ABSTRACT
The Theraphosidae family includes the largest number of species of the Mygalomorphae infraorder, with hundreds of species currently catalogued. However, there is a huge lack on physiologic and even ecologic information available, especially in Brazil, which is the most biodiverse country in the world. Over the years, spiders have been presented as a source of multiple biologically active compounds with basic roles, such as primary defense against pathogenic microorganisms or modulation of metabolic pathways and as specialized hunters. Spider venoms also evolved in order to enable the capture of prey by interaction with a diversity of molecular targets of interest, raising their pharmaceutical potential for the development of new drugs. Among the activities found in compounds isolated from venoms and hemocytes of Brazilian Theraphosidae there are antimicrobial, antifungal, antiparasitic and antitumoral, as well as properties related to proteinase action and neuromuscular blockage modulated by ionic voltage-gated channel interaction. These characteristics are present in different species from multiple genera, which is strong evidence of the important role in spider survival. The present review aims to compile the main results of studies from the last decades on Brazilian Theraphosidae with special focus on results obtained with the crude venom or compounds isolated from both venom and hemocytes, and their physiological and chemical characterization.(AU)
Subject(s)
Animals , Peptide Hydrolases , Spider Venoms , Spiders , Hemocytes , Antiparasitic Agents , Pharmaceutical PreparationsABSTRACT
Abstract The Theraphosidae family includes the largest number of species of the Mygalomorphae infraorder, with hundreds of species currently catalogued. However, there is a huge lack on physiologic and even ecologic information available, especially in Brazil, which is the most biodiverse country in the world. Over the years, spiders have been presented as a source of multiple biologically active compounds with basic roles, such as primary defense against pathogenic microorganisms or modulation of metabolic pathways and as specialized hunters. Spider venoms also evolved in order to enable the capture of prey by interaction with a diversity of molecular targets of interest, raising their pharmaceutical potential for the development of new drugs. Among the activities found in compounds isolated from venoms and hemocytes of Brazilian Theraphosidae there are antimicrobial, antifungal, antiparasitic and antitumoral, as well as properties related to proteinase action and neuromuscular blockage modulated by ionic voltage-gated channel interaction. These characteristics are present in different species from multiple genera, which is strong evidence of the important role in spider survival. The present review aims to compile the main results of studies from the last decades on Brazilian Theraphosidae with special focus on results obtained with the crude venom or compounds isolated from both venom and hemocytes, and their physiological and chemical characterization.
ABSTRACT
Hemocytes play an important role in the immune defense system of animals, especially for invertebrates that have no adaptive immune system. In those animals, hemocytes not only participate in the cellular immunity including phagocytosis, encapsulation, and nodules formation, but also the humoral immunity via storage and release of immune factors. Identification of the components of hemocytes is the basis for understanding the immune mechanism and the function of hemocytes. Despite various researches have been done on distinguishing the composition and function of shrimp hemocytes, no standard is used uniformly until now. So, we analyze and summarize the results on shrimp hemocytes research and offer a three subgroups category in this review. We also introduce the morphological characters and immune function of three subgroups in detail. We hope this work will be beneficial for understanding the function and molecular mechanism of hemocytes in invertebrate, bringing ideas for new separation technology development.
Subject(s)
Animals , Hemocytes , PhagocytosisABSTRACT
RESUMEN Introducción: Tradicionalmente, Rhodnius prolixus ha sido considerado el principal vector, mientras que Triatoma maculata resulta ser un vector secundario de Trypanosoma cruzi en el medio rural venezolano. En este trabajo se provee información de interés acerca de los componentes bioquímicos y del sistema inmune, humoral y celular, de la hemolinfa de R. prolixus y T. maculata alimentados sobre gallina y rata. Metodología: los insectos provenían de una colonia del laboratorio, mantenida a una temperatura de 27-29ºC, 50% de humedad relativa y ocho horas luz/día. Se analizó la hemolinfa de adultos alimentados sobre gallina y rata. Se observaron los hemocitos mediante microscopía óptica y electrónica de transmisión. Resultados: los parámetros bioquímicos de glucosa, lípidos y proteínas fueron afectados de forma distinta en R. prolixus y T. maculata según la fuente alimenticia. T. maculata presentó mayores niveles de actividad lítica de lisozima. Se observaron cuatro poblaciones de hemocitos (prohemocitos, plasmatocitos, granulocitos y oenocitos), cuyas características y medidas están acorde a lo reportado por otros autores sobre la subfamilia Triatominae. T. maculata presentó mayor número de prohemocitos y oenocitos que R. prolixus. Conclusiones: En su hemolinfa, R. prolixus y T. maculata son afectados distintamente en los componentes bioquímicos (glucosa, lípidos y proteínas) e inmunes, tanto humorales (lizosima) como celulares (prohemocitos, oenocitos), según sean alimentados sobre gallina y rata. Esto pone de manifiesto de la alimentación sobre uno de los componentes de la competencia vectorial, como lo es el sistema inmune propio de la hemolinfa de los insectos.
