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首页 > Seminars in immunology > Tuberculosis vaccines: time to think about the next generation.
Tuberculosis vaccines: time to think about the next generation.
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Efforts over the last 2 decades have led to a rich research and development pipeline of tuberculosis (TB) vaccines. Although none of the candidates has successfully completed the clinical trial pipeline, many are under advanced clinical assessment. These vaccines aim at prevention of active TB, with most of them being considered for preexposure with recent additions for postexposure or multistage administration. A few therapeutic vaccines are under clinical assessment, as well. Preexposure vaccination with the licensed TB vaccine BCG prevents severe forms of TB in children but not in adolescents and adults. The current vaccine pipeline does not include strategies which prevent or eliminate infection with the causative agent Mycobacterium tuberculosis (Mtb). Rather in a best-case scenario, they are quantitatively superior to BCG in preventing active TB over prolonged periods of time, ideally lifelong in the face of latent Mtb infection. Qualitatively superior vaccines should be capable of preventing or eliminating Mtb infection, in this way eliminating the risk of TB reactivation. The time is now ripe to exploit radically new strategies to achieve this goal.

作者:Stefan H E, Kaufmann

来源:Seminars in immunology 2013 年 25卷 2期

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Tuberculosis vaccines: time to think about the next generation.
收藏
| 浏览:60
作者:
Stefan H E, Kaufmann
来源:
Seminars in immunology 2013 年 25卷 2期
标签:
AS Ad35 Ag85A BCG Boost DCs DTH GLA IFN-γ IFN-γ release assays IGRA IL LTBI Latency MAITs MHC MIP MPs Mtb Mycobacterium indicus pranii Mycobacterium tuberculosis NK PEST Pfo Prime TB TDB TLR TNF TST Th1 Treg cells Tuberculosis UreC Vaccination adenovirus 35 adjuvant system antigen 85A bacille Calmette–Guérin delayed-type hypersensitivity dendritic cells glucopyranosyl lipid A hly interferon-gamma interleukin latent Mtb-infection listeriolysin major histocompatibility complex mononuclear phagocytes mucosal-associated invariant T cells natural killer perfringolysin proline (P), glutamic acid (E), serine (S) and threonine (T) regulatory T cells toll-like receptor trehalose 6,6′-dibehenate tuberculin skin test tuberculosis tumor necrosis factor type 1 helper urease C
Efforts over the last 2 decades have led to a rich research and development pipeline of tuberculosis (TB) vaccines. Although none of the candidates has successfully completed the clinical trial pipeline, many are under advanced clinical assessment. These vaccines aim at prevention of active TB, with most of them being considered for preexposure with recent additions for postexposure or multistage administration. A few therapeutic vaccines are under clinical assessment, as well. Preexposure vaccination with the licensed TB vaccine BCG prevents severe forms of TB in children but not in adolescents and adults. The current vaccine pipeline does not include strategies which prevent or eliminate infection with the causative agent Mycobacterium tuberculosis (Mtb). Rather in a best-case scenario, they are quantitatively superior to BCG in preventing active TB over prolonged periods of time, ideally lifelong in the face of latent Mtb infection. Qualitatively superior vaccines should be capable of preventing or eliminating Mtb infection, in this way eliminating the risk of TB reactivation. The time is now ripe to exploit radically new strategies to achieve this goal.

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