Superb bio-effectiveness of Cobalt (II) phthalocyanine and Ag NPs adorned Sm-doped ZnO nanorods/cuttlefish bone to annihilate Trichinella spiralis muscle larvae and adult worms: In-vitro evaluation.

Herein, innovative biocides are designed for the treatment of Trichinella spiralis muscle larvae (ML) and adult worms. Samarium-doped ZnO nanorods (Sm-doped ZnO) are stabilized onto the laminar structure of cuttlefish bone (CB) matrix and adorned by either Ag NPs or cobalt phthalocyanine (CoPc) species. Physicochemical characteristics of such nanocomposites are scrutinised. Adorning of Sm-doped ZnO/CB with Ag NPs shortens rod-like shaped Sm-doped ZnO nanoparticles and accrues them, developing large-sized detached patches over CB moiety. Meanwhile, adorning of Sm-doped ZnO/CB by CoPc species degenerates CB lamellae forming semi-rounded platelets and encourages invading of Sm-doped ZnO nanorods deeply inside gallery spacings of CB. Both nanocomposites possess advanced parasiticidal activity, displaying quite intoxication for ML and adult worms (≥88% mortality) within an incubation period of <48 h at concentrations around 200 µg/ml. CoPc@Sm-doped ZnO/CB nanocomposite exhibits faster killing efficiency of adult worms than that of Ag@Sm-doped ZnO/CB at a concentration of ∼75 µg/ml showing entire destruction of parasite after 24 h incubation with the former nanocomposite and just 60% worm mortality after 36 h exposure to the later one. Morphological studies of the treated ML and adult worms show that CoPc@Sm-doped ZnO/CB exhibits a destructive impact on the parasite body, creating featureless and sloughed fragments enriched with intensive vacuoles. Hybridization of cuttlefish bone lamellae by CoPc species is considered a springboard for fabrication of futuristic aggressive drugs against various food- and water-borne parasites.

A secreted MIF homologue from Trichinella spiralis binds to and interacts with host monocytes.

Trichinella spiralis is a very successful parasite capable of surviving in many mammal hosts and residing in muscle tissues for long periods, indicating that it must have some effective strategies to escape from or guard against the host immune attack. The functions of MIF have been studied in other parasites and demonstrated to function as a virulence factor aiding in their survival by modulating the host immune response. However, the functions of Trichinella spiralis MIF (TsMIF) have not been addressed. Here, we successfully obtained the purified recombinant TsMIF and anti-TsMIF serum. Our results showed that TsMIF was expressed in all the Trichinella spiralis developmental stages, especially highly expressed in the muscle larvae (ML) and mainly located in stichocytes, midgut, cuticle, muscle cells of ML and around intrauterine embryos of female adults. We also observed TsMIF could be secreted from ML and bind to host monocytes. Next, our data demonstrated that TsMIF not only stimulated the phosphorylation of ERK1/2 and cell proliferation by binding to the host cell surface receptor CD74, but also interacted with a host intracellular protein, Jab1, which is a coactivator of AP-1 transcription. We concluded the secreted TsMIF plays an important role in the interaction between Trichinella spiralis and its host and could be a potential drug or vaccine target molecule against Trichinella spiralis infection.

Serological testing for Trichinella infection in animals and man: Current status and opportunities for advancements.

Serological tests are widely used for the detection of Trichinella spp. infections in animals and humans. Despite some limitations, (such as low sensitivity in the early period after infection) ELISA and western blot testing have demonstrated good performance when excretory/secretory products from muscle larvae are used as antigens in agreement with the International Commission on Trichinellosis. Over recent decades, considerable progress has been made in the characterization of Trichinella-derived molecules in the hope of improving diagnosis, mainly during the early days post infection. Despite these efforts, validated tests using characterized antigens for early diagnosis are still not available. However, combining currently available sero-diagnostic tools with clinical and epidemiological data provides valuable information on Trichinella infections in humans and animals as shown in this review.

Bevacizumab: A new take on therapy of muscle phase of Trichinella spiralis infection.

Trichinellosis is a zoonosis that causes health and economic problems worldwide. The available therapy is far from perfect as the conventional drugs used against Trichinella spiralis (T. spiralis) are active against the intestinal adult parasites but much less active against encapsulated larvae in muscles. Therefore, this work aimed to evaluate the effect of the anti-angiogenic agent, bevacizumab, on the muscle larvae of T. spiralis. For this aim, T. spiralis-infected mice were treated by two different doses of bevacizumab, thereafter larval counts as well as biochemical and pathological changes were evaluated in the muscles. The larval burden was reduced in the muscles of treated mice, denoting a detrimental effect of bevacizumab against encapsulated Trichinella larvae. Moreover, there was marked improvement of muscle inflammation with the treatment, evidenced by reduction of the proinflammatory cytokines (IL-6 and TNF-α) and regression of the inflammatory infiltrates in histological sections. Amelioration of oxidative stress in the muscle was also observed in treated animals with reduction of malondialdehyde and carbonic anhydrase III and increase in superoxide dismutase levels. Finally, the treatment induced downregulation of the expression of VEGF and CD31, denoting suppressed angiogenesis. All these beneficial effects were found to be dose dependent. In conclusion, bevacizumab exhibited anthelmintic, anti-inflammatory, antioxidant, and anti-angiogenic activities against Trichinella during the muscular phase of infection. Therefore, bevacizumab could be considered as a useful adjuvant treatment in the late stages of trichinellosis.

