SJ Andrews scite author profile

Two cathepsin L proteinases, cathepsin L1 and cathepsin L2, secreted by liver flukes may be involved in tissue penetration, nutrition, and protection from immune attack. To ascertain the immunoprophylactic potential of these proteinases, and of another molecule, liver fluke hemoglobin (Hb), we performed vaccine trials in cattle. In the first vaccine trial various doses of cathepsin L1 were tested. The mean protection level obtained was 53.7%. In a second vaccine trial cathepsin L1 and Hb elicited 42.5 and 43.8% protection levels, respectively, while a combination of the two molecules induced a significantly higher level of protection (51.9%). Cathepsin L2 was not examined alone; however, vaccination of cattle with a combination of cathepsin L2 and Hb elicited the highest level of protection (72.4%). The animals that received cathepsin L1-Hb or cathepsin L2-Hb showed reduced liver damage as assessed by serum glutamic dehydrogenase and gamma-glutamyl transferase levels. Furthermore, a reduced viability was observed for fluke eggs recovered from all vaccine groups. This anti-embryonation effect of vaccination was particularly evident in the group that received cathepsin L2-Hb where >98% of the eggs recovered did not embryonate to miracidia. Although all vaccine preparations induced high antibody titers which were boosted following the challenge infection, there was no correlation between antibody titers and protection. The results of these trials demonstrate that cathepsin Ls and Hb could form the basis of a molecular vaccine that would not only reduce parasite burden but would also prevent transmission of liver fluke disease.

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Correlation of specific antibody titre and avidity with protection in cattle immunized against Fasciola hepatica

Mulcahy

O'Connor

McGonigle

et al. 1998

Vaccine

132

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Immune responses of cattle to experimental anti-Fasciola hepaticavaccines

Mulcahy

O'Connor

Clery

et al. 1999

Research in Veterinary Science

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Vaccination against Haemonchus contortus with denatured forms of the protective antigen H11

Munn

Smith

et al. 1997

Parasite Immunology

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As part of a systematic examination of the protective epitopes on H11, groups of sheep were vaccinated with preparations of purified H11 used untreated (group A), or progressively denatured (linearized) by incubation with sodium dodecyl sulphate (SDS) (group B) or by boiling with SDS in the presence of dithiothreitol (group C). All the sheep developed antibodies which bound to the untreated H11. When challenged with 10,000 infective larvae of Haemonchus contortus the mean levels of protection relative to the mean values for adjuvant controls were 99.8%, 85% and 79% for faecal egg counts and 95%, 79% and 54% for worm burden at post-mortem for groups A, B and C respectively. The H11-specific antibodies inhibited the microsomal aminopeptidase activity of H11 in vitro up to 80%. The levels of inhibition by sera from individual animals correlated with levels of protection with r2, of 0.69-0.87.

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Prevalence of the Leptospira serovars bratislava, grippotyphosa, mozdok and pomona in French dogs

Renaud

Andrews

Djelouadji

et al. 2013

The Veterinary Journal

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SJ Andrews

Induction of protective immunity in cattle against infection with Fasciola hepatica by vaccination with cathepsin L proteinases and with hemoglobin

Correlation of specific antibody titre and avidity with protection in cattle immunized against Fasciola hepatica

Immune responses of cattle to experimental anti-Fasciola hepaticavaccines

Vaccination against Haemonchus contortus with denatured forms of the protective antigen H11

Prevalence of the Leptospira serovars bratislava, grippotyphosa, mozdok and pomona in French dogs

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