A Zika Virus-Like Particle Vaccine Mitigates Early Pregnancy Loss In Rhesus Macaques

Zika virus (ZIKV) is an arthropod-borne Orthoflavivirus that caused a major outbreak in the Americas in 2015-16. In Brazil, up to 46% of ZIKV positive pregnancies resulted in congenital Zika syndrome (CZS). CZS is characterized by a wide range of neurologic birth defects and miscarriage in up to 7.6% of affected pregnancies. With no current licensed ZIKV vaccines, we sought to evaluate a Zika virus-like particle (VLP) vaccine candidate in a rhesus macaque (RM) pregnancy model. VLPs were produced in mammalian cells expressing the pre-membrane-envelope region of the Asian-lineage ZIKV strain PRVABC59, which belongs to the Asian ZIKV lineage that is associated with outbreaks of congenital disease. To evaluate vaccine protection against adverse pregnancy complications, two cohorts of female RM were vaccinated with ZIKV-VLP with adjuvant Alhydrogel (alum) or adjuvant alone prior to mating. At gestational day (GD) 30 (early first trimester), pregnant animals were challenged with ZIKV-DAK 41524, an African-lineage strain shown to induce 1st-trimester fetal demise in 78% (n=11/14 animals) of RM, making it an ideal and stringent model for evaluating ZIKV vaccines. Within the vaccinated cohort, 2 of 3 animals reached the study endpoint of GD 90 with no observed adverse pregnancy outcomes. The third animal experienced pregnancy loss at GD 49 (18 d post infection), although no infectious virus was detected in placental or fetal tissues.  In the unvaccinated cohort, two animals had severe adverse events. One animal experienced preterm labor, and another developed early-onset hydrops fetalis with widespread ZIKV-RNA detected via RNAscope and extensive placental damage. These results confirm a significant risk for early pregnancy loss in RM infected with ZIKV-DAK 41524. This model can be further used to understand the complexities of placental immunological features underlying stillbirth and miscarriage following infection. Our findings indicate that this ZIKV-VLP vaccine candidate protected pregnant macaques against fetal demise associated with highly pathogenic ZIKV challenge.