Abstract
Simple SummaryAmerican foulbrood (AFB) is the most severe bacterial disease of honeybees, caused by Paenibacillus larvae. Larvae become infected by ingesting food contaminated with P. larvae spores, which are extremely resistant and can remain infectious for decades. Burning affected colonies is widely used to prevent further spread of the disease. The presence of P. larvae spores in bee-related samples is associated with an increased risk of developing clinical symptoms, and spore counts can be used for early detection of at-risk colonies, which should then undergo thorough clinical examination. Because quantification of P. larvae spores by plate counting is time-consuming and unreliable, due to poor and inconsistent germination, molecular quantification is more suitable. To overcome the limitations of available quantification methods, we developed a quantitative PCR (qPCR) assay for reliable quantification of P. larvae that also performs well at low spore counts. The assay was validated for honey and hive debris samples but can be extended to other sample types. Spore counts in AFB-positive colonies were significantly higher than those in asymptomatic colonies, both for honey and hive debris samples. By comparing plate and qPCR counts, the germination rate of P. larvae spores was found to be low and inconsistent.Paenibacillus larvae is the causative agent of American foulbrood (AFB), a devastating disease of honeybees. P. larvae spore counts in bee-related samples correlate with the presence of AFB symptoms and may, therefore, be used to identify at-risk colonies. Here, we constructed a TaqMan-based real-time PCR (qPCR) assay targeting a single-copy chromosomal metalloproteinase gene for reliable quantification of P. larvae. The assay was calibrated using digital PCR (dPCR) to allow absolute quantification of P. larvae spores in honey and hive debris samples. The limits of detection and quantification were 8 and 58 spores/g for honey and 188 and 707 spores/mL for hive debris, respectively. To assess the association between AFB clinical symptoms and spore counts, we quantified spores in honey and hive debris samples originating from honeybee colonies with known severity of clinical symptoms. Spore counts in AFB-positive colonies were significantly higher than those in asymptomatic colonies but did not differ significantly with regard to the severity of clinical symptoms. For honey, the average spore germination rate was 0.52% (range = 0.04–6.05%), indicating poor and inconsistent in vitro germination. The newly developed qPCR assay allows reliable detection and quantification of P. larvae in honey and hive debris samples but can also be extended to other sample types.
Highlights
Honeybees (Apis mellifera) play an essential role in pollination and biodiversity conservation [1]
We developed a novel TaqMan-based Quantitative real-time PCR (qPCR) assay for the quantification of P. larvae which was validated for honey and hive debris samples and calibrated using digital PCR (dPCR) to allow absolute quantification
Both previously developed qPCR assays optimized for the detection and quantification of P. larvae spores in honey and hive debris [23,26] were based on 16S rRNA gene and SYBR technologies, which are known for their limitations
Summary
Honeybees (Apis mellifera) play an essential role in pollination and biodiversity conservation [1]. Biotic factors include pathogens from both prokaryotic or eukaryotic taxa and pests causing various diseases of bees. American foulbrood (AFB) is one of the most widespread and most severe diseases of honeybees and is caused by the spore-forming Gram-positive bacterium Paenibacillus larvae [4]. Honeybee larvae become infected by ingesting food contaminated with P. larvae spores, which are highly resistant to environmental factors and can remain infectious for several decades [5]. Clinical onset of AFB depends on the virulence and spore count of P. larvae in the honeybee colony as well as many intrinsic (genetic) and extrinsic (environmental) factors [6,7]. In Slovenia, the disease is diagnosed when characteristic clinical symptoms are identified in the honeybee colony and the causative agent is confirmed by laboratory examination [8]. AFB is a statutory notifiable disease in the European
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