Stella M. Venturiello

Immunoelectrotransfer blot assay in acute and chronic human trichinellosis.

An immunoelectrotransfer blot assay (IETB) using excretory–secretory products of muscle larvae of Trichinella spiralis (ML-ESP) and the avidin–biotin system was developed in order to characterize reactivity against ML-ESP in sera from patients with acute and chronic trichinellosis. A complete pattern of up to 13 bands was developed by sera from individuals with trichinellosis where doublets, triplets, or single bands were shown to have molecular weights of roughly 66, 55, 45, 36, 29, 24, and 14 kDa. The bands at ∼55, 36, 29, and 14 kDa proved specific for T. spiralis. The band at ∼55 kDa was present in all trichinellosis sera, whereas the ∼14-kDa band was present in only a small percentage of sera. The development of ∼36- and 29-kDa bands suggests a modulation of the reactivity against ML-ESP over time. IETB proved more sensitive for the population of chronic trichinellosis under study than a conventional diagnostic enzyme-linked immunosorbent assay, allowing negative or borderline serum samples to be determined. Thus, this technique, when applied for human trichinellosis surveillance, should provide a useful tool in endemic areas.

Immune cytotoxic activity of human eosinophils against Trichinella spiralis newborn larvae.

The ability of human eosinophils to kill the newborn larvae (NBL) of Trichinella spiralis of different maturation status, in the presence of antibody, was studied. A cytotoxic in vitro test was performed using NBL less than 2h of age (NBL2) or NBL maintained in culture at 37°C for 20 h (NBL20), peripheral blood eosinophils, anti‐Trichinella serum and human fresh serum as source of complement. Under these experimental conditions eosinophils from normal individuals attached to NBL2 as well as to NBL2o but only the latter were killed. On the other hand, eosinophils from volunteers with eosinophilia killed NBL regardless of larval age. Neither adherence nor significant mortality was observed in the absence of immune serum. These results indicate that NBL maturation and eosinophil activation status are crucial for antibody‐dependent cellular cytotoxic reaction (ADCC).

Increased parasiticide activity against Trichinella spiralis newborn larvae during pregnancy

Abstract. To evaluate whether pregnancy has a synergetic effect on the hosts immune response against Trichinella spiralis infection, immunological and parasitological parameters relating to the infection were assessed in pregnant rats and compared to those observed in virgin infected rats. The muscle parasite load was lower in pregnant infected rats but no differences were found in the intestinal worm burdens or the fecundity of female worms. The ability of sera to mediate death in newborn larvae (NBL) in an antibody-dependent cell cytotoxicity assay was higher for pregnant rats, even in the absence of specific anti-NBL antibodies. High levels of total and anti-NBL IgE were found in both groups, however, these levels were higher in the group of pregnant infected animals. No differences were found in anti-NBL IgGAM titers, nevertheless in some pregnant infected rats these antibodies were found earlier. No differences were found in peritoneal or blood eosinophil counts. Offspring born to infected dams were found to be infected. The results obtained in this model demonstrate that during pregnancy there is an enhanced helminthotoxic effect towards the NBL. Despite this immunoactivation, vertical transmission of the parasite is possible.

Immune killing of newborn Trichinella larvae by human leucocytes.

The capacity of human leucocytes from normal donors to kill the newborn larvae of the nematode Trichinella spiralis in vitro, in the presence of serum from infected individuals, was studied using newborn larvae (NBL) less than 2 h of age or NBL that had been maintained in culture at 37°C for 20 h. Neutrophils and monocytes attached to newborn Trichinella larvae and killed them, regardless of their age. When eosinophils were used, 20 h old NBL were killed whereas 2 hold NBL were not. Complement was essential in the cytotoxic effect of leucocytes. These results indicate that host defence against T. spiralis in humans may be a complex mechanism in which different cell types can be involved. They also show that the age of maturation of the NBL is of paramount importance in the antibody‐dependent cellular cytotoxicity reaction.

Trichinella spiralis infection rapidly induces lung inflammatory response: the lung as the site of helminthocytotoxic activity.

In the present work, we studied the kinetics of the appearance of different immunological parameters in the lungs during the intestinal phase of infection with Trichinella spiralis. We also evaluated the lungs role in the retention and death of this helminth in its migratory stage. To study these parameters, we used lung extracts, lung cell suspensions and rat lung tissue sections. During the intestinal phase of infection (days 0-13 post-infection, p.i.), an inflammatory response is elicited in the lungs, which reflects humoral, cellular and functional changes. These changes included an increased number of mast cells and eosinophils and the local production of IL-4, IL-5, IL-10, TNFα, IFNγ, IL-13, CCL11 and CCL28. We found hyperplasia of the bronchus-associated lymphoid tissue (BALT). Total and specific IgA, IgE, IgG1 and IgG2a were detected locally. The retention of the migratory larvae in the lung, together with the ex vivo cytotoxic capacity of the lung cells and antibodies present in the lung extracts, suggested that the lung was one of the immune defense organs against the pathogens migration stage.