Molecular identification of a PGRMC-2 receptor in maturing oocytes of the zoonotic nematode parasite Trichinella spiralis.

We previously reported that the Trichinella nematode showed higher parasite loads in one gender than another, but also the parasite molting rate decreased when it was cultivated in the presence of progesterone. In this study we explored the hypothesis that the direct effect of progesterone on Trichinella spiralis could be mediated by a steroid-binding parasite protein. We sequenced, cloned and amplified the Cyt-domain of the progesterone receptor membrane component-2 of Trichinella spiralis (PGRMC2-Ts). Furthermore, we expressed the protein and developed an antibody to perform confocal microscopy and flow cytometry. The expression of the PGRMC2-Ts protein was exclusively detected at the oocyte and the parasite's cuticle in cross-sections of the parasite, and this expression was confirmed by western blot and flow cytometry. Molecular modeling studies and computer docking for the PGRMC2-Ts protein showed that it is potentially able to bind to progesterone, estradiol, testosterone, and dihydrotestosterone with different affinities. Furthermore, phylogenetic analysis demonstrated that T. spiralis PGRMC2 is related to a steroid-binding protein of another platyhelminth. Progesterone probably acts upon Trichinella spiralis oocytes by binding to PGRMC2-Ts. Our data showed that the PGRMC2-Ts protein is present in the parasite's oocytes, a development step that is crucial for the life cycle of the parasite. Indeed, this research might have implications in the field of host-parasite co-evolution and the sex-associated susceptibility to this infection. In a more practical matter, these results may contribute to the design of new drugs with anti-parasite effects.

Study of Trichinella patagoniensis in wild boars.

Trichinellosis is a zoonotic disease, which represents a significant public health concern in some South American countries, such as Argentina and Chile. Its impact is essentially due to absence of adequate control measures on meat from game animals, as well as the presence of illegal slaughterhouses and the trade of meat products without being tested for this parasite. In Argentina, trichinellosis is an endemic disease. At present, Trichinella spiralis, Trichinella patagoniensis, Trichinella pseudospiralis, and Trichinella britovi have been detected in animals from Argentina. Until now, T. patagoniensis had only been found in mountain cougars (Puma concolor) in Argentina but there is limited information available. The present study intends to determine susceptibility, serological response and distribution of muscle larvae in wild boars infected with T. patagoniensis, T. spiralis and T. pseudospiralis. For each of the Trichinella species five wild boars were inoculated with 20,000 muscle larvae. Except for two specimens which died during the experiment, the animals were euthanized 19 weeks post infection (pi). Blood samples were collected throughout the study in order to determine the antibody kinetics. Also, nine muscle samples from each specimen were taken and analysed for determination of larval distribution. Additionally, four muscle samples were used to obtain muscle juices. Wild boars infected with T. patagoniensis showed little to no larvae in the muscle samples analysed while animals infected with T. spiralis and T. pseudospiralis had a significantly high larval load in all the samples analysed. Optical density (OD) values remained above the cut-off value throughout the experiment. This is the first study to characterize the biological aspects of T. patagoniensis in wild boars.

Comparative analysis of excretory-secretory products of muscle larvae of three isolates of Trichinella pseudospiralis by the iTRAQ method.

