A new study1 lead by led by Dr Séverine Tasker at the University of Bristol's School of Veterinary Sciences and published in the journal Clinical and Vaccine Immunology (CVI), has shown that cats previously infected with the blood-borne bacteria M. haemofelis develop immunity from re-infection.A new study1 lead by led by Dr Séverine Tasker at the University of Bristol's School of Veterinary Sciences and published in the journal Clinical and Vaccine Immunology (CVI), has shown that cats previously infected with the blood-borne bacteria M. haemofelis develop immunity from re-infection.

Haemoplasmas are a group of blood borne bacteria found in a wide range of mammals, including domestic and wild cats, and can cause severe anaemia. The findings of the new study have significantly advanced researchers' knowledge of immunity for these pathogens.

Information about the immune responses that occur in animals following haemoplasma infection is relatively unknown, largely due to the fact that researchers struggle to study these bacteria as they are unable to grow them in the laboratory. Antibiotics do not consistently clear infection and without correct treatment the anaemia can be fatal. Recently haemoplasma associated anaemia has been reported in a human too.

The aim of the study was to determine whether cats who had previously recovered from M. haemofelis infection were protected from re-infection. The researchers found that they were, representing a significant advancement in scientists' knowledge of immunity for haemoplasma infections.

The exact methods of protective immunity could not be clearly identified despite extensive investigations, but the study's results suggest that a vaccine, using a weakened form of the bacteria, may offer protection against haemoplasma infection.

Séverine said: "This is the first study to demonstrate protective immunity against M. haemofelis reinfection and it provides important information for a possible future haemoplasma vaccine.

"Our findings could help prevent the disease in cats and could also be of particular importance to farm animal species where haemoplasma infections can cause huge financial losses."

The study recommends future research should explore whether the bacterial animal infection could be transmitted to humans and how the immune system targets the pathogen.

Reference

  1. 'Protective immunity against infection with Mycoplasma haemofelis' by Chelsea Hicks et al in Clinical and Vaccine Immunology.

PS: Whilst you're here, take a moment to see our latest job opportunities for vets.