Trichinella infection in wild boars (Sus scrofa) from a protected area of Argentina and its relationship with the presence of humans

In Argentina, Trichinella infection has been documented in humans and animals of several provinces since 1930. This zoonotic parasite infection has been recently detected in humans and pigs of a region historically considered as Trichinella-free, suggesting the spread of these pathogens. The aim of the present work was to investigate the presence of Trichinella infection in wild boars (Sus scrofa) and in the human population living in a protected area. Trichinella infection has been investigated by serology (in humans and wild boars) and by artificial digestion of wild boar muscles. The isolated Trichinella larvae have been identified at the species level by multiplex PCR. A geographical information system has been used to collect environmental data. The results showed the circulation of Trichinella spiralis in wild boars with a low parasite burden, and suggest the influence of human behavior on the transmission. The transplacental passage of parasite is postulated. It follows that the declaration of region as Trichinella-free should be carefully established by means of extensive monitoring programs, not only in humans and domestic animals but also in wildlife.

Diagnosis of porcine trichinellosis: parasitological and immunoserological tests in pigs from endemic areas of Argentina

In order to compare the reliability of serological and parasitological techniques for the diagnosis of porcine trichinellosis from endemic areas in Argentina, 116 pigs were studied: 61 animals from two separate outbreaks and 55 from a small abattoir. Direct diagnostic techniques included trichinoscopy and the artificial digestion method. Indirect diagnostic tests used in this study were the enzyme-linked immunosorbent assay (ELISA), employing the excretory-secretory products of muscle larvae (ML) as antigen, and the indirect immunofluorescence assay using as antigen ML in suspension (IIF-susp), cryostat sections of infected rat muscle or of free ML (IIF-slide). The percentage of parasitologically positive pigs was invariably lower than that of serologically positive animals (IIF-slide), even when digestion studies were carried out individually with a greater amount of muscle sample than required by current regulations. Close correlation was found between IIF using as antigen tissue sections and IIF using free ML sections, while IIF-susp proved unsuitable for diagnosis since this assay presented a high percentage of false negative results (20%). The IIF-slide technique proved positive in all parasitologically positive animals. ELISA rendered a lower percentage of positive reactions than IIF-slide, especially when worm burden was low. Since most parasitologically positive animals rendered at least two positive serological tests (two variations of IIF or IIF plus ELISA), those negative by digestion and positive by two serological methods were strongly suspected of having trichinellosis. Upon studying swine from a abattoir it was found that 9% of the pigs were positive when assayed by two serological techniques, but Trichinella spiralis infection could not be parasitologically confirmed. To sum up, serological methods may be used for screening all pigs and positive findings should be tested by the digestion method by analysing a greater quantity of pork than that required by current regulations, above all in areas with reported clinical trichinellosis in humans, to ensure that the pork is safe for human consumption.

In vitro and in vivo effects of progesterone on Trichinella spiralis newborn larvae

We have previously demonstrated that during pregnancy there exists an increased parasiticide activity against Trichinella spiralis newborn larvae (NBL) in infected rats. In this work we analysed the contribution of peritoneal cells from noninfected pregnant rats to the mortality of the NBL in cytotoxicity assays, and evaluated the role of progesterone in this effector mechanism. Our findings suggest that progesterone can induce activation of effector peritoneal cells to destroy the NBL in a rapid and antibody-independent manner. The administration of progesterone to ovariectomized rats also led to a significant decrease in the parasite load of the animals, thus demonstrating that progesterone induces the increase of the parasiticide activity of the leukocytes involved in the mechanisms of NBL death.

Early pulmonary response in rats infected with Trichinella spiralis.

The migratory stage of Trichinella spiralis, the newborn larva, travels along the pulmonary microvascular system on its way to the striated muscle cells. In the present study, an important inflammatory reaction was observed on days 5 and 14 post-infection (p.i.) in the lungs of infected rats. This inflammation was characterized by a Th2 cell phenotype of hyperplastic bronchus-associated lymphoid tissue and by goblet cell hyperplasia. Among the inflammatory cells were eosinophils and mast cells scattered over the pulmonary parenchyma. On day 5 p.i. the number of IgE(+), CD4(+) and CD5(+) cells in the bronchus-associated lymphoid tissue were increased and IgE-secreting lung cells were also detected. At the end of the migratory phase of the infection (day 14 p.i.), only IgE(+) cells were detected in high numbers and in the bronchoalveolar lavage fluid, an increment in the total IgE levels as well as the presence of IgE and IgA anti-larvae surface were also detected. In cytotoxicity assays, cells from the bronchoalveolar lavage had considerable biological activity since they were able to kill the larvae even in the absence of specific antibodies. These results show that the lung is an organ involved in the immune response developed early during a T. spiralis infection and suggest its importance in the protection of the host.

Cytotoxicity-blocking antibodies in human chronic trichinellosis.

Abstract Antisurface newborn larva (NBL) antibodies (Abs) were found in sera from individuals chronically infected with Trichinella spiralis. These Abs were incapable of inducing NBL death by activation of normal human leukocytes of peripheral blood as determined by in vitro assays of antibody-dependent cell cytotoxicity (ADCC). Besides, such sera blocked the cytotoxic reaction mediated by Abs produced a few weeks after infection. The blocking activity could not be attributed to any particular isotype by the indirect immunofluorescence technique. Purified antisurface NBL Abs obtained from sera from chronically infected patients recognized antigens of muscle-larva excretory-secretory products (ML-ESP) in an enzyme-linked immunosorbent assay (ELISA) and an immunoelectrotransfer blot assay. Likewise, as did chronic sera, a monoclonal Ab raised against ML-ESP blocked NBL death in ADCC assays. These results suggest that during the course of an infection by T. spiralis, Abs related to ML-ESP provide an immunoevasive mechanism for avoidance by NBL of an important anti-NBL host effector mechanism.