ABSTRACT Introduction: Traditionally, Rhodnius prolixus has been considered the main vector, while Triatoma maculata remains to be a secondary vector of Trypanosoma cruzi in the Venezuelan rural habitat. In this work, interesting information about the biochemical and immune (humoral and cellular) aspects of the hemolymph of R. prolixus and T. maculate, feeding on hen and rat, are presented. Methodology: Hemolymph was extracted from adult insects, maintained at 2729 °C with 50% of relative humidity and 8/16 (Light/Dark) hours, and fed on hen and rat. Hemocytes were observed by optical and transmission electron microscopy. Results: Biochemical parameters (glucose, lipids and proteins) varied in both species according to the food source. T. maculata presented higher levels of lysozyme lytic activity. Four hemocytes populations were observed by optical and transmission electron microscopy (prohemocytes, plasmocytes, granulocytes and oenocytes), exhibiting characteristics and measurements in accordance with previous literature related to the Triatominae subfamily. T maculata presented more prohemocytes and oenocytes than R. prolixus. Conclusions: On their hemolymph, R. prolixus and T. maculata are distinctly affected in their biochemical (glucose, lipids and proteins) and immune components, both humoral (lysozyme) and cellular (prohemocytes, oenocytes), depending on whether they were fed on hens or rats. Our results show that the food source affects the immune system of triatomines, and subsequently, their vectorial capacity may be compromised as well.
Subject(s)
Animals , Chagas Disease , Hemolymph , Triatominae , Diet , Hemocytes , Immune SystemABSTRACT
O gênero Biomphalaria possui espécies de grande relevância médica uma vez que atuam como hospedeiros intermediários naturais do parasita Schistosoma mansoni, causador da esquistossomose. Dentro desse gênero de moluscos, três espécies são tidas como hospedeiros naturais do parasita, Biomphalaria glabrata, B. straminea e B. tenagophila. O perfil de suscetibilidade à infecção por S. mansoni dentro do gênero é muito variado e muitas pesquisas buscam elucidar a dinâmica da relação parasita-hospedeiro intermediário na finalidade de criar novas medidas de controle da doença. Por isso, esse estudo tem como objetivo determinar o perfil bidimensional de proteínas que podem estar envolvidas na resposta imune contra o S. mansoni comparando duas espécies com diferentes perfis de susceptibilidade B. glabrata, B. straminea além de uma refratária ao S. mansoni, a B. straminea R3. Para isso, os caramujos de cada espécie foram divididos em dois grupos: Infectado, expostos aos miracídios do S. mansoni; e Controle, submetidos ao estresse do processo de infecção livre de miracídios. A hemolinfa foi retirada 24 horas após a exposição. Foi feito o extrato proteico total e determinada a concentração das proteínas totais para cada grupo investigado. As proteínas foram separadas por eletroforese bidimensional onde foi obtido o ponto isoelétrico e peso molecular de todos os spots nos géis...
The Biomphalaria has species of great medical relevance since that act as natural intermediate hosts of the parasite Schistosoma mansoni, which causes schistosomiasis. Within this kind of mollusks, three species are considered natural hosts of the parasite, Biomphalaria glabrata, B. stramineaand B. tenagophila. The profile of usceptibility to S. mansoni infection within the genre is very varied and many studies seek to elucidate the dynamics of host-parasite relationship intermediary in order to create new disease control easures. Therefore, this study aims to determine the two-dimensional profile of proteins that may be involved in the immune response against S. mansonicomparing two species with different susceptibility profiles B. glabrata, B. straminea and a refractory to S. mansoni, B. straminea R3. For that, the snails of each species were divided into two groups: Infected exposed to iracidia of S. mansoni; and control, subjected to stress the miracidia free infection process. The hemolymph was removed 24 hours after exposure. It was made the total protein extract and determined the concentration of total protein for each group investigated. Proteins were separated by two-dimensional electrophoresis was obtained where the isoelectric point and molecular weight of all the spots in the gels...
