Damage and early destruction of Taenia taeniaeformis larvae in resistant hosts, and anomalous development in susceptible hosts: a light microscopic and ultrastructural study

Bortoletti G., Conchedda M. and Ferretti G. 1985. Damage and early destruction of Taenia taeniaeformis larvae in resistant hosts, and anomalous development in susceptible hosts: a light microscopic and ultrastructural study. International Journal for Parasitology15: 377–384. Taenia taeniaeformis larvae in resistant C57 mice have been studied from 5th to 15th day post-infection (L5–L15) both at the light and electron microscopic level. L5 stages were already damaged and total destruction occurred by approx. 15 days post-infection. In stage L5, unlike fertile larvae from C3H mice, the perilarval amorphous layer (PAL) was generally absent, and the host's cells were in close contact with the parasite surface. At this stage eosinophils were already present together with neutrophils and macrophages. Larvae were seen increasing in volume between stages L6 and L8, but remained constant from stages L9 to L14, while both the tegumental distal cytoplasm (TDC) and the subtegumental cellular layer (SCL) gradually decreased. In stages L10–L14 only a narrow TDC separated the larval cavity from host cells. After the larval tegument had been reduced in thickness the eosinophil lytic enzyme release onto the parasite surface contributed to produce a ‘hole’ in the TDC where host cells penetrated and gradually filled the larval cavity of L15, destroying the parasitic residues. Therefore anomalous small larvae (L50 and more) from C3H mice (susceptible host) have been studied: in these the scolex anlagen was absent or greatly reduced; the TDC was very narrow and the SCL greatly damaged. Outside the larva the ‘host tissue’ appeared as an unidentifiable amorphous material. These larvae cannot be considered ‘dead’ but are defined as sterile.     

Ultrastructural aspects of early immune damage to Taenia crassiceps metacestodes

Siebert, A. E. Jr., Good A. H. and Simmons J. E. 1978. Ultrastructural aspects of early immune damage to Taenia crassiceps metacestodes. International Journal for Parasitology8: 45–53. Changes in the ultrastructure of the tegument and subtegumental cells of intraperitoneally implanted Taenia crassiceps metacestodes were studied by transmission electron microscopy over a 4-week period. Death of metacestodes without involvement of host inflammatory cells is indicated initially by vacuolization of the larval tegument followed by loss of the tegument and subsequent death of the larvae. Changes in the tegument involve loss of the glycocalyx, reduction in the numbers of mitochondria and microtriches present, and loss of secretory capacity. Subtegumental cells show an accumulation of secretory vacuoles and marked disruption of nuclear morphology. Tegument damage is attributed to a complement-mediated lysis of the outer tegument membrane and death of the larvae probably results from loss of tegument function.     

Interactions between Taenia taeniaeformis and host cells in vitro: rapid adherence of peritoneal cells to strobilocerci

Engelkirk P. G., Williams J. F. and Signs M. M. 1981. Interactions between Taenia taeniaeformis and host cells in vitro: rapid adherence of peritoneal cells to strobilocerci. International Journal for Parasitology11: 463–474. Strobilocerci of Taenia taeniaeformis, incubated for l h in vitro with various combinations of serum and peritoneal cells from infected or non-infected rats, were examined at the ultrastructural level for evidence of cell adherence and tegumental damage. Maximal adherence and surface alterations occurred when larvae were incubated in the presence of cells and fresh serum. This was true regardless of whether the cells or the serum had been obtained from infected or non-infected donors. No tegumental damage was seen when parasites were incubated with or without cells in the absence of serum. Serum enhancement was either much reduced or abolished by heat treatment (56°C for 1 h). In the presence of EDTA, tegumental lesions still developed, but adherence of cells, especially those from non-infected rats, decreased markedly. The predominant cells interacting with the larval surface were eosinophils; these took up parasite material within phagosomes and appeared to strip microtriches from the tegumental free surface. Mast cells, some of which became degranulated, were also present in the adherent cell masses. The results indicate that potent non-specific effector mechanisms can rapidly damage the tegument of T. taeniaeformis, in vitro, in contrast to the failure of recognition and rejection by host defenses in vivo. Established strobilocerci are therefore not invulnerable but the balance of the host-parasite relationship in vivo must favor their survival.     

