Suppression of multiple sclerosis in the rat during infection with Trichinella pseudospiralis.

Injection of the rat with guinea pig myelin basic protein (MBP) induces an inflammatory demyelination that leads to development of a condition mimicking human multiple sclerosis (MS), including severe depressions in mobility, coordination, and strength in the affected animal. This model was used to observe and compare the antiinflammatory effects of the intestinal and late migratory phases of infection with Trichinella pseudospiralis on development of MBP-induced, MS-like debilitation in rats. Animal performance was measured in an activity monitor and in a series of physical tests designed to assess animal coordination and strength. Uninfected animals injected with MBP showed declines in mobility, coordination, and strength typical for this model. These changes were similar in rats infected so that the intestinal phase of infection coincided with the peak of MBP-induced debilitation. Rats infected so that the late migratory phase of infection occurred during the period of peak MBP-induced debilitation showed significantly higher performance scores in mobility, coordination and strength compared to the latter 2 groups. These finding demonstrate the potency of the anti-inflammatory effects of elevations in host corticosteroids seen during the migratory phase of infection with T. pseudospiralis.

Second generation effects of maternal ethanol consumption on immunity to Trichinella spiralis in female rats.

The deleterious effects of maternal ethanol consumption on neonatal immune development and early immune responses has been well documented. However, the effects of such neonatal exposure to maternally consumed ethanol on the neonates' immune responses in their adult life, especially in combination with additional ethanol exposure, has received little attention. For these experiments, female rats were fed on either 6% ethanol or pair-fed isocaloric control Lieber-DeCarli liquid diets for 30 days prior to, and during, pregnancy and lactation. One day after weaning their pups, the mothers were infected with 1000 Trichinella spiralis larvae, and maintained on diets for an additional 20 days. At this time, they were challenged with 2000 T. spiralis larvae, killed 3 days later, and their immune status determined. These animals served as the first generation alcohol animals. Their female offspring served as the experimental second generation animals. These animals received maternal ethanol during pregnancy and lactation and control diet during their juvenile period (from weaning to 90 days of age). They were then subjected to a schedule of ethanol or pairfeeding, identical to the first generation dams. Two groups of second generation animals were established: Group 1 was exposed to ethanol during their dam's pregnancy and lactation periods only, with no subsequent ethanol treatment; Group 2 received ethanol during their dam's pregnancy and lactation periods and then again throughout their adult experimental period. Our previous studies showed only minimal changes following a secondary challenge in T. spiralis-immunized rats; however, neonates born to alcohol-consuming mothers did show some depressed secondary immune responses when challenged soon after weaning. We chose to use a secondary immune challenge to assess further immune alterations in second generation adult animals. No differences between any of the ethanol and pair-fed groups were observed in intestinal worm burdens, which is similar to data previously reported for adult alcohol-consuming animals. However, second generation group 2 animals demonstrated significantly reduced proliferation responses to T. spiralis antigen and Concanavalin A (Con A) stimulation relative to the ethanol first generation and to the second generation Group 1 animals. This group also demonstrated significantly lower absorbencies in the ELISA assay for specific IgM and IgG anti-T. spiralis antibodies than the pair-fed, ethanol first and second generation Group 1 animals. The proportion of total T cells and cytotoxic T cells was significantly lower and the proportion of natural killer cells was elevated in both second generation ethanol Groups 1 and 2 relative to the ethanol first generation and pair-fed groups. In addition, Group 2 second generation animals showed significantly lower proportions of total leukocytes and T cells than Group 1 second generation animals. Although secondary immune responses to T. spiralis infection were not altered in rats exposed to ethanol only as adults, exposure to maternal ethanol does affect some specific immune responses in second generation adult life and maternal exposure may exert cumulative immune effects in concert with later consumption of ethanol by offspring born to alcoholic mothers.

The temporal relationship among anti-parasite immune elements expressed during the early phase of infection of the rat with Trichinella spiralis.

