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BACKGROUND: There are some difficulties regarding the evaluation of the post-splenectomy state. OBJECTIVE: The objective of the study is to compare the post-splenectomy blood changes of immune thrombocytopenia (ITP) patients with those of trauma patients, 1 month and ≥ 6 months after surgery. METHODS: Medical records of patients, who had undergone total splenectomy for ITP and trauma at a tertiary center between January 2009 and December 2019, were retrospectively reviewed. RESULTS: The current study included 52 patients, who had undergone splenectomy for ITP (57.7%), and trauma (42.3%). Splenectomy, irrespective of the indications, resulted in an increase in hemoglobin concentration, hematocrit, and platelet levels. Neutrophils were responsible for the preoperative leukocytosis in ITP patients, and neutrophilia was ameliorated by splenectomy and also withdrawal of the steroid therapy in some patients. Decreased neutrophil-to-lymphocyte ratio and platelet-to-lymphocyte ratio supported the finding that splenectomy ameliorated inflammation in ITP patients. Splenectomy resulted in a change in percentages of leukocytes in favor of basophils in ITP patients. CONCLUSIONS: Splenectomy, irrespective of the indications, resulted in an increase in hemoglobin concentration, hematocrit and platelet levels, lymphocyte, monocyte, and eosinophil counts. Splenectomy ameliorated inflammation in ITP patients and resulted in a change in percentages of leukocytes in favor of basophils.

ANTECEDENTES: Existen algunas dificultades con respecto a la evaluación del estado post-esplenectomía. OBJETIVO: Comparar los cambios sanguíneos post-esplenectomía de pacientes con PTI con los de pacientes traumatizados, 1 mes y ≥ 6 meses después de la cirugía. MÉTODOS: Se revisaron retrospectivamente las historias clínicas de los pacientes que habían sido sometidos a esplenectomía total por PTI y trauma en un centro terciario entre enero de 2009 y diciembre de 2019. RESULTADOS: El presente estudio incluyó a 52 pacientes, que habían sido sometidos a esplenectomía por PTI (57.7%) y traumatismo (42.3%). La esplenectomía, independientemente de las indicaciones, resultó en un aumento de la concentración de hemoglobina, hematocrito y niveles de plaquetas. Los neutrófilos fueron responsables de la leucocitosis preoperatoria en pacientes con PTI, y la neutrofilia mejoró mediante esplenectomía y también la suspensión de la terapia con esteroides en algunos pacientes. La disminución de NLR y PLR apoyó el hallazgo de una disminución de la inflamación en la esplenectomía en pacientes con PTI. La esplenectomía resultó en un cambio en los porcentajes de leucocitos a favor de los basófilos en pacientes con PTI. CONCLUSIONES: La esplenectomía, independientemente de las indicaciones, resultó en un aumento de la concentración de hemoglobina, niveles de hematocrito y plaquetas, recuentos de linfocitos, monocitos y eosinófilos. Una disminución de la inflamación en la esplenectomía en pacientes con PTI resultó en un cambio en los porcentajes de leucocitos a favor de los basófilos.

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In plant-virus interactions, the plant immune system and virulence strategies are under constant pressure for dominance, and the balance of these opposing selection pressures can result in disease or resistance. The naturally evolving plant antiviral immune defense consists of a multilayered perception system represented by pattern recognition receptors (PRR) and resistance (R) proteins similarly to the nonviral pathogen innate defenses. Another layer of antiviral immunity, signaling via a cell surface receptor-like kinase to inhibit host and viral mRNA translation, has been identified as a virulence target of the geminivirus nuclear shuttle protein. The Geminiviridae family comprises broad-host range viruses that cause devastating plant diseases in a large variety of relevant crops and vegetables and hence have evolved a repertoire of immune-suppressing functions. In this review, we discuss the primary layers of the receptor-mediated antiviral immune system, focusing on the mechanisms developed by geminiviruses to overcome plant immunity.

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Geminiviruses are circular single-stranded DNA plant viruses encapsidated into geminate virion particles, which infect many crops and vegetables and, hence, represent significant agricultural constraints worldwide. To maintain their broad-range host spectrum and establish productive infection, the geminiviruses must circumvent a potent plant antiviral immune system, which consists of a multilayered perception system represented by RNA interference sensors and effectors, pattern recognition receptors (PRR), and resistance (R) proteins. This recognition system leads to the activation of conserved defense responses that protect plants against different co-existing viral and nonviral pathogens in nature. Furthermore, a specific antiviral cell surface receptor signaling is activated at the onset of geminivirus infection to suppress global translation. This review highlighted these layers of virus perception and host defenses and the mechanisms developed by geminiviruses to overcome the plant antiviral immunity mechanisms.

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Chitin is an excellent material for the synthesis of nanoparticles because it is an elicitor and can form nanostructured materials. The application of chitin nanoparticles (CNPs) in plants can activate early defense responses associated with chitin. In this study, CNPs were synthesized by water in oil (W/O) emulsion using an aqueous chitin solution. The CNPs were characterized and used to evaluate the activation of genes related to early responses to chitin and the production of reactive oxygen species (ROS) on seedlings of Nicotiana benthamiana. The CNPs had an average size of 280 nm in diameter, a polydispersity of 0.299, a surface charge of 26.9 mV, and their chemical composition was corroborated by the disappearance of microaggregated CNPs treated with chitinases observed under a microscope. Seedlings treated with CNPs for one hour revealed increments in the expression of genes STZ, ATL2, and MAPK3, in contrast when they were treated with chitin oligomers, and no changes in gene CERK1 was detected in both conditions. Finally, the synthesis of ROS mediated by CNPs was detected in seedlings, which was higher than those generated by the treatment of chitin oligomers. These results demonstrated the capability to generate CNPs by emulsion, which are capable of triggering responses related to early defense in N. benthamiana more efficiently than chitin oligomers.