Taenia crassiceps: effect of normal and immune serum on metacestodes in vitro.

The effect of normal and immune serum on Taenia crassiceps larvae in vitro was assessed by Evans blue dye uptake and electron microscopy. Normal guinea pig, rabbit, goat, and fetal calf serum did not have any significant detrimental effects upon the larvae after 7 days of culture in vitro. Culture for 7 days in normal mouse serum resulted in some loss of tegumental microtriches but the tegument itself remained intact. Culture in hyperimmune rabbit serum resulted in complete loss of the tegument and disruption of subtegumental structures within 48 hr. The effects of immune mouse serum in vitro closely paralleled those previously seen during early immune damage in vivo. Immune serum taken 2 to 4 weeks after secondary intraperitoneal infection with T. crassiceps metacestodes caused loss of the larval tegument and degeneration of the subtegumental tissues after 7 days in culture, whereas immune mouse serum taken 6 weeks after secondary infection caused only minor ultrastructural changes and appeared to be less toxic to larvae than normal mouse serum. Although complement appeared to increase the number and severity of the tegumental lesions, the presence of heat-labile components of complement was not essential for mediation of tegumental damage by immune mouse serum.     

Taenia taeniaeformis (Cestoda) in the rat: ultrastructure of the host-parasite interface on days 8 to 22 postinfection

The host-parasite interface was examined at the ultrastructural level 8 to 22 days postinfection (DPI) with metacestodes of Taenia taeniaeformis in the rat. Throughout this phase of development the parasite surface was invested with a dense surface coat of complex microtriches. At 8 to 14 DPI the plasma membrane of each microthrix extended beyond the distal end of the electron-dense tip, forming a slender tubular streamer over 10 microns long; by 18 DPI these had shortened and withered. Host cell processes interdigitated with the microtriches without evidence of harm to the parasite surface or the underlying tegument. The cells, on the other hand, became damaged, and their contents were shed into the matrix surrounding the microtriches. Lipid inclusions appeared within the parasites, and in the cytoplasm of surrounding inflammatory cells. By 22 DPI fibroblastic activity had resulted occasionally in the formation of a capsule surrounding a free-floating cysticercus, while in others intense granulocytic infiltration persisted with abutment and intermeshing of host cell and parasite surface processes; however there was still no evidence of any adverse effect on the microtriches, though many granulocytes were clearly pyknotic and degenerating. Evidently, the vigorous cellular response of the host is ineffective in either containing the expansion of the parasite or compromising the integrity of its surface membrane. The changing characteristics of the microtriches may be related to the need for dissolution of both intercellular matrices, and host cells as the vesicular organism rapidly increases in volume.     

Taenia solium: cell reactions to the larva (Cysticercus cellulosae) in naturally parasitized, immunized hogs

In hogs naturally infected with Taenia solium larvae (i.e., Cysticercus cellulosae), we studied the host response induced by antigens obtained from the larvae. Histopathological studies of cysticerci removed after 4 and 8 weeks of immunization showed an intense inflammatory reaction surrounding the larvae. The response was greater in the 8-week specimens. A dense layer of eosinophils was in close contact with the external membrane of the bladder wall and, in several cases, the eosinophils had infiltrated this tegument. Many eosinophils were seen in the spiral canal of larvae. This infiltration by eosinophils increased with time. Preparations from the 8-week samples showed many degenerated and disrupted eosinophils whose granules were found in close contact with the outer membrane of the larval tegument and, in some cases, had entered through the broken surface of this structure. More than 90% of the larvae were found in various stages of degeneration; the rest were completely destroyed and surrounded by a mass of eosinophils. After immunization, peripheral blood eosinophilia increased to 17%, whereas the eosinophilia of the control hog was 4% throughout the study. The larval worms removed from control hogs showed intact structures, with a low degree of infiltration by eosinophils and a discrete inflammatory reaction surrounding the bladder wall of the larvae.     

Ultrastructural aspects of the host cellular immune response to Taenia crassiceps metacestodes.

