Transmissible gastroenteritis of swine: Virus-intestinal cell interactions I. Immunofluorescence, histopathology and virus production in the small intestine through the course of infection

Pensaert, Maurice; Haelterman, Edwige; Burnstein, Theodore

doi:10.1007/bf01253767

Cited by 88 publications

(43 citation statements)

References 5 publications

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“…Thus, there was considerably less virus in the intestine of most 3-week-old principals than in newborn principals. Virus is produced in villous epithelial cells [18,221. Villi of 3-week-old pigs are 30-50:; shorter than those in newborn pigs and thus contain fewer epithelial cells [13,16,241.…”

Section: Discussionmentioning

confidence: 99%

Age-Dependent Resistance to Transmissible Gastroenteritis of Swine: III. Effects of Epithelial Cell Kinetics on Coronavirus Production and on Atrophy of Intestinal Villi

et al. 1975

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Abstract. Coronavirus titers in small intestine, degree of villous atrophy and apparent rates of regeneration of intestinal villi were compared in newborn, 3-week-old and adult pigs for 1 week after they were exposed to the transmissible gastroenteritis virus of swine. The response within the newborn group was homogeneous, resulting in high virus titers, maximal villous atrophy and comparatively slow regeneration. In general, virus titers were lower, villous atrophy was less severe and regeneration more rapid in both older groups than in the newborn pigs. However, the response varied greatly in the older groups. The 3-week-old group was divided into two populations. The major population had low virus titers and developed partial villous atrophy, whereas the minor population had marked villous atrophy and virus titers comparable to those of the newborn pigs. These observations support the hypothesis that the accelerated replacement of villous epithelium in the small intestine of pigs during the first 3 weeks contributes to the innate age-dependent resistance to transmissible gastroenteritis. The accelerated replacement of villous epithelial cells in older pigs contributes to resistance in two ways. The increased proliferative capacity of crypt epithelium results in a more rapid regeneration of atrophic villi; and the comparatively young villous absorptive cells resulting from accelerated replacement produce less virus per cell than the older ones of the newborn pig.Transmissible gastroenteritis of swine is an acute diarrheal disease caused by destruction of absorptive epithelial cells of the intestinal villi by a specific coronavirus. The resultant lesion is called villous atrophy. Crypt epithelium is not affected directly by the virus, and intestinal villi rapidly regenerate in pigs that survive the acute diarrheal phase of the disease [16]. Acute viral diseases of the small intestine in several species follow a similar sequence of selective cell destruction, leading to variable degrees of villous atrophy and diarrhea, followed by rapid regeneration of villi and the return of normal function. Epizootic diarrhea of infant mice [ 11, lethal intestinal virus infec-

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Section: Discussionmentioning

confidence: 99%

Age-Dependent Resistance to Transmissible Gastroenteritis of Swine: III. Effects of Epithelial Cell Kinetics on Coronavirus Production and on Atrophy of Intestinal Villi

et al. 1975

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“…In terms of pathogenesis and course, rotavirus infection in piglets resembled transmissible gastroenteritis (Pensaert, Haelterman and Burnstein, 1970) ; the lower mortality and less severe diarrhoea in rotavirus infection may be because the intestinal lesions spread more slowly and are less severe than in transmissible gastroenteritis, giving the piglets a better chance to adjust to the associated physiological disturbances.…”

Section: Rota Virus Infections In Piglets 331mentioning

confidence: 99%

Serial Studies of Virus Multiplication and Intestinal Damage in Gnotobiotic Piglets Infected with Rotavirus

Crouch

Woode

1978

Journal of Medical Microbiology

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“…In a piglet that showed diarrhea at 18 hr PI, villi were not totally naked. This finding was different from that of TGE in which exfoliation occurs severely and most enterocytes are detached [1,14,15,20].…”

mentioning

confidence: 64%

“…The vacuoles were fat-positive with the Scharlach stain [4]. The fatty degeneration might be due to an inability of the cell to transport fat to the lymphatics [15]. In this study, the colons of piglets experimentally infected with PEDV showed no obvious epithelial changes and the crypt epithelium was intact thereby preserving a regeneration capacity.…”

mentioning

confidence: 67%

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Detection of Porcine Epidemic Diarrhea Virus by Immunohistochemistry with Recombinant Antibody Produced in Phages.

Lee

Jtae

et al. 2000

J. Vet. Med. Sci.

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. Several diagnostic methods including immunofluorescence, enzyme-linked immunosorbent assay, polymerase chain reaction and immunohistochemistry have been developed for the detection of porcine epidemic diarrhea virus (PEDV). An immunohistochemical method using a new recombinant antibody produced by a phage antibody system (PAS16) kit was investigated and compared with that using a monoclonal antibody for PEDV detection in PEDV-infected piglets. In both the immunohistochemical methods, PEDV antigens were detected in the cytoplasm of villous enterocytes and in the macrophages infiltrated in the lamina propria at 18 to 110 hr post inoculation. The positive signals with the recombinant PAS16 antibody were similar to those with the monoclonal antibody. This result suggests that the recombinant PAS16 antibody can be applicable for the rapid immunohistochemical diagnosis of PEDV infection. and the pathogen was diagnosed as PEDV by PCR [13]. The fecal samples of piglets were emulsified by 30% with phosphate buffered saline (PBS). The emulsions were centrifuged at 13,400 × g for 15 min. The supernatant was treated with antibiotics for 2 hr at 37°C and then passed through a 0.2-µm filter. Ten colostrum-deprived piglets were reared in three positive plastic isolators at 30°C. All piglets were fed with sterilized milk replaces. Seven piglets were inoculated per os with 5 ml of fecal samples of PEDV and one piglet was inoculated with KPEDV-9 (Korean strain) as a positive control. Two piglets were inoculated with PBS as negative controls. The animals were observed at regular intervals for signs of diarrhea. Piglets showing diarrhea were immediately killed by cutting the carotid blood vessels. Tissues were fixed in 10% phosphatebuffered formalin, dehydrated, embedded in paraffin wax,

show abstract

Transmissible gastroenteritis of swine: Virus-intestinal cell interactions I. Immunofluorescence, histopathology and virus production in the small intestine through the course of infection

Cited by 88 publications

References 5 publications

Age-Dependent Resistance to Transmissible Gastroenteritis of Swine: III. Effects of Epithelial Cell Kinetics on Coronavirus Production and on Atrophy of Intestinal Villi

Age-Dependent Resistance to Transmissible Gastroenteritis of Swine: III. Effects of Epithelial Cell Kinetics on Coronavirus Production and on Atrophy of Intestinal Villi

Serial Studies of Virus Multiplication and Intestinal Damage in Gnotobiotic Piglets Infected with Rotavirus

Detection of Porcine Epidemic Diarrhea Virus by Immunohistochemistry with Recombinant Antibody Produced in Phages.

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