Immunological parameters were measured during the first 20 days of infection with Trichinella spiralis in the rat. Expulsion of adult worms was complete by day 15 postinfection. Eosinophil and neutrophil numbers rose in the blood of infected rats above preinfection levels on days 3 and 6, respectively, and remained high to day 20 postinfection. Release of cytokines by Trichinella-antigen-stimulated mesenteric lymph node cells was measured, and a significant elevation in interferon (IFN)-gamma release was detected during the early stage of infection. Although initiated later, interleukin (IL)-10 release showed a pattern similar to IFN-gamma. Biphasic release of IL-5 was seen with significant elevation above the preinfection level on day 3 and after day 6 postinfection to the end of the study. IL-4 and IL-2 showed biphasic secretion as well, with the level of IL-4 high in the early and middle part of infection, while the level of IL-2 was detectable only at days 2, 3 and 6 postinfection. Serum anti-parasite IgE rose above preinfection levels after day 6 postinfection. Anti-parasite Ig-positive mesenteric lymph node (MLN) cells were evident by day 3 postinfection for IgM, and day 9 postinfection for IgA and total IgG. The number of Ig-positive MLN cells for all antibody classes returned to preinfection levels by day 20 postinfection. Evaluation of the temporal interactions of the key anti-parasite immune components with which the host engages Trichinella shows a complex interplay between Th1 and Th2 helper subsets.

Comparison of the inflammatory responses of mice infected with American and Australian Trichinella pseudospiralis or Trichinella spiralis.

This study was designed to determine if the Tasmanian devil isolate of Trichinella pseudospiralis suppressed inflammation as does the original isolate. While adult worm numbers were similar in all groups, lower enteritis occurred in devil isolate-infected mice compared with mice infected with the original isolate of T. pseudospiralis or with Trichinella spiralis. Diaphragm muscle inflammation was greater in T. spiralis-infected than in mice infected with either isolate of T. pseudospiralis or concurrently infected with T. spiralis and either of the isolates of T. pseudospiralis. Granuloma inflammation was lower in mice infected with either isolate of T. pseudospiralis compared with uninfected or T. spiralis-infected mice. The devil isolate down-regulated inflammation more profoundly during the intestinal phase than the muscle phase compared to the original isolate, differences which may be related to the biology of their natural hosts.

Ethanol consumption suppresses cell-mediated inflammatory responses and increases T-helper type 2 cytokine secretion in Trichinella spiralis-infected rats.

Alcohol consumption has been shown to be associated with immune suppression and immune modulation. In this study, the effects of ethanol ingestion on the host immune responses to Trichinella spiralis infection and the subsequent secretion of T-helper cell-associated cytokines were investigated in rats. At the early phase of T. spiralis infection, ethanol-fed animals showed decreased numbers of blood neutrophils and eosinophils, and a decreased secretion of interferon-gamma (IFN-gamma) by mesenteric lymph node cells, compared with pair-fed controls. Suppression of this early inflammatory response to infection in the ethanol-treated groups resulted in a slower rate of expulsion of intestinal adult worms and a higher fecundity rate for female worms, compared with pair-fed controls. A dramatic decrease in blood neutrophils in the ethanol-treated groups was also manifested on day 9 postinfection. At that time, mesenteric lymph node cells from the ethanol-treated groups secreted higher amounts of mast cell proliferation-enhancing activity, which has been shown to contain T-helper type 2-associated cytokines. At the later phase of infection (day 12 to 20 day postinfection), ethanol-treated animals contained higher numbers of blood eosinophils and secreted an increased amount of interleukin-5 and mast cell proliferation-enhancing activity, compared with pair-fed controls. Although there was a slight rise with time after infection, the level of serum corticosterone was not significantly increased in the ethanol groups. Therefore, it is not likely that the observed immune modulations caused by ethanol consumption, especially in the early phase of infection, is the effect of elevated levels of corticosterone in the circulation. The present study found that ethanol consumption suppressed the initial amount of interferon-gamma secretion and inflammatory response, and may have directly or indirectly led to an enhancement of the secretion of T-helper type 2-type cytokines later in the primary immune response to T. spiralis infection.