When three Taenia crassiceps metacestodes were injected intraperitoneally into C3H mice primed by previous subcutaneous inoculation of metacestodes, larvae which were resistant to early immune damage by the humoral response were encapsulated by host cells and rejected. Initially, normal larvae were encapsulated primarily by eosinophils and macrophages. In the early stages of encapsulation, both cell types showed severe degenerative changes and disruption of cell membranes, but there was no evidence of tegumental damage to the encapsulated larvae. Later, mast cells appeared in the capsules surrounding the larvae. After mast cells became common, all of the cell types present were normal, and damage to the larval Tegument became apparent. Ultimately, interaction of eosinophils, mast cells, macrophages, and lymphocytes resulted in death of the encapsulated larvae. These results suggest that larvae may secrete substances toxic to host cells, and that mast cells are necessary for rejection of larvae.     

Taenia larvae possess distinct acetylcholinesterase profiles with implications for host cholinergic signalling

Larvae of the cestodes Taenia solium and Taenia crassiceps infect the central nervous system of humans. Taenia solium larvae in the brain cause neurocysticercosis, the leading cause of adult-acquired epilepsy worldwide. Relatively little is understood about how cestode-derived products modulate host neural and immune signalling. Acetylcholinesterases, a class of enzyme that breaks down acetylcholine, are produced by a host of parasitic worms to aid their survival in the host. Acetylcholine is an important signalling molecule in both the human nervous and immune systems, with powerful modulatory effects on the excitability of cortical networks. Therefore, it is important to establish whether cestode derived acetylcholinesterases may alter host neuronal cholinergic signalling. Here we make use of multiple techniques to profile acetylcholinesterase activity in different extracts of both Taenia crassiceps and Taenia solium larvae. We find that the larvae of both species contain substantial acetylcholinesterase activity. However, acetylcholinesterase activity is lower in Taenia solium as compared to Taenia crassiceps larvae. Further, whilst we observed acetylcholinesterase activity in all fractions of Taenia crassiceps larvae, including on the membrane surface and in the excreted/secreted extracts, we could not identify acetylcholinesterases on the membrane surface or in the excreted/secreted extracts of Taenia solium larvae. Bioinformatic analysis revealed conservation of the functional protein domains in the Taenia solium acetylcholinesterases, when compared to the homologous human sequence. Finally, using whole-cell patch clamp recordings in rat hippocampal brain slice cultures, we demonstrate that Taenia larval derived acetylcholinesterases can break down acetylcholine at a concentration which induces changes in neuronal signalling. Together, these findings highlight the possibility that Taenia larval acetylcholinesterases can interfere with cholinergic signalling in the host, potentially contributing to pathogenesis in neurocysticercosis.     

Kinetics of primary and secondary infections with Taenia crassiceps metacestodes (Zeder, 1800) rudolphi, 1810 (cestoda: cyclophyllidea)

Siebert A. E. Jr., Good A. H. & Simmons J. E. 1978. Kinetics of primary and secondary infections with Taenia crassiceps metacestodes (Zeder, 1800) Rudolphi, 1810 (Cestoda: Cyclophyllidea). International journal for Parasitology8: 39–43. When three T. crassiceps metacestodes were inoculated intraperitoneally in mice as a primary infection, approximately 50% of the larvae recovered during the first 4 weeks after inoculation were found to be dead, while in mice primed by previous subcutaneous inoculation, about 85% of the larvae died. Larvae which survived the first 4 weeks following primary intraperitoneal inoculation reproduced asexually by exogenous budding and produced viable infections within the host mice. But larvae in secondary infections were encapsulated by host granulomata, failed to reproduce asexually, and did not produce viable infections. In mice given intraperitoneal inoculations of seven, ten and twenty metacestodes, fewer larvae were killed and little encapsulation response was noted, though host cells were common at the budding region of the larvae. Such a biphasic host-response to the infection has not previously been reported for larval cestode infections, and the reduction in host response associated with increased worm burdens may indicate possible depression of the host immune system.     