Subject(s)
Animals , Biomphalaria/immunology , Host-Parasite Interactions , Schistosoma mansoni/pathogenicity , Antigens, Helminth/analysis , Biomphalaria/parasitology , Case-Control Studies , Electrophoresis, Gel, Two-Dimensional/methods , Hemocytes , Hemolymph/cytology , ProteomicsABSTRACT
Background. The immune response of insects involves humoral factors and cellular elements known as hemocytes. There are different reports that explore the response of hemocytes to infections, but the effect that molting has on this response has not been explored so far. We hypothesized that there would be a change in the percentage of hemocytes as a response to the molting process. Objective. The aim of this work was to compare the hemogram (CBC), the formula, and the differential count of hemocytes in IV instar before molting and in V instar nymphs 24 hours after molting in two species: Rhodnius prolixus and Rhodnius robustus. Materials and methods. We assayed different staining methodologies including Giemsa, Alcian Blue pH 2.0, Alcian Blue pH 2.6, Gomori substrate, PAS (Schiff), Sudan Black and Papanicolau with positive controls for each one. In the Gomori staining, we observed lysosomes in the granulocytes and plasmatocytes, but the differentiation was better detected using Giemsa staining. Results. There were no statistically significant differences between the two species studied in plasmatocytes (p=0,053) or even in granulocytes (p=0,5). However, differences were significant in the prohemocytes (p=0,001) during the molting process in both Rhodnius prolixus and Rhodnius robustus. Conclusions. Significant differences in prohemocytes between nymphs of IV and V instar were detected. No significant differences in the amount of cells were observed between the two species and the two stages. These findings may be explained due to their role as precursor cell of prohemocytes.
Antecedentes. La respuesta inmune de los insectos involucra factores humorales y elementos celulares llamados hemocitos. Existen varios trabajos explorando la respuesta de los hemocitos frente a infecciones, pero no como respuesta al proceso de muda. Objetivo. Comparar el hemograma: la fórmula y el recuento diferencial de hemocitos de Rhodnius prolixus y Rhodnius robustus en ninfas de IV estadio antes de la muda y ninfas de V estadio 24 horas después de la muda. Materiales y métodos. Se ensayaron las coloraciones Giemsa, Alcian Blue pH 2.0, Alcian Blue pH 2.6, sustrato Gomori, PAS (Schiff), Sudán Negro, Papanicolau, con controles positivos para cada una. Con la coloración de Gomori se observaron lisosomas en los granulocitos y en plasmatocitos, pero la diferenciación se logró mejor con la coloración de Giemsa. Resultados. Los plasmatocitos fueron más abundantes en las ninfas de IV estadio de Rhodnius robustus y en las de V estadio de las dos especies, pero en las ninfas de V estadio de R. prolixus, el recuento de prohemocitos fue mayor; para los oenocitoides, esferulocitos y adipohemocitos el recuento no alcanzó al 1 %. En las dos especies no se encontraron diferencias estadísticamente significativas en plasmatocitos (p=0,05319), ni en granulocitos (p=0,5), entre las ninfas de IV y V estadio, pero fue significativa en prohemocitos (p=0,001). Conclusiones. Se detectaron diferencias significativas en prohemocitos entre las ninfas de IV y V estadio. No hubo un aumento significativo en el conteo de células en los diferentes estadios.
ABSTRACT
The mosquito midgut is the organ into which the blood meal passes and in which, within a peritrophic membrane secreted by the epithelium, the blood is retained during digestion and absorption. The mosquito midgut is lined with an actin filled microvilli that are exposed to the harsh environment of the gut lumen such as food particle abrasion, digestive hydrolases and attack by pathogens and parasites that are taken in by the blood meal. These microvilli are protected them these effects by the peritrophic matrix, the glycocalyx and the mucin proteins that line their epithelial surfaces. Immunization of BALB/c mice with AgMUC1/IL-12 cDNA has been shown to kill mosquitoes when fed on these mice. Mucin is one of the proteins produced in the mosquito midgut after a blood meal. The fine structure of the mosquito midgut epithelium interacting with immune factors such as antibodies or immune cells is of special significance for interpreting early events in the interaction between the mosquito midgut lining and the specific immune components present in the blood of AgMUC1/IL-12 cDNA immunized BALB/c mice. Following bright light microscopy, scanning electron and transmission electron microscopic observations of the features seen in mosquito midgut sections from An. gambiae mosquitoes fed on BALB/c mice immunized with AgMUC1/IL-12 cDNA, the most likely immune mechanisms responsible for mosquito killing could be cell mediated, most likely antibody dependent cellular cytotoxicity. Both necrotic and apoptotic processes that could be the cause of mosquito death were seen to take place in the cells lining the midgut epithelium.
