or at the same time as PapMV, the viral interaction is synergistic. However, an antagonistic response is observed when PapMV is inoculated before PRSV. In the antagonistic condition, PRSV is deterred from the plant and its drastic effects are overcome. Here, we examine differences in gene expression by high-throughput RNA sequencing, focused on immune system pathways. We present the transcriptomic expression of single and mixed inoculations of PRSV and PapMV leading to synergism and antagonism. Upregulation of dominant and hormone-mediated resistance transcripts suggests that the innate immune system participates in synergism. In antagonism, in addition to innate immunity, upregulation of RNA interference-mediated resistance transcripts suggests that adaptive immunity is involved.

scholarly journals SARS-CoV-2 and interferon blockade

2020 ◽  
Vol 26 (1) ◽  
Author(s):  
Betty Diamond ◽  
Bruce T. Volpe ◽  
Sonya VanPatten ◽  
Yousef Al Abed
Keyword(s):  
Immune Response ◽  
Immune System ◽  
Innate Immune System ◽  
Neutralizing Antibodies ◽  
Cytotoxic T Cells ◽  
Adaptive Immune Response ◽  
Innate Immune ◽  
Interferon Production ◽  
Therapeutic Implications ◽  
Adaptive Immune

Abstract The response to viral infection generally includes an activation of the adaptive immune response to produce cytotoxic T cells and neutralizing antibodies. We propose that SARS-CoV-2 activates the innate immune system through the renin-angiotensin and kallikrein-bradykinin pathways, blocks interferon production and reduces an effective adaptive immune response. This model has therapeutic implications.

scholarly journals Orchestration of Adaptive T Cell Responses by Neutrophil Granule Contents

2019 ◽  
Vol 2019 ◽  
pp. 1-15 ◽  
Author(s):  
Danielle Minns ◽  
Katie Jane Smith ◽  
Emily Gwyer Findlay
Keyword(s):  
Immune Response ◽  
Immune System ◽  
T Cell ◽  
Innate Immune System ◽  
Adaptive Immune Response ◽  
Innate Immune ◽  
T Cell Immunity ◽  
Cell Responses ◽  
Adaptive Immune ◽  
Cell Immunity

Neutrophils are the most abundant leukocytes in peripheral blood and respond rapidly to danger, infiltrating tissues within minutes of infectious or sterile injury. Neutrophils were long thought of as simple killers, but now we recognise them as responsive cells able to adapt to inflammation and orchestrate subsequent events with some sophistication. Here, we discuss how these rapid responders release mediators which influence later adaptive T cell immunity through influences on DC priming and directly on the T cells themselves. We consider how the release of granule contents by neutrophils—through NETosis or degranulation—is one way in which the innate immune system directs the phenotype of the adaptive immune response.

scholarly journals Innate immunity and the pneumococcus

Microbiology ◽  
2006 ◽  
Vol 152 (2) ◽  
pp. 285-293 ◽  
Author(s):  
Gavin K. Paterson ◽  
Tim J. Mitchell
Keyword(s):  
Innate Immunity ◽  
Immune System ◽  
Streptococcus Pneumoniae ◽  
Immune Responses ◽  
Innate Immune System ◽  
Innate Immune ◽  
First Line ◽  
Adaptive Immune Responses ◽  
Adaptive Immune ◽  
Made In

The innate immune system provides a non-specific first line of defence against microbes and is crucial both in the development and effector stages of subsequent adaptive immune responses. Consistent with its importance, study of the innate immune system is a broad and fast-moving field. Here we provide an overview of the recent key advances made in this area with relation to the important pathogen Streptococcus pneumoniae (the pneumococcus).

scholarly journals Adaptive and innate immune cell responses in tendons and lymph nodes after tendon injury and repair

2020 ◽  
Vol 128 (3) ◽  
pp. 473-482 ◽  
Author(s):  
Andrew C. Noah ◽  
Thomas M. Li ◽  
Leandro M. Martinez ◽  
Susumu Wada ◽  
Jacob B. Swanson ◽  
...  
Keyword(s):  
T Cells ◽  
Lymph Node ◽  
Immune System ◽  
Innate Immune System ◽  
Immune Cell ◽  
Tendon Healing ◽  
Tendon Injury ◽  
Innate Immune ◽  
Adaptive Immune ◽  
Immune Cell Response

