Immunomodulatory effects of a probiotic combination treatment to improve the survival of Pacific oyster ( larvae against infection by .

INTRODUCTION

The culture of Pacific oysters () is of significant socio-economic importance in the U.S. Pacific Northwest and other temperate regions worldwide, with disease outbreaks acting as significant bottlenecks to the successful production of healthy seed larvae. Therefore, the current study aims to describe the mechanisms of a probiotic combination in improving the survival of larvae. Specifically, we investigate changes in larval gene expression in response to infection with or without a pre-treatment of a novel probiotic combination.

METHODS

Treatment groups consisted of replicates of Pacific oyster larvae exposed to a) a combination of four probiotic bacteria at a total concentration of 3.0 x 10 CFU/mL at 18 hours post-fertilization (hpf), b) pathogenic RE22 at a concentration of 6.0 x 10 CFU/mL at 48 hpf, and c) the probiotic combination at 18 hpf and RE22 at 48 hpf. RNA was extracted from washed larvae after 72 hpf, and transcriptome sequencing was used to identify significant differentially expressed genes (DEGs) within each treatment.

RESULTS

Larvae challenged with showed enhanced expression of genes responsible for inhibiting immune signaling (i.e., , ) and inducing apoptosis (i.e., ). However, when pre-treated with the probiotic combination, these genes were no longer differentially expressed relative to untreated control larvae. Additionally, pre-treatment with the probiotic combination increased expression of immune signaling proteins and immune effectors (i.e., , ). Apparent immunomodulation in response to probiotic treatment corresponds to an increase in the survival of larvae infected with by up to 82%.

DISCUSSION

These results indicate that infection with can suppress the larval immune response while also prompting cell death. Furthermore, the results suggest that the probiotic combination treatment negates the deleterious effects of on larval gene expression while stimulating the expression of genes involved in infection defense mechanisms.