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Xanthomonas axonopodis pv. manihotis (Xam) causes cassava bacterial blight, the most important bacterial disease of cassava. Xam, like other Xanthomonas species, requires type III effectors (T3Es) for maximal virulence. Xam strain CIO151 possesses 17 predicted T3Es belonging to the Xanthomonas outer protein (Xop) class. This work aimed to characterize nine Xop effectors present in Xam CIO151 for their role in virulence and modulation of plant immunity. Our findings demonstrate the importance of XopZ, XopX, XopAO1 and AvrBs2 for full virulence, as well as a redundant function in virulence between XopN and XopQ in susceptible cassava plants. We tested their role in pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) and effector-triggered immunity (ETI) using heterologous systems. AvrBs2, XopR and XopAO1 are capable of suppressing PTI. ETI suppression activity was only detected for XopE4 and XopAO1. These results demonstrate the overall importance and diversity in functions of major virulence effectors AvrBs2 and XopAO1 in Xam during cassava infection.

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Plants respond to pathogens using an innate immune system that is broadly divided into PTI (pathogen-associated molecular pattern- or PAMP-triggered immunity) and ETI (effector-triggered immunity). PTI is activated upon perception of PAMPs, conserved motifs derived from pathogens, by surface membrane-anchored pattern recognition receptors (PRRs). To overcome this first line of defense, pathogens release into plant cells effectors that inhibit PTI and activate effector-triggered susceptibility (ETS). Counteracting this virulence strategy, plant cells synthesize intracellular resistance (R) proteins, which specifically recognize pathogen effectors or avirulence (Avr) factors and activate ETI. These coevolving pathogen virulence strategies and plant resistance mechanisms illustrate evolutionary arms race between pathogen and host, which is integrated into the zigzag model of plant innate immunity. Although antiviral immune concepts have been initially excluded from the zigzag model, recent studies have provided several lines of evidence substantiating the notion that plants deploy the innate immune system to fight viruses in a manner similar to that used for non-viral pathogens. First, most R proteins against viruses so far characterized share structural similarity with antibacterial and antifungal R gene products and elicit typical ETI-based immune responses. Second, virus-derived PAMPs may activate PTI-like responses through immune co-receptors of plant PTI. Finally, and even more compelling, a viral Avr factor that triggers ETI in resistant genotypes has recently been shown to act as a suppressor of PTI, integrating plant viruses into the co-evolutionary model of host-pathogen interactions, the zigzag model. In this review, we summarize these important progresses, focusing on the potential significance of antiviral immune receptors and co-receptors in plant antiviral innate immunity. In light of the innate immune system, we also discuss a newly uncovered layer of antiviral defense that is specific to plant DNA viruses and relies on transmembrane receptor-mediated translational suppression for defense.

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Leaf rust, caused by the foliar pathogen Puccinia triticina is a major disease of wheat in the southern region of Brazil and invariably impacts on production, being responsible for high yield losses. The Brazilian wheat cultivar Toropi has proven, durable adult plant resistance (APR) to leaf rust, which uniquely shows a pre-haustorial resistance phenotype. In this study we aimed to understand the interaction between P. triticina and the pre-haustorial APR in Toropi by quantitatively evaluating the temporal transcription profiles of selected genes known to be related to infection and defense in wheat. The expression profiles of 15 selected genes varied over time, grouping into six expression profile groups. The expression profiles indicated the induction of classical defence pathways in response to pathogen development, but also the potential modification of Toropi's cellular status for the benefit of the pathogen. Classical defence genes, including peroxidases, ß-1,3-glucanases and an endochitinase were expressed both early (pre-haustorial) and late (post-haustorial) over the 72 h infection time course, while induction of transcription of other infection-related genes with a potential role in defence, although variable was maintained through-out. These genes directly or indirectly had a role in plant lignification, oxidative stress, the regulation of energy supply, water and lipid transport, and cell cycle regulation. The early induction of transcription of defence-related genes supports the pre-haustorial resistance phenotype in Toropi, providing a valuable source of genes controlling leaf rust resistance for wheat breeding.

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In New World primates, mixed-species troops have been reported. Here, we analysed the performance of affiliative and agonistic behaviours of Callithrix jacchus and Callithrix penicillata living in mixed groups. For this purpose, we recorded the interaction of the individuals from two groups located in Bauru city, in the state of São Paulo (Brazil). Our data show that in both groups, affiliative behaviours appeared more frequently than agonistic ones. We concluded that there is cohesion inside the mixed-species troops observed. We suggest that a deeper knowledge about the social behaviour of mixed-species troop species certainly may be useful in projects linked with the management of the impact caused by them.(AU)

Grupos mistos em espécies de primatas do Novo Mundo têm sido relatados. Aqui, nós avaliamos a emissão de comportamentos afiliativos e agonísticos em grupos mistos formados por Callithrix jacchus e Callithrix penicillata. Para tanto, registramos a interação de dois grupos, localizados no município de Bauru, Estado de São Paulo (Brasil). Nossos dados mostram que nos dois grupos a emissão de comportamentos afiliativos foi maior do que a de comportamentos agonísticos, indicando que há coesão dentro dos grupos mistos estudados. Sugerimos que um conhecimento mais elaborado sobre o comportamento social de grupos mistos pode ser útil em projetos de impactos causados por espécies invasoras.(AU)

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