Pollen Reverses Decreased Lifespan, Altered Nutritional Metabolism and Suppressed Immunity in Honey Bees () Treated with Antibiotics

Overview

Journal J Exp Biol

Specialty Biology

Date 2019 Mar 9

PMID 30846535

Citations 15

Authors

Jianghong Li

Matthew C Heerman

Jay D Evans

Robyn Rose

Wenfeng Li

Cristina Rodriguez-Garcia

Gloria DeGrandi-Hoffman

Yazhou Zhao

Shaokang Huang

Zhiguo Li

Michele Hamilton

Yanping Chen

Affiliations

Soon will be listed here.

Abstract

Nutrition is involved in regulating multiple aspects of honey bee biology such as caste, immunity, lifespan, growth and behavioral development. Deformed wing virus (DWV) is a major pathogenic factor which threatens honey bee populations, and its replication is regulated by the nutrition status and immune response of honey bees. The alimentary canal of the honey bee is home to a diverse microbial community that provides essential nutrients and serves to bolster immune responses. However, to what extent gut bacteria affect honey bee nutrition metabolism and immunity with respect to DWV has not been investigated fully. In this study, newly emerged worker bees were subjected to four diets that contained (1) pollen, (2) pollen and antibiotics, (3) neither pollen nor antibiotics or (4) antibiotics alone. The expression level of two nutrition genes () and (), one nutritional marker gene (), five genes (-), one antimicrobial peptide regulating gene (), and DWV virus titer and its replication intermediate, negative RNA strand, were determined by qRT-PCR from the honey bees at 7 days post-antibiotic treatment. Additionally, honey bee head mass and survival rate were measured. We observed that antibiotics decreased the expression of and , and increased DWV titer and its replication activity. Expression of , - and , and honey bee head mass were also reduced compared with bees on a pollen diet. Antibiotics also caused a significant drop in survivorship, which could be rescued by addition of pollen to the diet. Of importance, pollen could partially rescue the loss of and while also increasing the head mass of antibiotic-treated bees. Our results illuminate the roles of bacteria in honey bee nutrition, metabolism and immunity, which confer the ability to inhibit virus replication, extend honey bee lifespan and improve overall health.

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