Strongyloides ratti: Mast cell and goblet cell responses in the small intestine of infected rats

Kinetics of intestinal mast cells and goblet cells were examined in relation to worm localization at various sites in the small intestine of rats infected with 3000 filariform (stage 3) larvae of Strongyloides ratti. The most marked intestinal mastocytosis was observed on Day 20 at the anterior site of the small intestine where the majority of the worms had concentrated. The number of mast cells in the posterior small intestine increased in parallel with the posterior shift of parasites at the later stage of the infection. In contrast to the intestinal mast cell response, the number of goblet cells was not significantly affected by the infection. These results strongly suggest that intestinal mastocytosis is closely related to the presence of the worms and that mast cells may play an important role for the expulsion of S. ratti.     

Nippostrongylus brasiliensis: Effect of cyclophosphamide treatment on worm expulsion in rats

The precise immunological mechanisms associated with expulsion of the gastrointestinal nematode Nippostrongylus brasiliensis remain controversial. In order to investigate the effects of drug-induced immunosuppression on parasite burdens and expulsion, various regimens of cyclophosphamide were administered to parasitized Wistar rats. It was observed that both the number of worms established from an infective dose of 3000 larvae and the time of expulsion were markedly increased with higher doses of cyclophosphamide. Thus, at the highest sublethal level of treatment (100 mg/kg), 82% of the infective dose was recovered at Day 9 postinfection compared with 51% in nontreated controls. Furthermore, in such treated rats expulsion was delayed in 6 days beyond that of nontreated animals. As cyclophosphamide, at the levels used in the present study, is known to primarily effect B-cell function, the results support the view that antibody-mediated responses play an essential role in worm expulsion.     

Angiostrongylus cantonensis: Biogenic amines in the lungs of infected rats

Levels of histamine, serotonin, norepinephrine, and dopamine were estimated sequentially in rats parasitized by the lungworm, Angiostrongylus cantonensis, between 30 and 75 days postinfection. The highest level of histamine in the infected lungs was 52.19 μg/g wet wt tissue, 13 times higher than the level found in control rats. The level of serotonin rose from the normal level of 6.41 to 10.27 μg/g wet wt tissue after the worms had lodged in the pulmonary artery for 15 days. There were no changes in norephinephrine or dopamine. Studies of host cell response to infection revealed that the increased histamine and serotonin levels corresponded to a rise in the lung population of mast cells, suggesting that these cells produced the amines.     

Nippostrongylus brasiliensis: Peripheral blood leucocyte response of rats,with special reference to basophils

Changes in peripheral blood leucocytes were followed in male August rats given one or two infections with the parasitic nematode, Nippostrongylus brasiliensis. During the initial infection, there was a biphasic increase in total numbers of leucocytes, lymphocytes, neutrophils, large mononuclear cells, and eosinophils. All except eosinophils fell rapidly to normal levels as the parasites were expelled, but eosinophils were elevated much longer. All these cell types increased in number to a single peak 5 days after reinfection. Basophils were detected at very low levels in uninfected rats (0.06% or $\text{1}\text{1600}$ leucocytes) and increased in number to a peak 13 days after initial infection, at which time they represented about 4.5% of total leucocytes, an 80-fold increase compared with the number in normal rats. In reinfected rats, the basophilia occurred more rapidly than in a primary infection, suggesting that the appearance of these cells in the circulation is probably an immunologically mediated event.     