Taenia taeniaeformis: Increased cell growth and neutral mucus production in the gastric mucosa of the rat with a larval infection

Gross hyperplasia of the gastric mucosa and excessive mucus production in the stomach occur in rats heavily parasitized with larvae of Taenia taeniaeformis. In this study, a positive correlation between the number of larvae recovered from hepatic cysts and the weight of the stomachs of infected rats was found. By light microscopy, the hyperplasia was restricted to the glandular mucosa. Parietal and chief cells were very rare, and densely PAS-positive mucous cells were the major cell types in the hyperplastic stomach while, in comparison, alcian blue-positive cells were much fewer in number. The isolated gastric mucosa in organ culture had an increased [³H]thymidine incorporation rate in rats infected with T. taeniaeformis. The hexosamine concentration per milligram protein in the hyperplastic stomach mucosa was twice that in the control rat stomach mucosa. By electron microscopy, the apical cytoplasm of the mucous cells was found to be filled with small dark granules. These results indicate that the gastric hyperplasia is caused by stimulation of growth and major differentiation of stem cells to neutral mucus-producing cells.     

The fate of Taenia taeniaeformis oncospheres in normal and passively protected rats

Rats were passively protected against challenge infection with Taenia taeniaeformis by the administration of immune serum. Macroscopic liver lesions were rarely seen following challenge. The fate of oncospheres was determined by histological examination of rat livers at various intervals after infection, and also by in vitro experimentation.Oncospheres were killed soon after exposure to immune serum in vitro, but numbers reaching the liver were not significantly different in both passively protected and control rats. Oncospheral reorganisation did not take place in passively protected rats. In control rats, only 20 per cent of oncospheres reaching the liver were able to undergo reorganisation. Developing larvae also appeared to be susceptible to host rejection mechanisms, especially between days 5 and 9 after infection.     

Instars ofMicroplitis rufiventris [Hym.: Braconidae] and their relative developmental speed under different photoperiods

The internal parasiteMicroplitis rufiventris Kok. passes through 3 instars but moults 3 times within its host. The last moult occuring just at emergence time. The morphology of the egg and larval stages of the parasite are discussed. At 27°C and a photoperiod of 6 h (6L:18D) the endo-developmental cycle of the parasite can summarize as follows: Egg 18–24 h; instar 1,4 days (fighting phase 48 h; feeding phase 30–48 h); instar 2, 12–18 h and instar 3,3 days. The effect of different photoperiods on the relative speeds of the endo-developmental stages of the parasite at each of 30, 25, 20°C were carefully studied. At the first 2 temperatures, the short photoperiod (6L:18D) accelerated the development of larval instars, while both of 18L:6D or 0L:24D slowed down the development. Under the latter photoperiods some larvae failed to moult and had emergence problems. The influence of photoperiod is significantly noticeable at 20°C. The incubation period of the egg-stage was prolonged significantly at 18L:6D and the development of larval instars was significantly faster and refined at 6L:18D. The factor(s) inhibiting the development of the egg-stage perhaps differ from those affecting the larval development. The ventral area of the host mid-gut among malpighian tubes seems to be where the surplus parasite larvae are eliminated by physical attack. A physiologically suppressed parasite larva is able to attack its developed competitor of the same age. Teratocytes cells perhaps play a part in eliminating the surplus parasite larvae by physiological suppression.     

A single oral treatment with mebendazole for the control of Taenia crassiceps larval infections in rats.

A single oral treatment with mebendazole for the control of Taenia crassiceps larval infections in rats. International Journal for Parasitology9: 73–76. Rats infected with Taenia crassiceps larvae were treated with mebendazole. At a sublethal dose level of 50 mg/kg, a single large oral treatment proved to be markedly more effective in killing cysts than the same amount of drug divided into 10 daily smaller doses. Levamisole promoted a vigorous host cellular response to the intraperitoneal cysts, but when incorporated with mebendazole, it did not enhance the action of the latter drug.     