Trichinella pseudospiralis is a non-encapsulated intracellular parasitic nematode that can possess a strong ability to modulate the host immune response. Here, we compared the differentially expressed proteins of excretory-secretory (ES) products in three isolates of T. pseudospiralis muscle larvae (ML) [from Russia (RUS), United States of America (USA) and Australia (AUS)] using isobaric tags for relative and absolute quantification (iTRAQ)-based technology. A total of 2591 nonredundant proteins were identified, of which 65 (146), 72 (98) and 43 (103) significantly upregulated (downregulated) differentially expressed proteins were detected among pairwise comparisons (T4RUS vs T4USA, T4AUS vs T4USA and T4RUS vs T4AUS). In addition, GO annotation, KEGG and STRING analyses were carried out on the screened differentially altered proteins. The main biological processes involved included carbohydrate metabolic processes, DNA metabolic processes, cellular protein modification processes and homeostatic processes. The majority of KEGG pathways were found to be related to the metabolic pathways, lysosome pathway and protein processing in endoplasmic reticulum. Moreover, all ES protein expression levels involved in the lysosome pathway were significantly higher in the T4USA isolate than in the other two isolates. We also found differences in the expression of some important immunoregulatory proteins, such as protein disulfide-isomerase, thioredoxin protein and deoxyribonuclease-2-alpha, between different isolates of T. pseudospiralis ML. Flow cytometry was used to detect the increase in the CD4+/CD8 + T-cell ratio in pig peripheral blood and to verify the effect of T. pseudospiralis on the Th1/Th2 polarization of the host. Quantitative real-time PCR analysis also confirmed that the changes in the transcriptional level of genes were consistent with those at the proteomic level. These findings reveal the possible role of significantly differentially expressed proteins in ES products of the different isolates of T. pseudospiralis in antagonizing and participating in the regulation of the host immune response and maintaining a stable growth environment.

Trichinella spiralis - New method for sample preparation and objective detection of specific antigens using a chemiluminescence immunoassay.

The parasitic roundworm Trichinella spiralis is most commonly transmitted to humans through consumption of raw or undercooked meat of infected pigs or game. To prevent human infection, slaughterhouses perform meat safety surveillance using the gold standard "Magnetic Stirrer Method". We introduce a fast and objective method using automated detection of specific Trichinella spiralis antigens by a newly developed immunoassay based on chemiluminescence (ChLIA). Panel A comprised muscle tissue samples from non-infected pigs (n = 37). Panel B comprised muscle tissue samples from non-infected pigs spiked with different amounts of Trichinella larvae without collagen capsules (n = 56). Panel C contained muscle tissue samples from experimentally infected pigs including Trichinella larvae encapsulated in collagen (n = 32). Each sample was shredded with PBS buffer in a knife mill, destroying Trichinella larvae. Following centrifugation, the supernatant (muscle tissue extract containing released excretory and secretory Trichinella spiralis antigens) was used for Trichinella-specific antigen detection by the new Trichinella ChLIA. The overall accuracy of the Trichinella ChLIA was 97.6 %. The specificity of the Trichinella ChLIA was 100 % (panel A). The sensitivity in samples from experimentally infected pigs was 100 % representing a detection limit of 0.01 larvae per gram. Cross-reactivity with parasites other than Trichinella spp. was not observed. This new meat inspection method for the detection of Trichinella spiralis antigens presents high specificity and high sensitivity, especially in truly infected samples. In contrast to the gold standard, this new approach to meat safety surveillance does not require longsome digestion or microscopy by trained personnel.

Trichinella spiralis y Trichinella patagoniensis: cinética de desialización eritrocitaria / Trichinella spiralis and Trichinella patagoniensis: kinetics of erythrocyte desialization / Trichinella spiralis e Trichinella patagoniensis: cinética de dessialização eritrocitária

El objetivo del trabajo fue estudiar la cinética de desialización eritrocitaria producida por larvas infectantes de Trichinella spiralis y Trichinella patagoniensis. Se trabajó con 7 suspensiones eritrocitarias incubadas con 1.000±200 larvas musculares/mL, durante 2 horas, tomando muestra al tiempo inicial y cada 15 minutos. Los respectivos eritrocitos controles se incubaron de la misma manera con solución salina. Se aplicaron el método de titulación por Polibrene calculando el CexpST y un análisis de varianza (ANOVA) con las comparaciones múltiples según Tukey. Los resultados mostraron que el valor promedio de CexpST disminuyó con el aumento del tiempo de incubación, para ambas especies. En el tratamiento con T. spiralis no hubo diferencias significativas entre el valor medio del coeficiente a tiempo 60 y 75 minutos, mientras que con T. patagoniensis, a 45 y 60 minutos. Todas las restantes diferencias fueron significativas. La comparación entre los tratamientos, para cada uno de los tiempos, mostró que al tiempo inicial el coeficiente promedio no difirió entre las especies, pero que a todos los otros tiempos fue significativamente menor en la incubación de los eritrocitos con T. spiralis. Se concluye que la relación hospedador-parásito que se establece en ambos casos es distinta y probablemente también la capacidad de adaptación y de daño al hombre.