Nippostrongylus brasiliensis: Peripheral leukocyte responses and correlation of basophils with blood histamine concentration during infection in rats

Rats infected on Day 0 with 3000 infective L₃ larvae of Nippostrongylus brasiliensis, and uninfected controls, were monitored daily through Day 23 postinfection for changes in peripheral leukocytes and blood histamine concentrations. A generalized leukocytosis was observed between Days 7 and 18, the period leading up to and immediately following the time of expulsion of adult worms from the small intestine. The total number of lymphocytes was elevated between Days 11 and 17 post-infection; however, there was no change in the percentage of lymphocytes relative to other white blood cell types. The total number and percentage of monocytes were no different from controls, with the exception of Day 5 postinfection. On that day, there was a significant elevation in the number (614/mm³ blood in infected rats, as compared to 160/mm³ blood in controls) and relative proportion (2.7% of total leukocytes in infected animals, compared to 0.8% in controls) of monocytes, coinciding with the termination of the pulmonary migration of larvae. A period of moderate neutrophilia occurred between Days 7 and 12, but this was not accompanied by any changes in the proportion of neutrophils. A biphasic eosinophil response was observed. An early elevation of eosinophils occurred between Days 3 and 5, corresponding to the period of larval migration through the lungs. A second period of eosinophilia began on Day 11, when worm expulsion was beginning, and continued through Day 19, i.e., beyond the period of worm expulsion. Basophilia was observed as early as Day 6 after infection, rising to a peak on Day 13 (6.8% of total leukocytes in the infected animals, as compared to 0.5% in controls), and declining thereafter, but remaining above control levels until termination of the experiment on Day 23. The histamine content of blood samples, as determined by an enzymic-isotopic assay, closely paralleled the development and decline of basophilia; histamine levels also peaked on Day 13 postinfection (422.5 pg histamine/mm³ blood in infected rats, compared to 66.0 pg histamine/mm³ blood in controls). As basophilia progressed during the course of infection, there was a decline in the amount of histamine per basophil. In uninfected rats and during the first week after infection, basophils contained about 1.5–2.0 pg histamine per cell. In the third week of infection, there was about 0.6 pg histamine per basophil. The time course of the basophilia suggests that these cells may be involved in the expression of immunity to N. brasiliensis.     

Eimeria nieschulzi and Trichinella spiralis: Analysis of concurrent infection in the rat

The effects of concurrent primary infection of the rat with Eimeria nieschulzi and Trichinella spiralis on the number of oocysts of E. nieschulzi shed by the host and on the number, distribution, and fecundity of adult T. spiralis were analyzed. When rats were initially infected with E. nieschulzi followed 9 days later by infection with T. spiralis there occurred a significant decrease in the total numbers of adult worms in the small intestine, a significant shift in the position of these worms along the length of the small gut, a decrease in the fecundity of adult female worms, and a decrease in muscle parasitism when compared with rats infected with T. spiralis alone. When rats were initially infected with T. spiralis, followed 9 days later by infection with E. nieschulzi, there occurred a significant decrease in the numbers of oocysts shed over 24 hr on Days 7, 9, and 11 postinfection below that seen with rats infected only with Eimeria. These changes are discussed in terms of the enteropathophysiologic lesions and enteric inflammation known to occur during infections with these two parasites.     

Nippostrongylus brasiliensis: Female incubation,release of pheromone,fractionation of incubates

The release of pheromone by female Nippostrongylus brasiliensis as a crude incubate was linear for the first 2 hr, but declined after this period. Pheromone release in solution increased with temperature elevations until a 37 C incubation temperature was reached. Higher temperatures of incubation apparently caused diminished pheromone release. Gel filtration of female pheromone that was prepared as a crude incubate revealed biologically active elutions at K_av, 0.64 and 1.0. The timed release of female pheromone activity at these two elution regions coincided additively with the production of activity as a crude incubate. Each individual Chromatographic fraction from females accounted for about 50% of the pheromone activity of the crude, nonfractionated incubate, based on the male's bioassay response. Recombination of the K_av 0.64 and 1.0 elutions enabled recovery of pheromone activity that was similar to crude incubate. The gel filtration elution of 260-nm absorbance from male- or female-produced incubate was qualitatively similar, but a range of quantitative differences were evident. The fractionation of incubate from several female densities revealed only quantitative differences.     