Composition, process, and performance in self-managed groups: the role of personality.

Using the five factor model with an emphasis on extraversion and conscientiousness, the authors investigated how personality is related to small group processes and outcomes. Graduate students (N = 289) assigned to 4- and 5-person teams in 61 groups engaged in a series of creative problem-solving tasks over a period of several weeks. Extraversion was associated with group processes and outcomes at both individual and group levels of analysis. At the individual level, extraverts were perceived by others as having greater effect than introverts on group outcomes. Covariance structure modeling suggested that extraverts induce these perceptions through the provision of both socioemotional and task-related inputs. At the group level, the proportion of relatively extraverted members was related curvilinearly to task focus and group performance. Contrary to expectations, Conscientiousness was unrelated to processes and outcomes at either the individual or group level.

Reward structure as a moderator of the relationship between extraversion and sales performance.

The proposition that the relationship between extraversion and sales performance is moderated by reward structure was investigated. Specific hypotheses were tested with data obtained from 152 sales representatives. One group of sales representatives was rewarded primarily for obtaining new sales and another primarily for retaining customers. Data pooled across the 2 groups showed that extraversion did not correlate significantly with either new sales or customer retention. However, moderator analysis revealed that extraversion was positively associated with the dimension of performance that was explicitly rewarded but not with the nonrewarded dimension. A significant correlation between conscientiousness and new sales, but not between conscientiousness and customer retention, was found with the pooled data. As expected, relationships between conscientiousness and sales performance were not moderated by reward structure.

Effects of maternal ethanol consumption on the subsequent development of immunity to Trichinella spiralis in rat neonates.

The immune response of rat pups to the intestinal parasite Trichinella spiralis was studied to determine if maternal pre- and/or postnatal ethanol consumption affected neonatal immune responses. Female rats were fed ethanol-containing (36% of calories) or pair-fed control liquid diets and include groups that were maintained on ethanol as follows: group 1, from day 1 of pregnancy through weaning and whose pups were then placed on ethanol to sacrifice; group 2, from day 1 of pregnancy through lactation; group 3, from day 1 of pregnancy through pup delivery; and group 4, from day 1 of lactation through weaning. A parallel group of animals was pair-fed isocaloric control diet until sacrifice. The pups of all litters were immunized orally with 500 L1 (T. spiralis) larva 5 days after weaning. To examine the effects of maternal ethanol on primary immune responses, one-fourth of the pups from each litter were sacrificed on days 10 and 20 after immunization. To examine the effects on neonatal secondary immune responses, the remaining pups were challenged with 1,000 larva 30 days after the initial immunization and sacrificed either 3 or 8 days after challenge. At the time of sacrifice, blood samples were collected, the intestine removed to determine T. spiralis worm burdens, and suspensions of mesenteric lymph node (MLN) cells prepared. Intestinal worm counts and serum levels of anti-T. spiralis IgM and IgG antibodies, interleukin-2 (IL-2), and tumor necrosis factor (TNF) were determined. In vitro proliferation responses of MLN cells to T. spiralis antigen and to the mitogen concanavalin A (Con A) were also examined. Pups from groups 1 to 3 demonstrated significantly higher intestinal worm counts (decreased immunity) than the pair-fed controls at the day 20 primary immune response sacrifice, and pups from group 1 had significantly higher worm counts at day 3 after a secondary immune challenge. Pups of dams from groups 1, 3, and 4 had significantly lower IgM antibody titers at the day 20 primary immune response sacrifice. All experimental ethanol groups (1 to 4) demonstrated significantly lower IgG antibody titers than that observed in pair-fed control pups at the 20-day sacrifice. IgM antibody titers showed significant reductions for ethanol-treated groups at 3 and 8 days after T. spiralis secondary challenge. In addition, IgG antibody titers were also significantly reduced for all alcohol groups at 3 and 8 days during the secondary immune response. Serum IL-2 and TNF levels were significantly lower in all experimental ethanol groups (1 to 4) relative to pair-fed controls at day 20 during a primary immune response, and IL-2 levels at 3 days postchallenge were lower in groups 2 to 4 after a secondary immune challenge. MLN proliferation responses to antigen and Con A were significantly reduced in ethanol groups 1 to 3 and to Con A in group 4 at day 10 after a primary immune challenge. Ethanol group 3 pups also demonstrated a reduced response to antigen at day 20. For animals undergoing a secondary immune response, ethanol group 2 demonstrated a reduced response to antigen at day 3, whereas groups 2 and 4 showed increased reactivity to antigen at days 3 and 8 postchallenge. These results show that maternal ethanol consumption diminishes the capacity of neonates to respond to T. spiralis antigen and that the depressed immune response involves T- and B-cell-mediated reactions and also affects the production of certain cytokines. These results also suggest that the diminished immune responses are increased with longer periods of maternal and neonatal exposure to ethanol.