The objective of this work was to study the kinetics of erythrocyte desialization produced by infective larvae of Trichinella spiralis and Trichinella patagoniensis. It was performed on 7 erythrocyte suspensions incubated with 1,000±200 muscle larvae/ mL for 120 minutes, taking samples at the initial time and every 15 minutes. The respective control erythrocytes were incubated in the same way with saline solution. The Polybrene Titration method calculating the CexpST and variance analysis (ANOVA) with the multiple comparisons according to Tukey were applied. The results showed that the average value of CexpST decreased with the increase in incubation time, for both species. There were no significant differences between the mean value of the coefficient at 60 and 75 minutes in the treatment with T. spiralis, while neither were there any differences between 45 and 60 minutes in the incubation with T. patagoniensis. All other differences were significant. The comparison between the two treatments, for each of the times, showed that at the initial time the average coefficient did not differ between the species, but at all other times it was significantly lower in the incubation of the erythrocytes with T. spiralis. It is concluded that the parasite host relationship that is established in both cases is different and probably also is the ability to adapt and cause harm to man.

O objetivo do trabalho foi estudar a cinética de dessialização eritrocitária. produzida por larvas infectantes de Trichinella spiralis e Trichinella patagoniensis. O trabalho foi feito com 7 suspensões eritrocitárias incubadas com 1.000±200 larvas musculares/mL por 2 horas, colhendo amostras no tempo inicial e a cada 15 minutos. Os respectivos eritrócitos-controle foram incubados da mesma forma com solução salina. Foi aplicado o método de titulação por Polibreno calculando o CexpST e também uma análise da variância (ANOVA) com as comparações múltiplas de acordo com Tukey. Os resultados mostraram que o valor médio de CexpST diminuiu com o aumento do tempo de incubação para ambas as espécies. No tratamento com T. spiralis não houve diferenças significativas entre o valor médio do coeficiente no tempo 60 e 75 minutos, ao passo que com T. patagoniensis, aos 45 e 60 minutos. Todas as diferenças restantes foram significativas. A comparação entre os tratamentos, para cada um dos tempos, mostrou que no tempo inicial o coeficiente médio não diferiu entre as espécies, mas que em todos os outros tempos foi significativamente menor na incubação dos eritrócitos com T. spiralis. A conclusão é que a relação hospedeiro-parasita, estabelecida em ambos os casos, é diferente e provavelmente também a capacidade de adaptação e dano ao homem.

Chemokine, cytokine and haematological profiles in Sprague-Dawley rats co-infected with Plasmodium berghei ANKA and Trichinella zimbabwensis-A laboratory animal model for malaria and tissue-dwelling nematodes co-infection.

Malaria remains a major cause of mortality and morbidity in sub-Saharan Africa (SSA) and tissue-dwelling helminth parasites (TDHPs) are also prevalent in this region presenting a geographical overlap in endemicity. There is paucity of information on the specific host immune responses elicited at different phases of the life cycle by the co-infecting helminth parasites. This study aimed at using a laboratory animal model to determine selected chemokine, cytokine and hematological profiles in Sprague-Dawley rats co-infected with Plasmodium berghei ANKA (Pb) and a tissue-dwelling nematode, Trichinella zimbabwensis (Tz). One-hundred-and-sixty-eight male Sprague-Dawley rats (90-150g) were randomly divided into four experimental groups; Control (n = 42), Pb-infected (n = 42), Tz-infected (n = 42) and Pb + Tz-infected group (n = 42). Trichinella zimbabwensis infection (3 muscle larvae/g body weight per os) was done on day 0 while intra-peritoneal Pb infection (105 parasitised RBCs) was done at day 28 of the 42-day experimental study for the co-infection group which corresponded with day 0 of the Pb group on the protocol. Haematological parameters, cytokines (TNF-α, IL-10, IL-4, IL-6), chemokines (CXCL10, CCL5, CCL11) and burden of Tz adult worms and muscle larvae burden were determined as per need for each group. Results showed that Tz infection predisposed the co-infected animals towards rapid development of Pb parasitaemia during co-infection, reaching a higher peak percentage parasitaemia at day 7 post-infection than the Pb mono-infected group at day 6 post-infection. Animals in the co-infected group also exhibited severe anaemia, basophilia, neutrophilia, eosinophilia and lymphopenia at day 7 post Pb infection compared to the control groups. Significant elevation of Pb parasitaemia coincided with elevated pro-inflammatory cytokine TNF-α (P < 0.001), regulatory anti-inflammatory IL-10 (P < 0.001), and pro-inflammatory chemokines CXCL10 (P < 0.001) concentration in comparison to control group, at day 7 post Pb infection. Our results confirm that co-infection of Pb with Tz resulted in increased Pb parasitaemia compared to the control group in the early stages of infection and this might translate to severe malaria.

Trichinella spiralis - New method for sample preparation and objective detection of specific antigens using a chemiluminescence immunoassay.

