Clostridial diseases

Polyvalent clostridial vaccines contain a complex mixture of toxoids and bacterins from up to eight different species. They are normally administered in two doses and elicit responses that are protective for at least a year. Studies however suggest that antibody levels peak about 36 days after vaccination and are maintained up to 90 days before declining rapidly. They may be undetectable by 6 months. Factors other than antibodies must be responsible for the prolonged immunity seen in practice. As might be expected, large individual variations in response occur between animals. Additionally, some antigenic competition occurs in these complex mixtures. Cl. tetani and Clostridium novyi type B are immunodominant and induce the highest antibody levels whereas Clostridium septicum the lowest.

Tetanus is a potential risk at docking and castration time. If their ewes were vaccinated when pregnant then revaccination of lambs is unnecessary. Vaccination at the time of docking or castration of lambs may not be protective because it takes about 7 to 10 days for antitoxic immunity to develop. Tetanus antitoxin should be used to provide immediate protection in such cases. Maternal antibodies will probably protect lambs and kids for about two months depending on their titer.

Footrot

Footrot is a common, complex, and important disease in the sheep industry. It is a painful and debilitating infection of the interdigital skin and is the most important cause of lameness in sheep. Footrot is primarily caused by a complex mixture of bacteria of which the most important is an anaerobic gram-negative bacterium, Dichelobacter nodosus. Infection by D. nodosus is preceded and accompanied by maceration and colonization of the interdigital skin by Fusobacterium necrophorum. Footrot causes significant losses because animals must be treated and/or culled. Based on the antigenicity of their fimbriae there are 10 major serogroups of D. nodosus (A-I and M), and within these serogroups there are additional serotypes. (Other classification systems have identified as many as 21 serotypes). Immunity is serogroup specific and multiple different serogroups may be found within a single sheep flock.

Sheep and goats can be immunized against footrot using vaccines against D. nodosus containing either whole cell antigens or fimbrial antigens. Whole cell vaccines are rarely protective against heterologous subgroups. The fimbriae provide the major antigenic determinants (also called epitopes) and as such are the major protective antigens. These fimbriae are composed of repeating protein subunits called pilins. Pilin monomers, although antigenic are not protective. Denatured fimbriae are not protective either. However, fimbriae containing pilin polymers are as effective as whole cell vaccines. These fimbrial antigens may be derived by physicochemical methods or produced in recombinant organisms.

Autogenous, outbreak-specific footrot vaccines have also been used successfully. In flocks infected with just one or two serogroups, serogroup-specific fimbrial or whole cell vaccines may be effective and permit eradication of the disease. If flocks are infected by more than one serogroup then sequential vaccination cycles using monovalent vaccines given at three-monthly intervals over several years may also prove effective.

Footrot is a seasonal disease because it results from animals standing in water and mud for prolonged periods. The vaccine should be given four months before the start of the “wet” season. Because duration of immunity is so short, sheep may require boosting every three to six months.

Vaccination for footrot is simply another tool that should be used in conjunction with other procedures, such as regular foot trimming and foot soaking in disinfectant baths in an effort to eliminate the infection.

Caseous lymphadenitis

This disease of sheep is caused by Corynebacterium pseudotuberculosis. It causes abscess formation in lymph nodes. If the organism becomes systemic it can cause a chronic wasting disease. C. pseudotuberculosis also causes an acute disease of buffalo called edematous skin disease. Caseous lymphadenitis results from wound infections and may be associated with poor hygiene during shearing. It is a robust organism and can persist in the environment for up to a year. A formalin-inactivated bacterin using biovar 1 is used in healthy sheep and goats over three months of age. Adverse reactions have occurred in goats given the sheep vaccine. Once the prevalence of infection is reduced to a low level then infected animals should be culled rather than vaccinated.

Campylobacter fetus

Campylobacter fetus is one of the most common causes of abortion, late fetal loss in ewes, and the birth of dead or weak lambs. It is rarely a problem in goats. It may be prevented by vaccination given shortly before breeding. Two inactivated vaccines are available in the United States. They contain both C. fetus and Campylobacter jejuni. A third vaccine is available in Australia and New Zealand. This may contain multiple C. fetus strains (DL42, 6/1, 134) in addition to C. jejuni. Immunity develops in about 21 days. Do not use the vaccine licensed for cattle in sheep.

Bacterial pneumonia

Bronchopneumonia caused by Pasteurella multocida, Bibersteinia trehalosi, and Mannheimia haemolytica is common in sheep and goats of all ages. It may be especially important in young lambs that have received insufficient colostrum. These organisms are normal inhabitants of the sheep nasopharynx. In times of stress caused by shipping, weather extremes, or overcrowding they can invade the lungs and cause pneumonia. Several types of vaccine are available to control these infections. These include whole cell bacterins, leukotoxin-toxoids, and cell surface iron binding proteins. The whole cell bacterins rely on outer membrane protein antigens specific for each serotype. M. haemolytica has 12 serotypes of which A2 is the most prevalent. Unfortunately, A2 is poorly immunogenic in sheep. As expected, these bacterins work reasonably well against homologous serotypes, but are less effective in protecting against unrelated serotypes.

M. haemolytica needs iron for growth. It expresses iron-binding proteins (siderophores) on its surface. Antibodies against these siderophores will effectively reduce its growth. Like the outer membrane proteins and leukotoxoids these proteins differ between different bacterial strains. However, when used in a vaccine against the appropriate strain they can be very effective.

The prevalence of respiratory disease in lambs increases beginning around three weeks of age. Maternal antibodies to these organisms appear to interfere minimally with vaccination of lambs so they can be vaccinated as early as 10 days of age. They should then be boosted three to four weeks later. A third booster may be needed around 12 to 14 weeks of age. If sheep are intensively housed and at high risk of respiratory disease then they may be revaccinated semiannually or annually.

Ovine enzootic abortion

The gram-negative intracellular bacterium, Chlamydia abortus, causes enzootic abortion in sheep and goats worldwide. Infected animals shed large amounts of the agent in the diseased placenta and uterine fluids. Killed vaccines are widely available. A temperature-sensitive mutant (strain 1B) has been generated by inducing mutations in a wild type strain (AB7) using the mutagen, N-methyl-N’-nitro-N-nitrosoguanidine. This organism has a reduced growth rate at 39.5°C. It is used in some European countries. Unfortunately, strain 1B has been implicated in cases of vaccine breakdown. Genomic sequencing has indicated that its genomic sequence is identical to its parent strain. As a result, it is not attenuated and can cause serious disease outbreaks. Vaccine-identical strains have been isolated from cases of disease.

Soremouth

Contagious ecthyma (orf, soremouth, or scabby mouth) is a skin disease of sheep and goats. The virus infects wounds around the mouth (often caused by abrasions or thorns such as from prickly pear cactus). As a result of these large painful lesions, the lamb or kid is unable to suckle. The infection may then spread to the ewe and cause mastitis.