Trichinella spiralis and Trichinella pseudospiralis induce collagen synthesis by host fibroblasts in vitro and in vivo.

Immunoperoxidase staining of muscle infected with Trichinella spiralis for murine collagen types I and IV provided both qualitative and quantitative evidence of extensive synthesis of both types of collagen by fibroblasts in infected muscle compared to that seen in uninfected muscle. Moreover, fibroblasts in muscle infected with T. pseudospiralis, a nonencapsulating species, showed significantly less staining for both types of collagen compared to muscle from mice infected with T. spiralis. Analysis of collagen composition of isolated nurse cells using an ELISA specific for either type I or type IV murine collagen suggested that of these 2 types of collagen, only type IV basement membrane collagen is found in Trichinella capsular collagen. Excretory/secretory products of T. spiralis and T. pseudospiralis induced extensive synthesis of exclusively type IV collagen by 3T3 murine fibroblasts in vitro.

A method for isolation and partial purification of Trichinella spiralis nurse cells.

Invasion of vertebrate muscle cells by larvae of Trichinella spiralis is accompanied by redifferentiation of the host myofiber into a novel structure called the nurse cell. The nurse cell protects and nurtures the enclosed parasite during its long stay in host muscle. It is anatomically independent of the surrounding uninfected muscle cells and can be isolated from host tissue by mechanical or enzymatic means. Current methods employed for this purpose have yielded only small numbers of nurse cells. An apparatus designed to isolate large numbers of nurse cells and a method for removal of all free larvae and most host muscle debris is described. Homogenization and trypsin digestion of muscle tissue was followed by passage of muscle/parasite suspensions maintained at 37 C through a jacketed glass column fitted with a 40-mesh stainless steel screen at the top and a Nitex screen with 150-microns-diameter pores at the bottom. Nurse cells were retained by the Nitex screen. Density gradient centrifugation using Percoll removed all free larvae and most contaminating muscle debris from nurse cell suspensions. The large quantities of nurse cells made available by this method will allow evaluation of the molecular biology, nutrition, biochemistry, and metabolism of the enclosed parasite and of the Trichinella-modified host muscle cell.

Successful immunization against Acanthamoeba keratitis in a pig model.

The feasibility of inducing protective immunity to Acanthamoeba keratitis was tested in a pig model. Experiments were designed to determine if ocular infection with Acanthamoeba trophozoites would elicit protection against reinfection. Additional experiments examined whether injection of parasite antigens either intramuscularly, subconjunctivally, or by both routes would induce immunity. Therefore, four groups of animals were examined: (a) pigs that had resolved a primary corneal infection with Acanthamoeba; (b) pigs immunized intramuscularly; (c) pigs immunized subconjunctivally; and (d) pigs immunized intramuscularly and subconjunctivally. Animals were subsequently challenged with parasite-laden soft contact lenses and observed clinically for the appearance of Acanthamoeba keratitis. Acanthamoeba-specific serum antibody titers and blastogenic responses of peripheral blood lymphocytes were determined weekly. The results indicated that intramuscular injection of Acanthamoeba antigens failed to protect against ocular infection even though hosts developed high titers of IgG antibodies and displayed lymphocyte blastogenic responses to parasite antigens. Ocular infection alone failed to stimulate immunity in any of the animals. By contrast, 50% of the hosts immunized subconjunctivally were protected against corneal disease, and 100% of the animals immunized by a combination of intramuscular and subconjunctival administration of parasite antigens were completely protected against two separate ocular challenges with infectious parasites. Protection did not correlate with either IgG antibody titers or blastogenic potentials of peripheral blood lymphocytes. Interestingly, ocular infection alone failed to stimulate immunity to subsequent ocular challenge with infectious parasites. Thus, administration of parasite antigen via the subconjunctival route can protect against Acanthamoeba keratitis.

