A subunit vaccine based on biodegradable microspheres carrying rHsp65 protein and KLK protects BALB/c mice against tuberculosis infection.

Of the hundreds of new tuberculosis (TB) vaccine candidates, some have therapeutic value in addition to their prophylactic properties. This is the case for the DNA vaccine encoding heat-shock protein 65 (DNAhsp65) from Mycobacterium leprae. However, there are concerns about the use of DNA vaccines in certain populations such as newborns and pregnant women.

Prime-boost vaccination based on DNA and protein-loaded microspheres for tuberculosis prevention.

We evaluated the use of a vaccine formulation based on a mixture of two different PLGA microspheres, composed by faster and slower release profiles, containing DNA encoding hsp65 and the recombinant hsp65 protein, respectively, aiming to DNA priming and protein boost after a single dose vaccination. The combination of PLGA50:50 microspheres containing DNA-hsp65 and trehalose dimycolate (TDM) with PLGA75:25 microspheres containing recombinant hsp65 (prime-boost Me) was able to induce high levels of anti-hsp65 specific antibodies. The serum levels of these specific antibodies remained high during 90 days after vaccination, whereas the DNA Me formulation based only in DNA-hsp65 plus TDM-loaded microspheres was not able to sustain the high antibody levels during the same period.

Vaccine adjuvant: it makes the difference.

The use of protein or DNA in vaccination process rather than living or attenuated microorganism, aims at the increase of the vaccines safety. However, in these cases, the use of adjuvant is frequently required to improve their immunogenicity. In this study, we show the importance of the adjuvant in a vaccine formulation.