The parasitic roundworm Trichinella spiralis is most commonly transmitted to humans through consumption of raw or undercooked meat of infected pigs or game. To prevent human infection, slaughterhouses perform meat safety surveillance using the gold standard "Magnetic Stirrer Method". We introduce a fast and objective method using automated detection of specific Trichinella spiralis antigens by a newly developed immunoassay based on chemiluminescence (ChLIA). Panel A comprised muscle tissue samples from non-infected pigs (n=37). Panel B comprised muscle tissue samples from non-infected pigs spiked with different amounts of Trichinella larvae without collagen capsules (n=56). Panel C contained muscle tissue samples from experimentally infected pigs including Trichinella larvae encapsulated in collagen (n=32). Each sample was shredded with PBS buffer in a knife mill, destroying Trichinella larvae. Following centrifugation, the supernatant (muscle tissue extract containing released excretory and secretory Trichinella spiralis antigens) was used for Trichinella-specific antigen detection by the new Trichinella ChLIA. The overall accuracy of the Trichinella ChLIA was 97.6 %. The specificity of the Trichinella ChLIA was 100 % (panel A). The sensitivity in samples from experimentally infected pigs was 100 % representing a detection limit of 0.01 larvae per gram. Cross-reactivity with parasites other than Trichinella spp. was not observed. This new meat inspection method for the detection of Trichinella spiralis antigens presents high specificity and high sensitivity, especially in truly infected samples. In contrast to the gold standard, this new approach to meat safety surveillance does not require longsome digestion or microscopy by trained personnel.

Trichinella spiralis muscle larvae release extracellular vesicles with immunomodulatory properties.

AIMS: Extracellular vesicles (EVs) represent a newly discovered but universal communication tool between cells or organisms. However, few data exist on nematode EVs and none for Trichinella spiralis. Here, we aimed to investigate whether T spiralis muscle larvae produce EVs, whether they carry immunomodulatory proteins and whether they have a role in immunomodulation as a component of excretory-secretory muscle larvae products (ES L1). METHODS AND RESULTS: EVs were enriched from conditioned medium of T spiralis muscle larvae. Transmission electron microscopy images showed T spiralis EVs to be 30-80 nm in size, and Western blot confirmed the presence of two out of three glycoproteins with the immunodominant epitope characteristic for muscle larvae of the genus Trichinella. Using a peripheral blood mononuclear cell (PBMC) stimulation assay, it was shown that these EVs elevated production of IL10 and IL6. CONCLUSION: T spiralis muscle larvae produce EVs. Those EVs carry immunomodulatory proteins and have the capacity independently to induce regulatory responses in the same way as the T spiralis excretory-secretory muscle larvae products from which they were isolated.

Dendritic cells treated by Trichinella spiralis muscle larval excretory/secretory products alleviate TNBS-induced colitis in mice.

BACKGROUND: Therapeutic potential of helminth have been shown to have a protective effect on immune-mediated diseases such as Crohn's disease (CD), which is associated with increased production of T helper cell type 1. However, helminth therapy is unacceptable to patients due to side-effects and the fear of parasites. As helminths regulate the cellular immune responses through innate cells such as dendritic cells (DCs), cellular immunotherapy has been considered a therapeutic option to treat CD. METHODS: Bone marrow-dendritic cells were generated, enriched and treated with Trichinella spiralis muscle larval excretory/secretory products (Ts-MLES). DCs maturation was measured by flow cytometry and cytokine production of DCs were measured by ELISA. Colitis was generated by intrarectal administration of 2,4,6-trinitrobenzene sulfonic acid (TNBS) solution. For adoptive transfer, Ts-MLES treated-DCs injected intravenously 24 h prior to TNBS challenge. Disease activity index (DAI) including weight loss, diarrhea, and bloody stool were measured. Colon segments were stained with hematoxylin and eosin (H.E.) and periodic acid schiff (PAS) staining for histological damage scoring. The relative mRNA expression of cytokines in colon was analyzed by RT-PCR. Cytokine production in colon was measured by ELISA. Splenocytes were separated and cytokine profiles including Th1 (IFN-γ), Th2 (IL-4, IL-13), and Treg subsets (IL-10, TGF-ß) were analyzed by flow cytometry. RESULTS: Ts-MLES regulated the maturation and cytokine production of DCs. Ts-MLES -DC ameliorated the severity of the TNBS-induced colitis. In the colon and the spleen, Ts-MLES-DC decreased IFN-γ (Th1) significantly and increased Th2 (IL-4, IL-13)- and Treg (IL-10, TGF-ß)- related cytokines. CONCLUSIONS: Ts-MLES-DC ameliorated the severity of the TNBS-induced colitis through decreasing IFN-γ. Ts-MLES-DC skewed the Th1-mediated response toward the Th2 type and regulatory T cell response.

Alterations of the erythrocyte membrane by in vitro action of Trichinella spiralis muscle larvae.