Trichinella spiralis: Immunization of rats with an antigen fraction enriched for allergenicity

Trichinella spiralis whole muscle larval extract was fractionated by gel filtration and anion-exchange chromatography, and the protein fractions were assayed for allergenicity by a footpad-swelling test in mice; IgE antibody levels in rats immunized with the fractions were determined by passive cutaneous anaphylaxis test in rats. By these methods, an allergenic fraction from T. spiralis was isolated. The fraction, F1-b, was shown to be monodisperse by analysis with SDS-PAGE, IEP, and isoelectric focusing, indicating that it is a single protein moiety with a molecular weight of approximately 45,000 and a pI of approximately 5.1. The Schiff-periodate test showed Fl-b to be a glycoprotein. Rats immunized with Fl-b had significantly fewer intestinal worms than did nonimmunized controls at 24 hr and 7 days after oral challenge with T. spiralis larvae.     

Intestinal absorption of hexoses in rats infected with Nippostrongylus brasiliensis

The net absorption and accumulation of d-galactose and d-glucose by the small intestine of rats infected with N. brasiliensis were studied in vivo and in vitro. There was no change from control levels in the rate of galactose transfer in vivo by the entire intestine 10 days after infection but fluid transfer was significantly lower at this time. Mucosal galactose transfer in vitro by the entire intestine or by each one-third of the intestine did not change significantly during infection but 10 days after infection mucosal glucose transfer was significantly lower in the infected proximal one-third of the intestine and significantly greater in the distal one-third than in the comparable segments in controls; mucosal glucose transfer by the entire intestine was not affected by infection. Serosal transfer of both hexoses by the proximal two-thirds of the intestine and by the entire intestine was significantly reduced 10 days after infection. Between 10 and 18 days after infection the rate of serosal galactose transfer in vitro was significantly lower than control levels. The difference in response of mucosal and serosal hexose transfer rates to infection appears to be due, in part, to an increase in intestinal glucose metabolism or increased tissue retention of galactose during infection. Mucosal fluid transfer in vitro by the entire intestine was not significantly different from control levels at 10 days of infection when either hexose was used, although there was a significant reduction in the jejunal segment when glucose was used. Mucosal fluid transfer by the entire intestine in the presence of galactose was significantly greater during the rejection phase of the parasite population than in controls.     

Nippostrongylus brasiliensis: intestinal goblet-cell response in adoptively immunized rats.

Goblet-cell differentiation was studied in the intestinal epithelium of rats infected with the nematode Nippostrongylus brasiliensis. An increase in the proportion of goblet cells occurred at the time of worm expulsion in rats infected with 1000 or 4000 third stage larvae. Adoptive immunization of infected rats with immune-thoracic duct lymphocytes (TDL) induced extensive goblet-cell differentiation whereas the transfer of immune-TDL into normal rats had no effect. The extent of goblet-cell differentiation in adoptively immunized infected rats was proportional to the number of cells transferred. A goblet-cell response also occurred in adoptively immunized rats harboring implanted “normal” and “damaged” worms but recipients of normal worms which were not given cells were unable either to expel their worm burden or to induce a goblet-cell response. Experiments in which the parasites were expelled with an anthelmintic drug suggested that the goblet-cell increase was not simply a repair process associated with the expulsion of the parasites. In all situations where immune expulsion of the parasites occurred, there was a concomitant rise in the proportion of goblet cells. These experiments suggest that thoracic duct lymphocytes either directly or indirectly regulate the differentiation of intestinal goblet cells.     

Trichinella spiralis: Genetics of worm expulsion in inbred and F1 mice infected with different worm doses

