Controlled bioassay systems for determination of lethal infective doses of tissue homogenates containing Taura syndrome or white spot syndrome virus

Abstract

In vivo bioassay is the predominant method for evaluating the infectivity of materials potentially harboring viable shrimp pathogens and determining the relative susceptibility of shrimp species to viral infections. A controlled bioassay system for white spot syndrome virus (WSSV) and Taura syndrome virus (TSV) was developed utilizing 260 ml tissue culture flasks modified with an air exchange vent. Individual shrimp (1.00 +/- 0.25 g) were placed in separate flasks containing artificial seawater (100 to 150 ml) and held in an incubator at 27 degrees C. After a 48 h acclimation period, shrimp were either injected intramuscularly with viral inoculum or exposed to virus-laden water. Water was exchanged and shrimp were fed a commercial food pellet daily except 24 h post-infection (p.i.). Bioassays were performed with serial dilutions of stock viral preparations and shrimp mortality was recorded for 7 d p.i. Mortality rates of test animals permitted the estimation of the lethal infective doses, LD50 and LD90. The LD50 of the TSV injection preparation was estimated at viral dilutions of 1:7.692 x 10(7) (Trial 1) and 1:6.667 x 10(7) (Trial 2). The LD50s of 2 different WSSV injection preparations were estimated at 1:4.444 x 10(6) and 1:4.505 x 10(6). The LD50 for the TSV waterborne challenge was 1:9916 (Trial 1) and 1:15 710 (Trial 2) at 20 degrees C and 1:1272 at 27 degrees C. A second waterborne TSV inoculum challenge at 27 degrees C produced an LD50 of 1:2857. WSSV doses used in the waterborne challenge only reached 39% mortality, which did not allow for the estimation of effective lethal doses. Bioassay by injection proved to be a more reliable method of estimating viral infectivity compared to waterborne method. The dose-response curves developed can serve as a basis for controlled comparisons of relative levels of viral infectivity of specific tissue preparations and for controlled comparisons of relative susceptibility of shrimp species or stocks to viral pathogens.