Tendon injuries are a common clinical condition with limited treatment options. The cellular components of the innate immune system, such as neutrophils and macrophages, have been studied in tendon injuries. However, the adaptive immune system, comprising specialized lymphocytes, plays an important role in orchestrating the healing of numerous tissues, but less is known about these cells in tendon healing. To gain a greater understanding of the biological processes that regulate tendon healing, we determined how the cellular components of the adaptive and innate immune system respond to a tendon injury using two-month-old male mice. We observed that lymphatic vasculature is present in the epitenon and superficial regions of Achilles tendons, and that the lymphatics drain into the popliteal lymph node. We then created an acute Achilles tenotomy followed by repair, and collected tendons and popliteal lymph nodes 1, 2, and 4 wk after injury. Tendon injury resulted in a robust adaptive immune cell response that followed an initial innate immune cell response in tendons and lymph nodes. Monocytes, neutrophils, and macrophages initially accumulated at 1 wk after injury in tendons, while dendritic cells and CD4+ T cells peaked at 2 wk after injury. B cells and CD8+ T cells progressively increased over time. In parallel, immune cells of the popliteal lymph node demonstrated a similarly coordinated response to the injury. These results suggest that there is an adaptive immune response to tendon injury, and adaptive immune cells may play a role in regulating tendon healing. NEW & NOTEWORTHY While the innate immune system, consisting of macrophages and related hematopoietic cells, has been studied in tendon injury, less is known about the adaptive immune system. Using a mouse model of Achilles tendon tenotomy and repair, we observed an adaptive immune cell response, consisting of CD4+ and CD8+ T cells, and B cells, which occur through 4 wk after tendon injury. This response appeared to be coordinated by the draining popliteal lymph node.

The innate immune system in human systemic lupus erythematosus

2017 ◽  
Vol 131 (8) ◽  
pp. 625-634 ◽  
Author(s):  
Marc Weidenbusch ◽  
Onkar P. Kulkarni ◽  
Hans-Joachim Anders
Keyword(s):  
Systemic Lupus Erythematosus ◽  
Immune System ◽  
Lupus Erythematosus ◽  
Innate Immune System ◽  
Innate Immune ◽  
Type I ◽  
Human Systemic Lupus Erythematosus ◽  
Systemic Lupus ◽  
Adaptive Immune

Although the role of adaptive immune mechanisms, e.g. autoantibody formation and abnormal T-cell activation, has been long noted in the pathogenesis of human systemic lupus erythematosus (SLE), the role of innate immunity has been less well characterized. An intricate interplay between both innate and adaptive immune elements exists in protective anti-infective immunity as well as in detrimental autoimmunity. More recently, it has become clear that the innate immune system in this regard not only starts inflammation cascades in SLE leading to disease flares, but also continues to fuel adaptive immune responses throughout the course of the disease. This is why targeting the innate immune system offers an additional means of treating SLE. First trials assessing the efficacy of anti-type I interferon (IFN) therapy or modulators of pattern recognition receptor (PRR) signalling have been attempted. In this review, we summarize the available evidence on the role of several distinct innate immune elements, especially neutrophils and dendritic cells as well as the IFN system, as well as specific innate PRRs along with their signalling pathways. Finally, we highlight recent clinical trials in SLE addressing one or more of the aforementioned components of the innate immune system.

Antibody equivalent molecules of the innate immune system: parallels between innate and adaptive immune proteins

2010 ◽  
Vol 16 (3) ◽  
pp. 131-137 ◽  
Author(s):  
Nades Palaniyar
Keyword(s):  
Pattern Recognition ◽  
Immune System ◽  
Innate Immune System ◽  
Adaptive Immune System ◽  
Surfactant Protein ◽  
Innate Immune ◽  
Future Research ◽  
Surfactant Protein D ◽  
Adaptive Immune ◽  
Carbohydrate Arrays

