Protection from Hendra virus infection with Canarypox recombinant vaccine

被引:11
作者
Guillaume-Vasselin, Vanessa [1 ,2 ,3 ,4 ,5 ]
Lemaitre, Laurent [6 ]
Dhondt, Kevin P. [1 ,2 ,3 ,4 ,5 ]
Tedeschi, Laurence [6 ]
Poulard, Amelie [6 ]
Charreyre, Catherine [6 ]
Horvat, Branka [1 ,2 ,3 ,4 ,5 ]
机构
[1] CIRI, Int Ctr Infectiol Res, Lyon, France
[2] INSERM, U1111, Lyon, France
[3] CNRS, UMR5308, Lyon, France
[4] Univ Lyon 1, Lyon, France
[5] Ecole Normale Super Lyon, Lyon, France
[6] RE Merial, SAS, Lyon, France
关键词
FELINE LEUKEMIA-VIRUS; NIPAH VIRUS; HENIPAVIRUS INFECTION; CHALLENGE; MORBILLIVIRUS; ENCEPHALITIS; PATHOGENESIS; ANTIBODIES; RESPONSES; LESSONS;
D O I
10.1038/npjvaccines.2016.3
中图分类号
R392 [医学免疫学]; Q939.91 [免疫学];
学科分类号
100102 ;
摘要
Hendra virus (HeV) is an emerging zoonotic pathogen, which causes severe respiratory illness and encephalitis in humans and horses. Since its first appearance in 1994, spillovers of HeV from its natural reservoir fruit bats occur on almost an annual basis. The high mortality rate in both humans and horses and the wide-ranging reservoir distribution are making HeV a serious public health problem, especially for people exposed to sick horses. This study has aimed to develop an efficient low-cost HeV vaccine for horses based on Canarypox recombinant vector expressing HeV glycoproteins, attachment glycoprotein (G) and fusion protein (F). This vaccine was used to immunise hamsters and then challenged intraperitoneally with HeV 3 weeks later. The higher tested dose of the vaccine efficiently prevented oropharyngeal virus shedding and protected animals from clinical disease and virus-induced mortality. Vaccine induced generation of seroneutralising antibodies and prevented virus-induced histopathological changes and a production of viral RNA and antigens in animal tissues. Interestingly, some vaccinated animals, including those immunised at a lower dose, were protected in the absence of detectable specific antibodies, suggesting the induction of an efficient virus-specific cellular immunity. Finally, ponies immunised using the same vaccination protocol as hamsters developed strong seroneutralising titres against both HeV and closely related Nipah virus, indicating that this vaccine may have the ability to induce cross-protection against Henipavirus infection. These data suggest that Canarypox-based vectors encoding for HeV glycoproteins present very promising new vaccine candidate to prevent infection and shedding of the highly lethal HeV.
引用
收藏
页数:8
相关论文
共 40 条
[1]   A Hendra Virus G Glycoprotein Subunit Vaccine Protects African Green Monkeys from Nipah Virus Challenge [J].
Bossart, Katharine N. ;
Rockx, Barry ;
Feldmann, Friederike ;
Brining, Doug ;
Scott, Dana ;
LaCasse, Rachel ;
Geisbert, Joan B. ;
Feng, Yan-Ru ;
Chan, Yee-Peng ;
Hickey, Andrew C. ;
Broder, Christopher C. ;
Feldmann, Heinz ;
Geisbert, Thomas W. .
SCIENCE TRANSLATIONAL MEDICINE, 2012, 4 (146)
[2]   A Neutralizing Human Monoclonal Antibody Protects African Green Monkeys from Hendra Virus Challenge [J].
