Abstract
American canine hepatozoonosis (ACH) is a debilitating tick-borne disease characterized by pyrexia, body wasting, myopathy, mucopurulent ocular discharge, and periosteal proliferation. The causative agent, Hepatozoon americanum, is an apicomplexan that utilizes the Gulf Coast tick, Amblyomma maculatum, as its definitive host and vector. Unlike most tick-borne disease agents, H. americanum is not transmitted via a tick bite, but is transmitted when canids ingest a tick vector that contains sporulated oocysts within the tick hemocoel or paratenic hosts with cystozoites. Our understanding of H. americanum prevalence is based on its detection in the intermediate host, wild or domestic canids, with domestic canids often showing clinical signs at the time of diagnosis. The frequency of H. americanum in A. maculatum, on the other hand, is unknown; this gap in our knowledge hinders our understanding of transmission risk. Furthermore, current diagnostic assays are limited in efficacy, and serologic assays are not widely available. To begin to address gaps in our knowledge, we developed a TaqMan® multiplex qPCR assay for H. americanum detection in A. maculatum tick extracts and evaluated infection rates in questing adult A. maculatum. Additionally, we used a co-culture system to expose H. americanum stages to host cells for in vitro development. Results from qPCR analysis of over 500 tick extracts revealed no positive samples; this suggests both low transmission risk by adult Gulf Coast tick ingestion in the sampled areas, and that surveillance should be focused in areas where ACH has been diagnosed at higher frequencies. Hepatozoon americanum was detectable by qPCR in co-culture of an infected canine buffy coat with ISE6 (Ixodes scapularis embryonic) tick cells, and microscopic examination of samples from those days revealed some structures that were suspicious for developing stages. These data are a starting point for future work to advance our understanding of H. americanum transmission and mechanisms of disease in canids with ACH.