Soluble pattern-recognition innate immune proteins functionally resemble the antibodies of the adaptive immune system. Two major families of such proteins are ficolins and collectins or collagenous lectins (e.g. mannose-binding lectin [MBL], surfactant proteins [SP-A and SP-D] and conglutinin). In general, subunits of ficolins and collectins recognize the carbohydrate arrays of their targets via globular trimeric carbohydrate-recognition domains (CRDs) whereas IgG, IgM and other antibody isotypes recognize proteins via dimeric antigen-binding domains (Fab). Considering the structure and functions of these proteins, ficolins and MBL are analogous to molecules with the complement activating functions of C1q and the target recognition ability of IgG. Although the structure of SP-A is similar to MBL, it does not activate the complement system. Surfactant protein-D and conglutinin could be considered as the collagenous non-complement activating giant IgMs of the innate immune system. Proteins such as peptidoglycan-recognition proteins, pentraxins and agglutinin gp-340/DMBT1 are also pattern-recognition proteins. These proteins may be considered as different isotypes of antibody-like molecules. Proteins such as defensins, cathelicidins and lactoferrins directly or indirectly alter microbes or microbial growth. These proteins may not be considered as antibodies of the innate immune system. Hence, ficolins and collectins could be considered as specialized ‘antibodies of the innate immune system’ instead of ‘ante-antibody’ innate immune molecules. The discovery, structure, functions and future research directions of many of these soluble proteins and receptors such as Toll-like and NOD-like receptors are discussed in this special issue of Innate Immunity.

scholarly journals Antagonism or synergism between papaya ringspot virus and papaya mosaic virus in Carica papaya is determined by their order of infection

Virology ◽  
2016 ◽  
Vol 489 ◽  
pp. 179-191 ◽  
Author(s):  
Gabriela Chávez-Calvillo ◽  
Carlos A. Contreras-Paredes ◽  
Javier Mora-Macias ◽  
Juan C. Noa-Carrazana ◽  
Angélica A. Serrano-Rubio ◽  
...  
Keyword(s):  
Mosaic Virus ◽  
Carica Papaya ◽  
Ringspot Virus ◽  
Papaya Ringspot Virus ◽  
Papaya Mosaic Virus

scholarly journals Impact of Microorganisms and Parasites on Neuronally Controlled Drosophila Behaviours

Cells ◽  
2021 ◽  
Vol 10 (9) ◽  
pp. 2350
Author(s):  
Martina Montanari ◽  
Julien Royet
Keyword(s):  
Immune System ◽  
Animal Behavior ◽  
Innate Immune System ◽  
Adaptive Immune System ◽  
Model System ◽  
Innate Immune ◽  
Pathogenic Microorganisms ◽  
Immune Systems ◽  
Adaptive Immune ◽  
Drosophila Model

Like all invertebrates, flies such as Drosophila lack an adaptive immune system and depend on their innate immune system to protect them against pathogenic microorganisms and parasites. In recent years, it appears that the nervous systems of eucaryotes not only control animal behavior but also cooperate and synergize very strongly with the animals’ immune systems to detect and fight potential pathogenic threats, and allow them to adapt their behavior to the presence of microorganisms and parasites that coexist with them. This review puts into perspective the latest progress made using the Drosophila model system, in this field of research, which remains in its infancy.

scholarly journals Insights into Innate Immune Response Against SARS-CoV-2 Infection

2021 ◽  
Vol 29 (3) ◽  
pp. 255-269
Author(s):  
Adina Huțanu ◽  
Anca Meda Georgescu ◽  
Akos Vince Andrejkovits ◽  
William Au ◽  
Minodora Dobreanu
Keyword(s):  
Immune Response ◽  
Immune System ◽  
Innate Immune Response ◽  
Innate Immune System ◽  
Time Course ◽  
Adaptive Immune Response ◽  
Innate Immune ◽  
Interferon Response ◽  
Humoral Factors ◽  
Key Steps

Abstract The innate immune system is mandatory for the activation of antiviral host defense and eradication of the infection. In this regard, dendritic cells, natural killer cells, macrophages, neutrophils representing the cellular component, and cytokines, interferons, complement or Toll-Like Receptors, representing the mediators of unspecific response act together for both activation of the adaptive immune response and viral clearance. Of great importance is the proper functioning of the innate immune response from the very beginning. For instance, in the early stages of viral infection, the defective interferon response leads to uncontrolled viral replication and pathogen evasion, while hypersecretion during the later stages of infection generates hyperinflammation. This cascade activation of systemic inflammation culminates with cytokine storm syndrome and hypercoagulability state, due to a close interconnection between them. Thus an unbalanced reaction, either under- or over- stimulation of the innate immune system will lead to an uncoordinated response and unfavorable disease outcomes. Since both cellular and humoral factors are involved in the time-course of the innate immune response, in this review we aimed to address their gradual involvement in the antiviral response with emphasis on key steps in SARS-CoV-2 infection.

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