Inactivation of Nosema spp. with zinc phthalocyanine

[Display omitted] •We developed a new method against Nosema, in order to protect honey bee health.•ZnPc was effective in the photodynamic inactivation of Nosema spores.•Light-activated 100 µM ZnPc was 80 % more effective at killing Nosema spores. Most honey bee pathogens, such as Vairimorpha (Nosema...

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Published in:Journal of invertebrate pathology 2024-03, Vol.203, p.108074, Article 108074
Main Authors: Gok Yurttas, Asiye, Çinar, Kamil, Khan, Zaeema, Elgün, Tuğba, Mayack, Christopher
Format: Article
Language:English
Subjects:
Animals
Apis mellifera
Bee health
Beekeeping
beekeeping equipment
Bees
decontamination
honey
Honey bee
honey bees
invertebrates
Isoindoles
mortality
Nosema
Nosema - physiology
Nosema spores
Organometallic Compounds
Photoinactivation
photosensitizing agents
Phthalocyanine
Vairimorpha
Zinc Compounds
zinc phthalocyanine
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creator Gok Yurttas, Asiye
Çinar, Kamil
Khan, Zaeema
Elgün, Tuğba
Mayack, Christopher
description [Display omitted] •We developed a new method against Nosema, in order to protect honey bee health.•ZnPc was effective in the photodynamic inactivation of Nosema spores.•Light-activated 100 µM ZnPc was 80 % more effective at killing Nosema spores. Most honey bee pathogens, such as Vairimorpha (Nosema), cannot be rapidly and definitively diagnosed in a natural setting, consequently there is typically the spread of these diseases through shared and re-use of beekeeping equipment. Furthermore, there are no viable treatment options available for Nosema spores to aid in managing the spread of this bee disease. We therefore aimed to develop a new method using novel Zinc Phthalocyanine (ZnPc) as a photosensitizer for the photodynamic inactivation of Nosema spores that could be used for the decontamination of beekeeping equipment. Nosema spores were propagated for in vitro testing using four caged Apis mellifera honey bees. The ZnPc treatment was characterized, encapsulated with a liposome, and then used as either a 10 or 100 µM treatment for the freshly harvested Nosema spores, for either a 30 and or 60-minute time period, under either light or dark conditions, in-vitro, in 96-well plates. In the dark treatment, after 30-min, the ZnPc 100 µM treatment, caused a 30 % Nosema mortality, while this increased to 80 % at the same concentration after the light treatment. The high rate of anti-spore effects, in a short period of time, supports the notion that this could be an effective treatment for managing honey bee Nosema infections in the future. Our results also suggest that the photo activation of the treatment could be applied in the field setting and this would increase the sterilization of beekeeping equipment against Nosema.
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Most honey bee pathogens, such as Vairimorpha (Nosema), cannot be rapidly and definitively diagnosed in a natural setting, consequently there is typically the spread of these diseases through shared and re-use of beekeeping equipment. Furthermore, there are no viable treatment options available for Nosema spores to aid in managing the spread of this bee disease. We therefore aimed to develop a new method using novel Zinc Phthalocyanine (ZnPc) as a photosensitizer for the photodynamic inactivation of Nosema spores that could be used for the decontamination of beekeeping equipment. Nosema spores were propagated for in vitro testing using four caged Apis mellifera honey bees. The ZnPc treatment was characterized, encapsulated with a liposome, and then used as either a 10 or 100 µM treatment for the freshly harvested Nosema spores, for either a 30 and or 60-minute time period, under either light or dark conditions, in-vitro, in 96-well plates. 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Most honey bee pathogens, such as Vairimorpha (Nosema), cannot be rapidly and definitively diagnosed in a natural setting, consequently there is typically the spread of these diseases through shared and re-use of beekeeping equipment. Furthermore, there are no viable treatment options available for Nosema spores to aid in managing the spread of this bee disease. We therefore aimed to develop a new method using novel Zinc Phthalocyanine (ZnPc) as a photosensitizer for the photodynamic inactivation of Nosema spores that could be used for the decontamination of beekeeping equipment. Nosema spores were propagated for in vitro testing using four caged Apis mellifera honey bees. The ZnPc treatment was characterized, encapsulated with a liposome, and then used as either a 10 or 100 µM treatment for the freshly harvested Nosema spores, for either a 30 and or 60-minute time period, under either light or dark conditions, in-vitro, in 96-well plates. 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1096-0805
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subjects Animals
Apis mellifera
Bee health
Beekeeping
beekeeping equipment
Bees
decontamination
honey
Honey bee
honey bees
invertebrates
Isoindoles
mortality
Nosema
Nosema - physiology
Nosema spores
Organometallic Compounds
Photoinactivation
photosensitizing agents
Phthalocyanine
Vairimorpha
Zinc Compounds
zinc phthalocyanine
title Inactivation of Nosema spp. with zinc phthalocyanine
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