The complex life cycle of Trichinella spiralis includes the migration of newborn larvae through the bloodstream to their encystment in muscle. The parasite establishes an intimate contact with the erythrocytes of the host both during the migration of the newborn larvae and when encysting, as this parasite causes intense vascularization in the muscle cell. The goal of this work was to study the effects of various concentrations of T. spiralis muscle larvae (ML) on erythrocyte membranes. The treatment was performed by incubating human erythrocytes with equal volume of different concentrations of ML for 30 minutes, with controlled agitation (37°C). The control erythrocytes (with no contact with the larvae) were incubated in the same way with an equal volume of physiological solution. To evaluate the alterations to the erythrocytes by the action of the larvae and in the respective controls, an Erythrocyte Rheometer and a Digital Image Analysis technique were used. The results indicated that when the larval concentration was higher, the aggregation and erythrocyte membrane alterations were also higher. Also, the erythrocyte deformability index and the erythrocyte elasticity increased. The values of isolated cell coefficient varied from 0.51 in the treatment with 100 larvae/ml to 0.91 in the incubation with 1000 larvae/ml. This experiment shows that T. spiralis muscle larvae affect significantly the red blood cell aggregation and the erythrocyte viscoelastic properties.

Trichinella britovi muscle larvae and adult worms: stage-specific and common antigens detected by two-dimensional gel electrophoresis-based immunoblotting.

BACKGROUND: Trichinella britovi is the second most common species of Trichinella that may affect human health. As an early diagnosis of trichinellosis is crucial for effective treatment, it is important to identify sensitive, specific and common antigens of adult T. britovi worms and muscle larvae. The present study was undertaken to uncover the stage-specific and common proteins of T. britovi that may be used in specific diagnostics. METHODS: Somatic extracts obtained from two developmental stages, muscle larvae (ML) and adult worms (Ad), were separated using two-dimensional gel electrophoresis (2-DE) coupled with immunoblot analysis. The positively-visualized protein spots specific for each stage were identified through liquid chromatography-tandem mass spectrometry (LC-LC/MS). RESULTS: A total of 272 spots were detected in the proteome of T. britovi adult worms (Ad) and 261 in the muscle larvae (ML). The somatic extracts from Ad and ML were specifically recognized by T. britovi-infected swine sera at 10 days post infection (dpi) and 60 dpi, with a total of 70 prominent protein spots. According to immunoblotting patterns and LC-MS/MS results, the immunogenic spots recognized by different pig T. britovi-infected sera were divided into three groups for the two developmental stages: adult stage-specific proteins, muscle larvae stage-specific proteins, and proteins common to both stages. Forty-five Ad proteins (29 Ad-specific and 16 common) and thirteen ML proteins (nine ML-specific and four common) cross-reacted with sera at 10 dpi. Many of the proteins identified in Ad (myosin-4, myosin light chain kinase, paramyosin, intermediate filament protein B, actin-depolymerizing factor 1 and calreticulin) are involved in structural and motor activity. Among the most abundant proteins identified in ML were 14-3-3 protein zeta, actin-5C, ATP synthase subunit d, deoxyribonuclease-2-alpha, poly-cysteine and histide-tailed protein, enolase, V-type proton ATPase catalytic and serine protease 30. Heat-shock protein, intermediate filament protein ifa-1 and intermediate filament protein B were identified in both proteomes. CONCLUSIONS: To our knowledge, this study represents the first immunoproteomic identification of the antigenic proteins of adult worms and muscle larvae of T. britovi. Our results provide a valuable basis for the development of diagnostic methods. The identification of common components for the two developmental stages of T. britovi may be useful in the preparation of parasitic antigens in recombinant forms for diagnostic use.

Immuno-proteomic analysis of Trichinella spiralis, T. pseudospiralis, and T. papuae extracts recognized by human T. spiralis-infected sera.

The present study explored potentially immunogenic proteins of the encapsulated (Trichinella spiralis) and non-encapsulated (T. pseudospiralis, T. papuae) species within the genus Trichinella. The somatic muscle larval extracts of each species were subjected to immunoblotting analysis using human T. spiralis-infected serum samples. Fifteen reactive bands of all three species were selected for further protein identification by liquid chromatography-tandem mass spectrometry, and their possible functions were ascertained using the gene ontology. Our findings showed immunogenic protein patterns with molecular mass in the range of 33-67 kDa. Proteomic and bioinformatic analysis revealed a wide variety of functions of 17 identified proteins, which are associated with catalytic, binding, and structural activities. Most proteins were involved in cellular and metabolic processes that contribute in the invasion of host tissues and the larval molting processes. The parasite proteins were identified as actin-5C, serine protease, deoxyribonuclease-2, and intermediate filament protein ifa-1. This information may lead to alternative tools for selection of potential diagnostic protein markers or aid in the design of vaccine candidates for prevention and control of Trichinella infection.