The nematode Trichinella spiralis is rejected from the intestine at a time that is characteristic for each inbred strain of mouse. Previous work (R. G. Bell et al. 1982a) had empirically identified strong, intermediate, and weak phenotypes (NFR, $\text{C}\text{H}\text{He}$, and $\text{C57}\text{10}$ mice, respectively) in mice infected with 400 muscle larvae. It is shown that this classification applies to another eight inbred strains: SWR, $\text{DBA}\text{2}$, $\text{DBA}\text{1}$, LP, $\text{Bub}\text{Bn}$—all intermediate, and $\text{NZB}\text{BIN}$, C57L, A, and Mus molossinus—all weak. This phenotypic classification consistently applies with infections of 400–800 muscle larvae. Below doses of 300 muscle larvae, the strain designation of phenotype does not consistently apply. By this it is meant that the relative rejection rate changes for certain strains so that eventually some strains that were strong (NFR) or intermediate (AKR) responders to 400 muscle larvae become weak responders to 50 muscle larvae. Other strains increase their relative rejection time (B10 · BR, B10 · Q) while many do not change (NFS, $\text{C}\text{3}\text{Heb}\text{Fe}$, $\text{DBA}\text{2}$, $\text{DBA}\text{1}$). The phenomenon is most apparent in inbred parental strains rather than in F₁ crosses, and it represents a phenotypic variation in rejection time that is dependent on dose. It is also demonstrated that time of rejection is directly proportional to dose in all inbred and F₁ mouse strains that we have examined. Analysis of F₁ crosses shows that most have the rejection time of the strongest responding parental line, suggesting simple genetic control of strong, intermediate, and weak responses. Two F₁ crosses invalidated this theory. The $\text{DBA}\text{1}\text{×}\text{C3}\text{H}\text{He}$ (intermediate × intermediate) showed a strong response. The additive effects of parental rejection phenotype indicated that these lines could not be genetically identical for intermediate responsiveness. Similarly, the NFR (strong) × B10 · BR (weak) F₁ showed intermediate rejection, indicating partial dominance of $\text{C}\text{57}\text{B}\text{1}\text{10}$ genes over the strong responder NFR strain. Neither the primary expulsion time phenotype, phenotypic variation to low doses, or the rejection characteristics of F₁ crosses could be ascribed to genes linked to the major histocompatibility complex.     

Brugia pahangi: Antibodies and microfilaremias in Lewis rats

Male and female Lewis rats were inoculated subcutaneously in the left groin with 75 infective larvae of Brugia pahangi and microfilaremias were followed for as long as 420 days postinoculation. Patent infections developed in 64% of the female rats and 95% of the male rats. Mean prepatent periods were similar (65.9 and 63.9 days, respectively), but mean microfilaremias in males rose much higher, to a mean of 218 mf/0.25 ml blood at 270 days postinoculation. IgG titers, as measured by enzyme-linked immunosorbent assay (ELISA), to adult worm somatic antigen were higher than those to microfilariae in almost all rats. For both sexes, the most consistently microfilaremic rats had highest titers to these antigens. Granulomas with degenerating microfilaria were present in the spleen of male rats with high microfilaremias (>100–300 mf/0.25 ml blood). Ouchterlony precipitin reactions suggested that most rats with spleen granulomas responded to microfilarial antigen components to which most rats without granulomas did not. Neither spleen granulomas nor antibody responses measured in this study appeared to have protective (microfilaremia-lowering) value. As measured by microfilaremias, the male Lewis rat is not as susceptible as some conventional hosts of B. pahangi, but it does consistently become infected and remains microfilaremic for more than a year. Preferential male susceptibility indicates that this model may be useful for studying this aspect of human lymphatic filariasis.     

Nippostrongylus brasiliensis: Indirect fluorescent antibody studies of immunity in mice

Antibodies against Nippostrongylus brasiliensis were demonstrated by the indirect fluorescent antibody technique in four pools of sera from mice 3 weeks after one or more exposures to this parasite. These antibodies combined with antigens in sections of N. brasiliensis and included IgG, IgM, and IgA classes of immunoglobulins. Antibodies of the first two classes produced intense fluorescence in many areas of the parasites, whereas IgA usually evoked only minimal reactions at most of these same sites. Results produced by all pools of antisera were similar, while pools of sera from nonparasitized mice were essentially negative.The principal site of fluorescence in sections treated with antisera was in the cellular cytoplasm and in the microvillar layer of the intestinal epithelium. The nuclei in these cells did not fluoresce. The cuticle, lateral canals, body wall musculature, and reproductive organs fluoresced to a lesser extent. In this group of structures, the most notable fluorescence occurred in the cytoplasm of developing ova, in shells of completed eggs, and in muscle cells of the vagina. Slight autofluorescence was observed in the cuticle, cytoplasm of cells of the lateral canals, substances in the lumina of the lateral canals, and in the extracellular substance of the excretory glands.     

