Clements M L, Belshe R B, King J, Newman F, Westblom T U, Tierney E L, London W T, Murphy B R
Department of International Health, Johns Hopkins University School of Hygiene Public Health, Baltimore, Maryland.
J Clin Microbiol. 1991 Jun;29(6):1175-82. doi: 10.1128/jcm.29.6.1175-1182.1991.
In an attempt to evaluate the level of attenuation of live parainfluenza type 3 virus (PIV3) vaccine candidates, we compared the responses of partially immune adult volunteers inoculated intranasally with 10(6) to 10(7) 50% tissue culture infective dose (TCID50) of bovine PIV3 (n = 18) or cold-adapted (ca) PIV3 (n = 37) with those of 28 adults administered 10(6) to 10(7) TCID50 of wild-type PIV3. The candidate vaccine viruses and the wild-type virus were avirulent and poorly infectious for these adults even though all of them had a low level of nasal antibodies to PIV3. To determine whether the ca PIV3 was attenuated, we then administered 10(4) TCID50 of ca PIV3 (cold-passage 12) or wild-type PIV3 intranasally and intratracheally to two fully susceptible chimpanzees, respectively, and challenged the four primates with wild-type virus 1 month later. Compared with wild-type virus, which caused upper respiratory tract illness, the ca PIV3 was highly attenuated and manifested a 500-fold reduction in virus replication in both the upper and lower respiratory tracts of the two immunized animals. Despite restriction of virus replication, infection with ca PIV3 conferred a high level of protective immunity against challenge with wild-type virus. The ca PIV3 which had been passaged 12 times at 20 degrees C did not retain its ts phenotype. These findings indicate that ca PIV3 may be a promising vaccine candidate for human beings if a passage level can be identified that is genetically stable, satisfactorily attenuated, and immunogenic.
为了评估3型副流感病毒(PIV3)减毒活疫苗候选株的减毒水平,我们比较了部分免疫的成年志愿者经鼻接种10⁶至10⁷ 50%组织培养感染剂量(TCID₅₀)的牛PIV3(n = 18)或冷适应(ca)PIV3(n = 37)后的反应,以及28名接种10⁶至10⁷ TCID₅₀野生型PIV3的成年人的反应。候选疫苗病毒和野生型病毒对这些成年人无致病性且感染性较弱,尽管他们对PIV3的鼻腔抗体水平较低。为了确定ca PIV3是否减毒,我们随后分别经鼻和气管内给两只完全易感的黑猩猩接种10⁴ TCID₅₀的ca PIV3(冷传代12次)或野生型PIV3,并在1个月后用野生型病毒对这四只灵长类动物进行攻击。与引起上呼吸道疾病的野生型病毒相比,ca PIV3高度减毒,在两只免疫动物的上、下呼吸道中病毒复制均减少了500倍。尽管病毒复制受到限制,但ca PIV3感染仍赋予了对野生型病毒攻击的高水平保护性免疫。在20℃传代12次的ca PIV3没有保留其温度敏感(ts)表型。这些发现表明,如果能确定一个遗传稳定、减毒程度令人满意且具有免疫原性的传代水平,ca PIV3可能是一种有前途的人类疫苗候选株。