Antibody-dependent neutrophil-mediated killing of Acanthamoeba castellanii.

Neutrophils from naive rats lysed low numbers of Acanthamoeba castellanii in the presence of normal rat serum and significantly higher numbers of the parasite in the presence of serum from immunized rats. With normal rat serum, neutrophils from rats immunized with crude parasite extract or from naive rats killed similar percentages of A. castellanii. However, neutrophils from immunized rats killed a significantly greater percentage of parasites in the presence of serum from immunized rats than was seen with any other combination of serum and neutrophils. The addition of supernatant from cultures of concanavalin A-stimulated rat spleen cells to incubations of the parasite in the presence of neutrophils from naive or immunized rats and immune serum resulted in the highest levels of amoebolysis seen in this study. This study has shown that neutrophils from naive rats or from rats immunized with A. castellanii antigen display a very limited amoebolytic capability which is significantly augmented in the presence of serum from immunized rats and further boosted by the addition of supernatant from Con A-stimulated rat spleen cell cultures.

Effects of levamisole on ethanol-induced suppression of lactational immune transfer in rats.

Maternal ethanol consumption in rats has been shown to inhibit lactational transfer of immunity to Trichinella spiralis (T. spiralis) from dams to their neonates. The purpose of this study was to determine if this depressed immune transfer could be altered by treating the dams with a known immunostimulatory drug during pregnancy and lactation. Groups of female rats were fed ethanol-containing or were pair-fed isocaloric control liquid diets for 30 days, infected orally with 1,000 T. spiralis larva, and then continued on diet for 10 days to allow the adult worms to establish. The animals were placed on chow diets (maximum 5 days) and mated 1 to 1 with males. On day 1 of pregnancy the animals were returned to their respective liquid diets through pregnancy and lactation. One-half of the ethanol-treated animals was given 15 mg/kg body weight of levamisole in the diet beginning on day 10 of pregnancy and continuing until day 17 of lactation. On day 19 of lactation, pups from all experimental groups were challenged orally with 200 T. spiralis larva, and killed at 3 or 8 days postchallenge. Assays for intestinal worm burdens, IgG anti-T. spiralis serum antibodies, and mesenteric lymph node cell proliferation were conducted. At both sacrifice periods, pups from ethanol-treated animals showed significantly higher intestinal worm counts (decreased immunity) and significantly lower titers of specific antibodies than the pups of pair-fed animals or pups of animals receiving levamisole in addition to ethanol.(ABSTRACT TRUNCATED AT 250 WORDS)

In vitro and in vivo tumoricidal properties of a pathogenic/free-living amoeba.

The chemotactic and tumoricidal properties of the pathogenic/free-living amoeba Acanthamoeba castellanii were examined in vivo and in vitro. A. castellanii trophozoites displayed strong positive chemotactic responses to human melanoma (OCM-1) and murine melanoma (D5.1G4) cells. Although the parasites typically invade and destroy the corneal epithelium and stroma, positive chemotactic responses were not detected against extracts of either of these corneal elements. In vitro studies revealed that viable parasites, as well as cell-free parasite lysates, produced swift and extensive cytolysis of a wide variety of tumor cells. The tumoricidal properties of A. castellanii were examined in vivo and revealed that injection of viable parasites or cell-free parasite lysates into progressively growing subcutaneous melanomas resulted in 83% and 53% reductions in the tumor masses compared with untreated controls. The feasibility of utilizing the tumoricidal properties of pathogenic/free-living amoebae and their cell-free products in the treatment of drug-resistant or radioresistant tumors warrants further investigation.