Dirofilaria immitis: Parasite-specific humoral and cellular immune responses in experimentally infected dogs

Humoral and cellular immune responses to adult antigens of Dirofilaria immitis were evaluated in experimentally infected dogs during the chronic phase of infection. All infected dogs had significantly elevated IgG (enzyme-linked immunosorbent assay) and IgE (passive cutaneous anaphylaxis) titers against D. immitis adult antigens. However, there was little difference between infected dogs and uninfected controls in cellular-immune responses to D. immitis adult antigen or phytohemagglutinin as assessed by the lymphocyte transformation assay. Although neither cellular nor humoral responses correlated with worm burdens, cellular responses among infected dogs correlated inversely with IgG titers to D. immitis adult antigen. These results are consistent with observations in other nematode and trematode systems which suggest that in chronic tissue helminth infections there is suppression of cellular immune responses to parasite antigens while humoral responses to the same antigens remain relatively preserved.     

Nippostrongylus brasiliensis: Infection decreases plasma butyrylcholinesterase activity in rats

Plasma butyrylcholinesterase (BChE) hydrolyzes ester-containing compounds such as succinylcholine, as well as acting as a scavenger against neurotoxic organophosphates (OPs). We previously found that Nippostrongylus brasiliensis infection makes rats more susceptible to OP toxicity by decreasing serum paraoxonase-1 (PON1) activity. In the present study, we examined the effects of N.brasiliensis infection on acetylcholinesterase (AChE) activity in plasma, red blood cells (RBCs), brain and diaphragm, as well as serum PON1 activity, in rats at day 7 after infection. N.brasiliensis infection significantly decreased plasma BChE and PON1 activities without significantly altering AChE activity in RBCs, brain and diaphragm. These results provide further insight into the unusual deleterious effects of intestinal nematode infections on body homeostasis.     

Strongyloides ratti: Dissociation of the rat's protective immunity into systemic and intestinal components

Analysis of the early stages of a challenge infection with Strongyloides ratti has shown that protection is expressed against the developing third-stage larval worms (L₃) and prevents the maturation to adulthood of most larvae. Challenge after an immunizing infection that was restricted to the parenteral L₃ migratory phase showed that some 10–40% of overall protection could be ascribed to systemic antilarval immunity. Some larvae were trapped in the skin at the site of injection whereas others failed to migrate to the head and lung of immune rats. Larvae arriving in the intestine at Days 3, 4, and 5 did not persist beyond Day 7 and 8. Studies using [⁷⁵Se]methionine-labeled L₃ showed a significant increase in fecal label in rats immunized by a complete infection. This loss did not occur to the same extent in rats immunized only with parenteral larvae. Significant rejection of worms transplanted to the intestine also indicated intestinal protection. The possible existence of large numbers of worms in a state of “arrested development” was excluded by their failure to appear after cortisone treatment and the absence of worm accumulation in radiolabeling studies. It is concluded that at least two responses operate against larval S. ratti, one is systemic and the other operates in the intestine against larvae in a manner that resembles the “rapid expulsion” rejection of Trichinella spiralis in immune rats.     

Ascaris suum: Nutrient absorption,growth, and intestinal pathology in young pigs experimentally infected with 15-day-old larvae

Three-week-old pigs on high (HP) or low (LP) protein diets were infected with 15-day-old Ascaris suum larvae (W). Including noninfected pigs (C), the experimental groups were HPW, LPW, HPC, and LPC. After 8 weeks, worm burden in the intestine averaged 42 in LPW and 31 in HPW. Nitrogen balance during Week 4 showed nonsignificantly less nitrogen absorption and retention in LPW compared to LPC. A similar, nonsignificant decrease in fat absorption was recorded in LPW vs LPC and in HPW vs HPC. The weight of the small intestine was significantly greater in W than C pigs but did not differ because of protein level. The weight correlated positively to worm burden and the increase was due mainly to hypertrophy of the tunica muscularis (muscle layers).     