Bossart, Katharine N. ;
Geisbert, Thomas W. ;
Feldmann, Heinz ;
Zhu, Zhongyu ;
Feldmann, Friederike ;
Geisbert, Joan B. ;
Yan, Lianying ;
Feng, Yan-Ru ;
Brining, Doug ;
Scott, Dana ;
Wang, Yanping ;
Dimitrov, Antony S. ;
Callison, Julie ;
Chan, Yee-Peng ;
Hickey, Andrew C. ;
Dimitrov, Dimiter S. ;
Broder, Christopher C. ;
Rockx, Barry .
SCIENCE TRANSLATIONAL MEDICINE, 2011, 3 (105)
[3]   A treatment for and vaccine against the deadly Hendra and Nipah viruses [J].
Broder, Christopher C. ;
Xu, Kai ;
Nikolov, Dimitar B. ;
Zhu, Zhongyu ;
Dimitrov, Dimiter S. ;
Middleton, Deborah ;
Pallister, Jackie ;
Geisbert, Thomas W. ;
Bossart, Katharine N. ;
Wang, Lin-Fa .
ANTIVIRAL RESEARCH, 2013, 100 (01) :8-13
[4]   Outbreak of Henipavirus Infection, Philippines, 2014 [J].
Ching, Paola Katrina G. ;
Carr de los Reyes, Vikki ;
Nemia Sucaldito, Maria ;
Tayag, Enrique ;
Baby Columna-Vingno, Alah ;
Malbas, Fedelino F., Jr. ;
Bolo, Gilbert C., Jr. ;
Sejvar, James J. ;
Eagles, Debbie ;
Playford, Geoffrey ;
Dueger, Erica ;
Kaku, Yoshihiro ;
Morikawa, Shigeru ;
Kuroda, Makoto ;
Marsh, Glenn A. ;
McCullough, Sam ;
Foxwell, A. Ruth .
EMERGING INFECTIOUS DISEASES, 2015, 21 (02) :328-331
[5]   Fatal encephalitis due to Nipah virus among pig-farmers in Malaysia [J].
Chua, KB ;
Goh, KJ ;
Wong, KT ;
Kamarulzaman, A ;
Tan, PSK ;
Ksiazek, TG ;
Zaki, SR ;
Paul, G ;
Lam, SK ;
Tan, CT .
LANCET, 1999, 354 (9186) :1257-1259
[6]   Single-dose live-attenuated Nipah virus vaccines confer complete protection by eliciting antibodies directed against surface glycoproteins [J].
DeBuysscher, Blair L. ;
Scott, Dana ;
Marzi, Andrea ;
Prescott, Joseph ;
Feldmann, Heinz .
VACCINE, 2014, 32 (22) :2637-2644
[7]   Henipavirus Infections: Lessons from Animal Models [J].
Dhondt, Kevin P. ;
Horvat, Branka .
PATHOGENS, 2013, 2 (02) :264-287
[8]   Type I Interferon Signaling Protects Mice From Lethal Henipavirus Infection [J].
Dhondt, Kevin P. ;
Mathieu, Cyrille ;
Chalons, Marie ;
Reynaud, Josephine M. ;
Vallve, Audrey ;
Raoul, Herve ;
Horvat, Branka .
JOURNAL OF INFECTIOUS DISEASES, 2013, 207 (01) :142-151
[9]   Nipah virus: Vaccination and passive protection studies in a hamster model [J].
Guillaume, V ;
Contamin, H ;
Loth, P ;
Georges-Courbot, MC ;
Lefeuvre, A ;
Marianneau, P ;
Chua, KB ;
Lam, SK ;
Buckland, R ;
Deubel, V ;
Wild, TF .
JOURNAL OF VIROLOGY, 2004, 78 (02) :834-840
[10]   Acute Hendra virus infection: Analysis of the pathogenesis and passive antibody protection in the hamster model [J].
Guillaume, Vanessa ;
Wong, K. Thong ;
Looi, R. Y. ;
Georges-Courbot, Marie-Claude ;
Barrot, Laura ;
Buckland, Robin ;
Wild, T. Fabian ;
Horvat, Branka .
VIROLOGY, 2009, 387 (02) :459-465