Effect of the somatic proteins from Trichinella spiralis muscle larvae on apoptosis of H446 small cell lung cancer cells / 中国人兽共患病学报

To probe the effects of Trichinella spiralis muscle larval somatic proteins on small cell lung cancer H446 cells and the possible mechanism of anti-tumor,H446 cells were culture with 0.2 mg/mL,0.4 mg/mL,0.6 mg/mL,0.8 mg/mL,1.0 mg/mL,and 1.2 mg/mL somatic proteins respectively.The experimental group was set and no dosing as control group.MTT colorimetric assay was used to test the effects of T.spiralis muscle larval somatic proteins on the proliferative activity of H446 cells.We used flow cytometry (FCM) to test the influence of T.spiralis muscle larval somatic proteins induced H446 cells apoptosis.The real-time PCR and Western blot methods were used to detect the expression of Cyt-C and apoptotic protease activating factor 1(Apaf-1) mRNA and protein.The MTT colorimetric assay showed that T.spiralis muscle larval somatic proteins could inhibit the proliferation of H446 cells;the flow cytometry showed that polypide proteins acted on H446 cells after 24 h appeared an obvious effect on promoting apoptosis.Results of real-time PCR and Western blot analysis indicated that compared with the control group,Cyt-C and Apaf-1 showed up-regulated expression.T.spiralis muscle larval somatic proteins could inhibit proliferation activity and induce the apoptosis of H446 cells,and its effects may be related to up-regulated expression of Cyt-C and Apaf-1.

Análisis proteómico de los productos de excreción-secreción de cuatro aislados de Trichinella spiralis obtenidos de hospederos accidentales / Proteomic analysis of the excretion-secretion products of four Trichinella spiralis isolates obtained from accidental hosts

Resumen: Introducción: Trichinella spiralis es un nemátodo tisular que se aloja en el músculo esquelético de humanos y otros mamíferos y causa una serie de alteraciones fisiológicas. Las proteínas de los productos de excreción-secreción de T. spiralis juegan un papel importante en la aparición y regulación de estas alteraciones. Sin embargo, aún no se conoce el efecto de estos productos en la infección e invasión del parásito al hospedero. Métodos: Mediante un análisis electroforético en una dimensión, Western blot y espectrometría de masas, se evaluaron las diferencias y similitudes entre proteínas antigénicas y de superficie de cuatro aislados de T. spiralis obtenidos de hospederos accidentales (perros) y la cepa de referencia aislada de cerdos (MSUS/MEX/91/CM). Resultados: Utilizando ontología de genes, se encontraron cinco proteínas exclusivas de los hospederos accidentales. Después del análisis, se encontró que estas proteínas forman parte de la matriz extracelular del parásito, cuentan con actividad catalítica y están implicadas en la adhesión a las células del hospedero. La actividad antigénica de las cuatro cepas aisladas de hospederos accidentales es idéntica a la reportada para T. spiralis, visualizándose el triplete antigénico característico de 43, 45 y 47 kDa. Conclusiones: Las proteínas exclusivas de los hospederos accidentales proveen información para entender el mecanismo de acción de este parásito para penetrar el músculo y evadir la respuesta inmune en el hospedero.

Abstract: Background: Trichinella spiralis is an intestinal and tissue nematode specific for mammalian skeletal muscle, causing a series of physiological alterations. T. spiralis excretory-secretion products play an important role in the appearance and regulation of these alterations. However, the effect of these products on the infection and invasion of the parasite to the host is unknown. Methods: Differences and similarities between antigenic proteins and surface proteins of four accidental hosts isolates (dogs) of T. spiralis and the reference strain isolated from pigs (MSUS/MEX/91/CM) were assessed by electrophoresis, western blot and mass spectrometry. Results: Using gene ontology, five proteins exclusive to the accidental hosts were analyzed. The results showed that these proteins are part of the extracellular matrix of the parasite, present catalytic activity, and bind to host cells. The antigenic activity the four strains showed the antigenic triplet characteristic of T. spiralis of 43, 45 and 47 kDa. Conclusions: Five proteins exclusive to dog isolates provided information to understand the mechanism of action of this parasite to penetrate the muscle and evade the immune response in the host.

