The HSV-1 latency-associated transcript (LAT) locus contains two small noncoding RNA (sncRNA) sequences (sncRNA1 and sncRNA2) that are not microRNAs (miRNAs). We recently reported that sncRNA1 is more important for in vitro activation of the herpesvirus entry mediator than sncRNA2, but its in vivo function is not known. To determine the role, if any, of sncRNA1 during herpes simplex virus 1 (HSV-1) infection in vivo, we deleted the 62-bp sncRNA1 sequence in HSV-1 strain McKrae using dLAT2903 (LAT-minus) virus, creating ΔsncRNA1 recombinant virus. Deletion of the sncRNA1 in ΔsncRNA1 virus was confirmed by complete sequencing of ΔsncRNA1 virus and its parental virus (i.e., McKrae). Replication of ΔsncRNA1 virus in tissue culture or in the eyes of infected mice was similar to that of HSV-1 strain McKrae and dLAT2903 viruses. However, the absence of sncRNA1 significantly reduced the levels of ICP0, ICP4, and gB but not LAT transcripts in infected rabbit skin cells in vitro. In contrast, the absence of sncRNA1 did reduce LAT expression in trigeminal ganglia (TG), but not in corneas, by day 5 postinfection (p.i.) in infected mice. Levels of eye disease in mice infected with ΔsncRNA1 or McKrae virus were similar, and despite reduced LAT levels in TG during acute ΔsncRNA1 infection, McKrae and ΔsncRNA1 viruses did not affect latency or reactivation on day 28 p.i. However, mice infected with ΔsncRNA1 virus were more susceptible to ocular infection than their wild-type (WT) counterparts. Expression of host immune response genes in corneas and TG of infected mice during primary infection showed reduced expression of beta interferon (IFNβ) and IFNγ and altered activation of key innate immune pathways, such as the JAK-STAT pathway in ΔsncRNA1 virus compared with parental WT virus. Our results reveal novel functions for sncRNA1 in upregulating the host immune response and suggest that sncRNA1 has a protective role during primary ocular HSV-1 infection. IMPORTANCE HSV-1 latency-associated transcript (LAT) plays a major role in establishing latency and reactivation; however, the mechanism by which LAT controls these processes is largely unknown. In this study, we sought to establish the role of the small noncoding RNA1 (sncRNA1) encoded within LAT during HSV-1 ocular infection. Our results suggest that sncRNA1 has a protective role during acute ocular infection by modulating the innate immune response to infection.