Choice of inbred rat strain impacts lethality and disease course after respiratory infection with Rift Valley Fever Virus.

Humans infected with Rift Valley Fever Virus (RVFV) generally recover after a febrile illness; however, a proportion of patients progress to a more severe clinical outcome such as hemorrhagic fever or meningoencephalitis. RVFV is naturally transmitted to livestock and humans by mosquito bites, but it is also infectious through inhalational exposure, making it a potential bioterror weapon. To better understand the disease caused by inhalation of RVFV, Wistar-Furth, ACI, or Lewis rats were exposed to experimental aerosols containing virulent RVFV. Wistar-Furth rats developed a rapidly progressing lethal hepatic disease after inhalational exposure; ACI rats were 100-fold less susceptible and developed fatal encephalitis after infection. Lewis rats, which do not succumb to parenteral inoculation with RVFV, developed fatal encephalitis after aerosol infection. RVFV was found in the liver, lung, spleen, heart, kidney and brain of Wistar Furth rats that succumbed after aerosol exposure. In contrast, RVFV was found only in the brains of ACI or Lewis rats that succumbed after aerosol exposure. Lewis rats that survived s.c. infection were not protected against subsequent re-challenge by aerosol exposure to the homologous virus. This is the first side-by-side comparison of the lethality and pathogenesis of RVFV in three rat strains after aerosol exposure and the first step toward developing a rodent model suitable for use under the FDA Animal Rule to test potential vaccines and therapeutics for aerosol exposure to RVFV.

Increased reticulocyte count from cord blood samples using hypotonic lysis.

Human reticulocytes are one of the fundamental components needed to study the in vitro invasion processes of the human malaria parasite Plasmodium vivax. Additionally examinations of reticulocytes and their binding proteins are difficult in areas of the world that do not have access to advanced equipment or stem cell lines. These issues are particularly relevant to malaria vaccine candidate studies that are directed against surface proteins that the parasites use to gain entry into erythrocytes. Described here is a simple and inexpensive method to increase the reticulocyte count of cord blood samples. Exposure of cord blood to hypotonic saline (0.2%) for 5 min selectively lyses the non-reticulocytes resulting in an average 3.6-fold increase in reticulocyte count. Our studies show that this enrichment process does not damage the hemoglobin of the remaining erythrocytes which are still capable of supporting Plasmodium falciparum invasion and growth. This economical and rapid method of enrichment could facilitate studies of in vitro laboratory culturing of other malaria parasite species which preferentially invade reticulocytes such as P. vivax.