Cinética de desialización eritrocitaria producida por larvas musculares vivas de Trichinella spiralis / Erythrocyte desialylation kinetics produced by living Trichinella spiralis muscle larvae / Cinética de dessialização eritrocitária causada por larvas musculares vivas da Trichinella spiralis

Las larvas musculares (LM) de T. spiralis alteran la agregación eritrocitaria. El objetivo del trabajo fue estudiar la cinética de desialización eritrocitaria producida por LM vivas de T. spiralis. Se realizaron 3 experiencias en las que se incubaron 60 larvas con 30 μL de eritrocitos en 1 mL de solución salina durante 1, 2, 3, 4, 5, 6, 7, 10, 15, 18, 20, 22 y 24 horas. Se aplicó el Método de Titulación de la Agregación por Polibrene y se calculó Título, Score Total y CexpCASP en los eritrocitos Control e incubados con LM. Los resultados mostraron que en la primera hora no hubo captación de ácido siálico. A las 2 horas el coeficiente comenzó a decrecer y a las 3 horas el Título disminuyó en una dilución y el coeficiente fue 0,62±0,021. En los siguientes tiempos el Título se mantuvo y el valor del coeficiente presentó pequeñas disminuciones, hasta alcanzar el valor de 0,45±0,010 a las 22 horas, tiempo en que se produjo la disminución significativa del Título. A las 24 horas hubo una nueva disminución del Título del Control y CexpCASP fue 0,13±0,093. Se concluye que las LM vivas durante incubación in vitro con eritrocitos comenzarían a captar ácido siálico a partir de las 2 horas de contacto logrando la desialización casi completa del eritrocito a las 24 horas.

T. spiralis muscle larvae (ML) alter erythrocyte aggregation. The objective of this work was to study erythrocyte desialylation kinetics produced by living T. spiralis ML. Three experiments were conducted in which 60 larvae were incubated with 30 μL of erythrocytes in 1 mL of saline solution for 1, 2, 3, 4, 5, 6, 7, 10, 15, 18, 20, 22 and 24 hours. Titration of Aggregation by Polybrene Method was used and Title, Total Score and CexpCASP were calculated in Control erythrocytes and erythrocytes incubated with ML. The results showed that in the first hour there was no capture of sialic acid. The coefficient began to decrease at 2 hours, and at 3 hours the Title decreased in one dilution and the coefficient was 0.62±0.021. The title was maintained at the following times and the coefficient value presented small decreases, until reaching 0.45±0.010 value at 22 hours. It was then that, a significant decrease in Title occurred. Within 24 hours, there was a further decrease of Control Title, and CexpCASP was 0.13±0.093. It can be concluded that living ML during in vitro incubation with erythrocytes began to capture sialic acid after 2 hours of contact, getting almost complete desialylation of erythrocytes at 24 hours.

As larvas musculares (LM) de T. spiralis alteram a agregação eritrocitaria. O objetivo do trabalho foi estudar a cinética de dessialização eritrocitária produzida por LM vivas de T. spiralis. Realizaram-se 3 experiências nas quais foram incubadas 60 larvas com 30 μL de eritrócitos em 1 μL de solução salina durante 1, 2, 3, 4, 5, 6, 7, 10, 15, 18, 20, 22 y 24 horas. Foi aplicado o Método de Titulação da Agregação por Polibreno e se calculou Título, Pontuação Total (ST) e CexpCASP. Os resultados mostraram que na primeira hora não houve captura de acido siálico. Às 2 horas o coeficiente começou a decrescer e às 3 horas o Título diminuiu numa diluição e o coeficiente foi 0,62±0,021. Nos tempos seguintes o Título se manteve e o valor do coeficiente apresentou pequenas diminuições, até atingir o valor de 0,45±0,010 às 22 horas, tempo em que se produziu a diminuição significativa do Título. Às 24 horas houve uma nova diminuição do Título do Controle e o CexpCASP foi 0,13±0,093. Conclui-se que as LM vivas durante incubação in vitro com eritrócitos, começariam a captar ácido siálico a partir das 2 horas de contato conseguindo a dessialização quase completa do eritrócito às 24 horas.

[Proteomic analysis of the excretion-secretion products of four Trichinella spiralis isolates obtained from accidental hosts]. / Análisis proteómico de los productos de excreción-secreción de cuatro aislados de Trichinella spiralis obtenidos de hospederos accidentales.

BACKGROUND: Trichinella spiralis is an intestinal and tissue nematode specific for mammalian skeletal muscle, causing a series of physiological alterations. T. spiralis excretory-secretion products play an important role in the appearance and regulation of these alterations. However, the effect of these products on the infection and invasion of the parasite to the host is unknown. METHODS: Differences and similarities between antigenic proteins and surface proteins of four accidental hosts isolates (dogs) of T. spiralis and the reference strain isolated from pigs (MSUS/MEX/91/CM) were assessed by electrophoresis, western blot and mass spectrometry. RESULTS: Using gene ontology, five proteins exclusive to the accidental hosts were analyzed. The results showed that these proteins are part of the extracellular matrix of the parasite, present catalytic activity, and bind to host cells. The antigenic activity the four strains showed the antigenic triplet characteristic of T. spiralis of 43, 45 and 47 kDa. CONCLUSIONS: Five proteins exclusive to dog isolates provided information to understand the mechanism of action of this parasite to penetrate the muscle and evade the immune response in the host.