El intestino medio es el órgano al cual pasa la sangre consumida por el mosquito y donde, mediante una membrana peritrófica secretada por el epitelio, esta sangre es mantenida durante la digestión y absorción. El intestino del mosquito está revestido por microvellosidades llenas de actina que son expuestas a las complejas condiciones en torno a la luz intestinal, tales como la abrasión producida por partículas de alimentos, hidrolasas digestivas y el ataque de patógenos y parásitos que son tomados en la sangre consumida. Estas microvellosidades se protegen de estos efectos mediante la matriz peritrófica, el glicocálix y las proteínas de mucina que revisten las superficies epiteliales. La inmunización con AgMUC1/IL-12 ADNc en ratones BALB/c ha demostrado ser útil para matar los mosquitos cuando se alimentan de estos ratones. La mucina es una de las proteínas producidas en el intestino medio del mosquito después de consumir sangre. La fina estructura del epitelio del intestino interactúa con factores inmunes tales como anticuerpos o células inmunes es de especial importancia para interpretar los eventos tempranos en la interacción entre el revestimiento del intestino medio y los componentes inmunológicos específicos presentes en la sangre de ratones BALB/c inmunizados con AgMUC1/IL-12 cDNA. Después de observar mediante microscopías de luz, electrónica de barrido y de transmisión las características de secciones del intestino medio del mosquito Anopheles gambiae alimentado de ratones BALB/c inmunizados con AgMUC1/IL-12 cDNA, mecanismos inmunes mediados por citotoxicidad celular dependiente de anticuerpos (ADCC) podrían ser los responsables de matar a los mosquitos. Los procesos necróticos y apoptóticos que pueden ser la causa de la muerte del mosquito tienen lugar en las células que recubren el epitelio del intestino medio.
Subject(s)
Animals , Mice , Gastrointestinal Tract/immunology , Gastrointestinal Tract/pathology , Epithelium/immunology , Epithelium/pathology , Culicidae , Interleukin-12 , Mucin-1 , Digestion , Anopheles , Mice, Inbred BALB C , Microscopy/methodsABSTRACT
Sundarbans biosphere reserve is an ecologically important area of West Bengal, which supports a wide variety of estuarine species including Scylla serrata estuarine mudcrab of economic value. In this present study, activity of phosphatases (acid and alkaline) of hemocytes was estimated under the sublethal exposure of arsenic in controlled static water environment for 1, 2, 3, 4, 7 and 15 days of exposure. Exposure to 3 ppm of sodium arsenite for 15 days, resulted a maximum inhibition of activity of acid phosphatase (ACP) as 0.016 .M mg-1 protein min-1 with intermediate activity in different spans of exposure against the control value of 1.83 .M mg-1 protein min-1. Similar mode of maximum inhibition of activity of alkaline phosphatase (ALP) was recorded as 0.008 .M mg-1 protein min-1, when the crabs were exposed to 3 ppm of sodium arsenite for 15 days against the control value of 0.694 .M mg-1 protein min-1. Exposure to 1 ppm of sodium arsenite caused inhibition of activity of ACP which ranged from 1.76 to 0.70 .M mg-1 protein min-1. For 2 and 3 ppm of exposure activity of ACP ranged from 1.12 to 0.42 and 0.67 to 0.016 .M mg-1 protein min-1 respectively. For the activity of ALP exposure to 2 and 3 ppm of sodium arsenite yielded an inhibition of activity which ranged from 0.472 to 0.279 and 0.275 to 0.008 .M mg-1 protein min-1 respectively. Arsenic exposure resulted a dose dependent decrease in the activities of both of the phosphatases and may be considered as a suitable biomarker of aquatic pollution in Sundarbans mangrove.
ABSTRACT
The hemocyte types, in addition to total and differential hemocyte counts were studied in parasitized and unparasitized Anastrepha obliqua larvae at the beginning and at the end of the third instar. In both developmental phases, in parasitized and unparasitized larvae, prohemocytes, plasmatocytes, granulocytes, adipohemocytes, spherulocytes and oenocytoids cells were observed. Mitotic figures indicate prohemocytes as stem cells. Prohemocytes, plasmatocytes and granulocytes are the most numerous cells in the hemolymph of A. obliqua. Difference in the total number of hemocytes was observed between unparasitized and parasitized larvae at the end of the third instar, but not at the beginning.
Os tipos de hemócitos e as contagens total e diferencial foram estudados em larvas parasitadas e não parasitadas de Anastrepha obliqua pertencentes ao início e ao final da terceira fase. Em ambas as fases do desenvolvimento, tanto em larvas parasitadas quanto nas não parasitadas, foram observados pró-hemócitos, plasmatócitos, granulócitos, adipo-hemócitos, esferulócitos e oenocitóides. A presença de divisões mitóticas indica os pró-hemócitos como células-tronco. Pró-hemócitos, plasmatócitos e granulócitos são as células mais numerosas na hemolinfa de A. obliqua. Foi observada diferença no número total de hemócitos entre larvas parasitadas e não parasitadas apenas no final da terceira fase.