PURPOSE: Multi-drug resistant tuberculosis (MDR-TB) and extremely drug resistant (XDR) TB are big problems in the world. We have developed novel TB therapeutic vaccines, HVJ-Envelope/HSP65 + IL-12 DNA vaccine (HSP65-vaccine), granulysin vaccine and killer specific secretory protein of 37kDa (Ksp37) vaccine. METHODS AND RESULTS: HSP65 vaccine showed strong therapeutic effect against both MDR-TB and XDR-TB in mice. Intradermal immunization of HSP65-vaccine showed stronger therapeutic effect against TB than intramuscular or subcutaneous immunization. Furthermore, the synergistic therapeutic effect was observed when the vaccine was administrated in combination with Isoniazid (INH), which is a first line drug for chemotherapy. The combination of types of vaccines (HSP65- and granulysin- vaccines) also showed synergistic therapeutic effect. In the monkey model, granulysin-vaccine prolonged the survival period after the infection of TB and long-term survival was observed in vaccine-treated group. We examined the potential of two kinds of novel DNA vaccines (Ksp37-vaccine and granulysin-vaccine). Both vaccines augmented in vivo differentiation of CTL against TB. We measured the amount of Ksp37 protein in human serum and revealed that the level of Ksp37 protein of patients with tuberculosis was lower than that of healthy volunteers. Therefore, we established Ksp37 transgenic mice as well as granulysin transgenic mice to elucidate the function of those proteins. Both transgenic mice were resistant to TB infection. CONCLUSION: These data indicate the potential of combinational therapy; the combination of two DNA vaccines or combination of DNA vaccine with antibiotic drug. Thus, it will provide a novel strategy for the treatment of MDR-TB.
PURPOSE: Multi-drug resistant tuberculosis (MDR-TB) and extremely drug resistant (XDR) TB are big problems in the world. We have developed novel TB therapeutic vaccines, HVJ-Envelope/HSP65 + IL-12 DNA vaccine (HSP65-vaccine), granulysin vaccine and killer specific secretory protein of 37kDa (Ksp37) vaccine. METHODS AND RESULTS:HSP65 vaccine showed strong therapeutic effect against both MDR-TB and XDR-TB in mice. Intradermal immunization of HSP65-vaccine showed stronger therapeutic effect against TB than intramuscular or subcutaneous immunization. Furthermore, the synergistic therapeutic effect was observed when the vaccine was administrated in combination with Isoniazid (INH), which is a first line drug for chemotherapy. The combination of types of vaccines (HSP65- and granulysin- vaccines) also showed synergistic therapeutic effect. In the monkey model, granulysin-vaccine prolonged the survival period after the infection of TB and long-term survival was observed in vaccine-treated group. We examined the potential of two kinds of novel DNA vaccines (Ksp37-vaccine and granulysin-vaccine). Both vaccines augmented in vivo differentiation of CTL against TB. We measured the amount of Ksp37 protein in human serum and revealed that the level of Ksp37 protein of patients with tuberculosis was lower than that of healthy volunteers. Therefore, we established Ksp37transgenic mice as well as granulysin transgenic mice to elucidate the function of those proteins. Both transgenic mice were resistant to TBinfection. CONCLUSION: These data indicate the potential of combinational therapy; the combination of two DNA vaccines or combination of DNA vaccine with antibiotic drug. Thus, it will provide a novel strategy for the treatment of MDR-TB.
Entities:
Keywords:
HSP65 DNA + IL-12 DNA vaccine; Ksp37 transgenic mouse; Ksp37 vaccine; MDR-TB; XDR-TB; chemotherapy; granulysin vaccine; synergistic therapeutic efficacy; therapeutic vaccine against
Authors: K Ogawa; K Tanaka; A Ishii; Y Nakamura; S Kondo; K Sugamura; S Takano; M Nakamura; K Nagata Journal: J Immunol Date: 2001-05-15 Impact factor: 5.422
Authors: G P Walsh; E V Tan; E C dela Cruz; R M Abalos; L G Villahermosa; L J Young; R V Cellona; J B Nazareno; M A Horwitz Journal: Nat Med Date: 1996-04 Impact factor: 53.440
Authors: M Okada; N Sakaguchi; N Yoshimura; H Hara; K Shimizu; N Yoshida; K Yoshizaki; S Kishimoto; Y Yamamura; T Kishimoto Journal: J Exp Med Date: 1983-02-01 Impact factor: 14.307
Authors: O Olagoke; D Miller; F Hemmatzadeh; T Stephenson; J Fabijan; P Hutt; S Finch; N Speight; P Timms Journal: NPJ Vaccines Date: 2018-08-02 Impact factor: 7.344
Authors: Yu-Min Chuang; Noton K Dutta; James T Gordy; Victoria L Campodónico; Michael L Pinn; Richard B Markham; Chien-Fu Hung; Petros C Karakousis Journal: Front Immunol Date: 2020-04-28 Impact factor: 7.561