Angiostrongylus cantonensis: Rejection of pulmonary arterial transfers of lung stage worms

Experimental transfer of the lung stage worms of Angiostrongylus cantonensis was performed between permissive hosts (rats) and between permissive (rat) and nonpermissive hosts (guinea pigs and rabbits). These worms from rats were rejected when implanted into nonpermissive hosts. Unexpectedly, similar worms did not survive well even in permissive hosts; the majority of recipient rats did not have first-stage larvae (L₁) in their stools and, even when positive for L₁, the number of the larvae shed was few. These findings contrast with the successful pulmonary arterial transfer of younger, intracranial-stage worms. It was shown that differences in rat strain between donor and recipient had no significant effect on the subsequent worm survival in recipient hosts. The alteration of maintaining conditions of the intrapulmonary worms, prior to transfer, in terms of temperature, media, and maintaining period, also showed no profound effect on the subsequent worm survival. The kinetics of precipitating and reaginic antibody levels in rats implanted with the intrapulmonary worms were analogous to those in rats with intracranial-stage worms. The findings indicate that some qualitative differences may exist between the worms obtained from two different sites.     

Nippostrongylus brasiliensis: Increase of sialomucins reacting with anti-mucin monoclonal antibody HCM31 in rat small intestinal mucosa with primary infection and reinfection

Infections with the parasitic helminth, Nippostrongylus brasiliensis, cause changes in rat small intestinal goblet cell mucin, particularly in the peripheral sugar residues of oligosaccharide. These changes may correlate with expulsion. In this study, we examined changes in mucin oligosaccharides caused by primary infection and reinfection with N. brasiliensis, using two monoclonal antibodies, HCM31 and PGM34, that react with sialomucin and sulfomucin, respectively. Enzyme-linked immunosorbent assay of jejunal mucins showed that the relative reactivity of mucins with HCM31, but not PGM34, increased up to 16 days after primary infection and 6 days after reinfection, the times when the worms were expelled from the rats. Immunohistochemical studies confirmed that goblet cells stained with HCM31 greatly increased at the time of worm expulsion. These results indicate that the marked increase observed in HCM31-reactive sialomucins may be related to expulsion of the worms.     

Trichinella spiralis: Rapid,immunologically influenced reduction of intestinal,sodium-coupled sugar transport in the rat

Epithelium of isolated small intestinal segments were studied in Ussing-type chambers to detect physiological changes associated with rapid, immune rejection of Trichinella spiralis infective larvae. Electrophysiological parameters associated with Na⁺-coupled hexose transport were measured. Changes in transepithelial electrical potential difference (PD), resistance, and short circuit current (I_sc) due to the addition of actively absorbed β-methyl-d-glucoside (BMG) to the mucosal solution were determined. Measurements were made prior to and 30 min after primary and secondary infections. Animals were infected by intraduodenal inoculation. As the infective larval dose in primarily infected (nonimmunized) rats increased from 50 to 2000 larvae the magnitude of the rise in I_sc elicited by BMG decreased in a dose-dependent fashion, with 50 larvae per rat having no effect. In previously infected (immunized) rats challenged with a secondary inoculum, all doses, ranging from 50 to 2000 larvae per rat, decreased the BMG-stimulated change in I_sc by approximately 50%. The effect of 50 worms per rat in immunized hosts was equivalent to that produced by ~1600 worms in nonimmunized animals. Measurements of ¹⁴C-BMG mucosa-to-serosa flux confirmed that Na⁺-BMG cotransport was responsible for observed changes in I_sc. Results support the conclusion that changes in intestinal epithelial function are associated with larval challenge of immune rats.