Differentiation of the tegument and associated structures in Diphyllobothrium dendriticum Nitsch (1824) (Cestoda: Pseudophyllidea). An electron microscopical study

Grammeltvedt Anne-François 1973. Differentiation of the tegument and associated structures in Diphyllobothrium dendriticum Nitsch 1824 (Cestoda : Pseudophyllidea). An electron microscopical study. International Journal for Parasitology3: 321–327. The differentiation of the tegument and associated structures of the coracidium, procercoid, plerocercoid and adult is described. The embryophore is composed of four zones and is covered by a fibrous layer resembling a glycocalyx. The oncospheral plasma membrane is extensively folded. A typical cestode tegument, with a distal and perinuclear cytoplasm, is probably already existing in the coracidium. The formation of the microvilli starts after about three days in the copepod host. In young procercoids ribosomes and Golgi complexes were observed in the distal cytoplasm. These organelles disappear at later stages. The infective procercoid has a typical tegument. The microvilli are shaped like a thorn compressed from the sides. They have an electron dense tip and a less dense base in which microfilaments are seen. Bodies, called disc-shaped and lamellated bodies, are described. The microvilli of the plerocercoid are characterized by a great variation in shape. The villi are bounded by two unit membranes. The lamellated bodies are especially well developed. The adult microvilli are uniform in shape. The lamellated bodies are few in young adults and disappear in mature worms.     

Host suitability and fitness-related parameters of Campoletis sonorensis (Hymenoptera: Ichneumonidae) as a parasitoid of the cabbage looper,Trichoplusia ni (Lepidoptera: Noctuidae)

The seven age-classes of Trichoplusia ni (Hübner) larvae evaluated in this study as hosts of Campoletis sonorensis indicates that early 2nd larval instar (3–5 day-old larvae) of T. ni represents the most suitable host stage for the development of the larval endoparasitoid C. sonorensis. The higher suitability of early 2nd larval instar of T. ni resulted in more parasitised larvae, a higher rate of successful parasitoid emergence, a higher rate of female progeny, and a lower rate of immature parasitoid mortality. The fitness gain of C. sonorensis on late 1st larval instar (2 day-old larvae) and late 2nd larval instar –early 3rd instars (6–8 day-old larvae) stages of T. ni is negatively affected by the trade-offs between the different physiological and behavioral characteristics influencing their suitability as hosts of C. sonorensis.     

Morphological changes in cysticerci of Taenia taeniaeformis after mebendazole treatment.

The progressive micromorphological changes in Taenia taeniaeformis cysticerci, induced by a single parenteral treatment of the infected mice with mebendazole, are described. The time-related alterations concerned the tegument and tegumental cells and were successively: disappearance of microtubules, accumulation of secretory substances in the Golgi areas, decrease in number to complete loss of microtriches, "ballooning" of all tegumental cells with subsequent burst, vacuolization and degeneration of the tegument, and finally necrosis of the pseudoproglottids. Similar but less pronounced injuries were seen in the scolices, although microtubules disappeared as early as in the pseudoproglottids. Microtubules from the host tissues remained intact. The meaning of the apparent primary interference of mebendazole with the microtubular system in relation to the subsequently observed death of the cysticercoids is discussed.     

Tegument and apical end organ fine structure in the metacestode and adult Proteocephalus ambloplitis

The tegument of plerocercoid and adult P. ambloplitis was examined. Differences in tegument structure existed between these two stages. Plerocercoids of P. ambloplitis lacked extensive vacuolization and unicellular gland cells characteristic of adult tegument. Plerocercoid microtriches were short and conoid; adult microtriches were lenticular with an extended, whip-like shaft. An inclusion, not previously reported from proteocephalid cestodes, is described. Adult tegument had ducts, originating from underlying unicellular glands, extending through the distal cytoplasm and opening to the exterior between microtriches.

The apical end organ cavity of P. ambloplitis contained numerous labyrinth-like spherical bodies. These structures appeared to be synthesized and secreted into the end organ by a thin cellular lining of the end organ. This lining was composed of discrete, filamentous cells believed to be modified subtegumental cell bodies. Spherical structures identical to those observed within the end organ cavity occurred within this cellular lining. The spherical bodies may be associated with enzymes necessary for tissue migration by the metacestode.     