Modification of the ultrastructure of the muscle larva of Trichinella pseudospiralis following exposure to acidified pepsin solution.

Examination of the cuticle of Trichinella pseudospiralis by transmission electron microscopy revealed an epicuticle, exocuticle, and mesocuticle, each divided into several layers. The epicuticle consisted of an outermost thin plasmalemmalike infracuticular material covering an inner trilaminar membrane. The exocuticle was granular and could be divided into 2 regions on the basis of density. The mesocuticle was fibrillar and 3 regions could be distinguished based on the orientation of fibrils. The cuticle appears attached to the hypodermis by hemidesmosomes. The infracticular structure was altered following isolation of larvae by pepsin-HCl digestion of host muscle.

Characterization and pathogenic potential of a soil isolate and an ocular isolate of Acanthamoeba castellanii in relation to Acanthamoeba keratitis.

Acanthamoeba castellanii, one isolate from the eye and one from the soil, were compared on the basis of: (a) pathogenic potential; (b) plasminogen activator activity; (c) chemotactic activity; (d) cytopathic effects; (e) collagenolytic activity; (f) binding ability to contact lenses; and (g) and binding ability to corneal buttons. The ocular isolate of A. castellanii was found to be pathogenic based on its ability to produce corneal infections in Chinese hamsters. By contrast, the soil isolate produced only mild lesions in a single Chinese hamster. Amoebae from the ocular isolate bound to corneal epithelium in greater numbers than the soil isolate counterparts. Moreover, ocular isolate organisms displayed plasminogen activator activity that was not detected in cultures from soil isolates of A. castellanii. Although neither the soil isolate nor the ocular isolate amoebae responded chemotactically to epithelial or stromal components, the ocular isolate displayed a curious and reproducible positive chemotactic response to endothelial extracts. Both A. castellanii isolates produced cytopathic effects on pig corneal epithelium, however the cytotoxicity from the ocular isolate was significantly greater than that of the soil isolate. The results indicate that the pathogenic potential of A. castellanii is correlated with the parasite's capacity to bind to corneal epithelium, respond chemotactically to corneal endothelial extracts, elaborate plasminogen activators, and produce cytopathic effects on corneal epithelium.

Chemotactic response of macrophages to Acanthamoeba castellanii antigen and antibody-dependent macrophage-mediated killing of the parasite.

The chemotactic potential of antigens of Acanthamoeba castellanii for macrophages and the ability of naive and immune rat peritoneal macrophages to kill A. castellanii in vitro were assessed. The amoebolytic capacity of immune rat serum and complement was also examined. No parasite was killed in the presence of heat-inactivated naive rat serum. Low numbers of parasites were lysed in the presence of heat-inactivated immune rat serum, whereas significantly greater numbers of parasites were lysed in the presence of nonheat-inactivated naive and immune rat serum. Macrophages from naive rats were capable of lysing some parasites. However, the amoebolytic capability of these cells was significantly increased in the presence of serum from immune rats. Regardless of the source of serum used, macrophages from immune rats demonstrated about twice the amoebolytic proficiency of cells from naive rats. Macrophages from naive rats showed their highest capacity for lysing amoebae when incubated in the presence of gamma interferon and immune rat serum. The greatest overall proficiency in lysing parasites was displayed by cells from immune rats incubated with A. castellanii in the presence of gamma interferon and nonheat-inactivated serum from immune rats.(ABSTRACT TRUNCATED AT 250 WORDS)

The effects of maternal ethanol consumption on lactational transfer of immunity to Trichinella spiralis in rats.

Transient immunity to the intestinal parasite Trichinella spiralis can be transferred from the mother to the neonate during lactation. The goal of this study was to determine whether maternal ingestion of ethanol during pregnancy and lactation inhibited expression of anti- T. spiralis immunity in nursing pups. Groups of female rats were infected with 1000 T. spiralis L1 larva, mated, and fed either ethanol-containing or isocaloric liquid diets and maintained on diets through pregnancy and lactation or were fed the liquid diets for 30 days before T. spiralis infection, mated, and maintained on diets through pregnancy and lactation. Pups were challenged orally with 200 T. spiralis larva at 14 days postdelivery (preweaning period) or 21 days postdelivery (postweaning period) and were sacrificed either 3 or 8 days after respective challenge. Intestinal worm counts and serum titers of anti-T. spiralis IgG antibodies were determined for each pup. No difference in the number of intestinal worms between pups of ethanol-treated and pair-fed dams that received ethanol diet after T. spiralis infection was observed in the preweaning period. This was also true of pups from the dams sacrificed at 3 days after challenge in the postweaning period. However, similar pups sacrificed at 8 days after challenge showed significantly higher worm counts (decreased immunity) relative to their pair-fed controls. Pups of dams that received ethanol containing diet 30 days prior to T. spiralis-infection showed significantly higher numbers of intestinal worms relative to pair-fed pups at both the preweaning and postweaning periods.(ABSTRACT TRUNCATED AT 250 WORDS)

Susceptibility of corneas from various animal species to in vitro binding and invasion by Acanthamoeba castellanii [corrected].

A crucial requirement for establishing corneal infection by the extracellular protozoal parasite, Acanthamoeba, is the ability of the parasite to bind to the corneal surface. In a series of in vitro studies, we examined the ability of Acanthamoeba castellanii [corrected] to adhere, invade, and damage normal, intact corneas of 11 mammalian and one avian species. A. castellanii [corrected] (80-90% trophozoites and 10-20% cysts) were incubated with corneas for 24 hours in vitro and examined by scanning electron microscopy (SEM). Results of several independent SEM experiments revealed that parasites not only failed to produce cytopathic effects but did not even bind to the corneal epithelium of mice, rats, cotton rats, horses, guinea pigs, cows, chickens, dogs, and rabbits. However, parasites adhered, invaded, and produced severe damage to human, pig, and Chinese hamster corneas during the 24-hour in vitro incubation period. Additional in vitro experiments quantified the binding of A. castellanii [corrected] to the corneas of selected susceptible and nonsusceptible species. In vitro binding assays revealed scant binding of parasites to mouse, rat, and rabbit (range = 5-20 parasites/7.07 mm2 corneal button). In contrast, extensive binding was observed on Chinese hamster, pig, and human corneas (range = 100-200 parasites/7.07 mm2 button). The results indicate that A. castellanii [corrected] exercises rigid host specificity at the host cell surface.

A pig model of Acanthamoeba keratitis: transmission via contaminated contact lenses.

A model of contact lens-induced Acanthamoeba keratitis was developed in Yucatan micropigs. Pigs fitted with parasite-laden soft contact lenses developed corneal infections that clinically and histopathologically mimicked the human counterpart. Three distinct stages of disease became apparent and were categorized as: acute, condensed infiltrate, and resolution stages. Viable parasites were isolated from corneal scrapings and smears were taken during the acute and condensed infiltrate stages. In addition, cysts could be identified deep within the stroma of histological specimens taken during the resolution stages. The characteristic dense, white ring-like infiltrates, stroma edema, keratic precipitates, and the chronic nature of the infections were similar to those observed in human Acanthamoeba keratitis. Histopathological examination of infected corneas revealed extensive neutrophilic infiltrates, stromal necrosis, and disorganization of the collagen lamellae. The strong correlation between the clinical and histopathologic features of contact lens-induced Acanthamoeba keratitis in the pig as well as the anatomical similarity of the pig eye with the human eye make the porcine model a valuable tool for investigations of the immunology, cell biology, and therapy for Acanthamoeba keratitis.