Factors influencing the developmental capacity of Galleria larval epidermis

The nature of the cuticle secreted by integument from a day-1 penultimate instar larval Galleria when cultured in vivo in the abdomen of a last instar larva varied with the age of the host. When placed in a day-5 last instar larva, the implanted integument secreted a pupal cuticle at the time the host metamorphosed and became a pupa. However, when placed in a day-7 last instar larva the implant, from the same stage donor, secreted a larval cuticle at the time the host pupated. Experimental studies involving implantation of the integument for a 24 hr period, into various developmental stages of normal and ligated last instar larvae, pupae, and pharate adults, prior to placing it in a day-7 last instar larva suggest that a non-hormonal factor present in day-4 and -5 last instar larvae is important to initiate pupal syntheses.     

Taenia taeniaeformis: Gastrointestinal hyperplasia in chronically infected rats

Hyperplastic pathological changes in the gastrointestinal tract and serum gastrin levels were measured at postmortem in rats given long-term infections with metacestodes of Taenia taeniaeformis. Stomach weights were greater than in controls from the beginning of the experiment at 63 days postinfection (DPI) onward, and generally reached highest levels (>16 g) in the more chronically infected rats (up to 368 DPI). Gross and histological evidence of papillary hyperplasia of gastric mucosal cells increased with duration of infection. Intestinal weights also increased with time, but to a much lesser degree than those of the stomachs. These changes were sustained throughout the period of study, and were associated with significant elongation of villi and increased mucosal crypt depth, especially in the duodenum. In the most chronically infected rats multiple cystic dilatations of crypts occurred, and within them accumulated masses of mucus and necrotic cells often became calcified. Villi, sometimes over 1 mm in length, became club-like and frequently fused together. Mucosal mast cell (MMC) numbers in the small intestine were significantly higher than in controls throughout infection. Hyperplastic changes were detected inconsistently in the colonic mucosa, but there were no effects on the esophagus. Splenomegaly was a constant finding in infected rats, which also showed an earlier onset of thymic atrophy than normal age-matched controls. Serum gastrin levels were elevated in all affected rats at 5 months postinfection, but by the end of the first year some animals had normal gastrin levels, even though they showed severe hyperplastic gastroenteropathy at necropsy. Attempts to induce changes in gastric and intestinal weights, MMC numbers, or serum gastrin by the serial inoculation of extracts or in vitro products of T. taeniaeformis strobilocerci were unsuccessful. Surgical implantation of strobilocerci intraperitoneally also produced no measurable changes in these parameters. The results suggest that the hyperplastic stimulus provided by T. taeniaeformis is sustained for many months, and that there is a gradient of responsiveness in gastrointestinal tissues, declining from the glandular stomach mucosa posteriorly. The stimulus may be augmented by endogenous gastrin, but this hormone is not necessary for maintenance of hyperplastic changes. Our failure to induce changes in vivo artificially suggests that more subtle criteria, perhaps involving in vitro influences on gastric or intestinal cell turnover, will be necessary to establish if the parasite exerts its effects on host cells directly or indirectly.     

Food utilization values of gypsy moth Lymantria dispar (Lepidoptera: Lymantriidae) larvae infected with the microsporidium Vairimorpha sp. (Microsporidia: Burenellidae)

Infection of the gypsy moth, Lymantria dispar, with the microsporidium Vairimorpha sp. strongly influences the development of the host in ways typical of many species of terrestrial entomopathogenic Microsporidia; growth is reduced while development time is extended in infected insects. The appearance of the different stages of the parasite in the host relative to the elapsed time after oral infection, as well as the influence of the parasite proliferation on food utilization of the host, were examined. At 3 days postinfection, midgut muscle cells were infected with primary spores, and the fat body tissues contained meronts, sporonts, and primary spores. Many more fat body cells contained vegetative stages and primary spores at 4 and 5 days postinfection, and diplokaryotic spores and immature octospores were also present. Approximate digestibility of infected larvae increased during this time period, whereas the conversion of ingested and digested food to body substance decreased. The relative growth rate of infected and uninfected groups did not differ significantly between 4 and 5 days postinfection, although the relative consumption rate in infected L. dispar larvae was higher. Between 8 and 10 days postinfection, the relative growth rate of uninfected larvae increased. The infected group did not demonstrate this increase at a time period characterized by maturation of diplokaryotic spores and octospores in larval fat body tissues. Total body weight of uninfected larvae remained higher than that of infected larvae after 8 days postinfection.