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Regulation of dietary intake of protein and lipid by nurse-age adult worker honeybees

Regulation of dietary intake of protein and lipid by nurse-age adult worker honeybees
Regulation of dietary intake of protein and lipid by nurse-age adult worker honeybees

Essential macronutrients are critical to the fitness and survival of animals. Many studies have shown that animals regulate the amount of protein and carbohydrate they eat for optimal performance. Regulation of dietary fat is important but less often studied. Honeybees collect and consume floral pollen to obtain protein and fat but how they achieve the optimal balance of these two macronutrients is presently unknown. Here, using chemically defined diets composed of essential amino acids and lipids (lecithin), we show that adult worker honeybees actively regulate their intake of lipids around optimal values relative to the amount of protein in their diet. We found that broodless, nurse-age worker honeybees consume foods to achieve a ratio between 1:2 and 1:3 for essential amino acids to lipid or ∼1.25:1 protein to fat. Bees fed diets relatively high in fat gained abdominal fat and had enlarged hypopharyngeal glands. In most cases, eating diets high in fat did not result in increased mortality. Importantly, we also discovered that the total quantity of food the bees ate increased when they were given a choice of two diets relatively high in fat, implying that dietary fat influences bee nutritional state in a way that, in turn, influences behaviour. We speculate that dietary fat plays a critical role in maintaining workers in the nurse-like behavioural state independently of the influence of queen pheromone.

Amino Acids, Essential, Animals, Bees, Diet/veterinary, Dietary Fats, Eating, Lipids, Pollen
0022-0949
Stabler, Daniel
b275ba93-2cd8-460a-b5dc-b527a268f351
Al-Esawy, Mushtaq
8024f0e5-4047-455f-9992-add63f7c5109
Chennells, Jennifer A
b48a0add-09af-4adc-99e7-d551440e8235
Perri, Giorgia
7ce7eff7-3ba4-4725-9c5f-79ca6cd0adee
Robinson, Alexandria
ec60f427-e2f7-4bd9-ac34-9397d9fbd4d9
Wright, Geraldine A
f1dac0e1-1920-43ce-802a-c9056c817eb0
Stabler, Daniel
b275ba93-2cd8-460a-b5dc-b527a268f351
Al-Esawy, Mushtaq
8024f0e5-4047-455f-9992-add63f7c5109
Chennells, Jennifer A
b48a0add-09af-4adc-99e7-d551440e8235
Perri, Giorgia
7ce7eff7-3ba4-4725-9c5f-79ca6cd0adee
Robinson, Alexandria
ec60f427-e2f7-4bd9-ac34-9397d9fbd4d9
Wright, Geraldine A
f1dac0e1-1920-43ce-802a-c9056c817eb0

Stabler, Daniel, Al-Esawy, Mushtaq, Chennells, Jennifer A, Perri, Giorgia, Robinson, Alexandria and Wright, Geraldine A (2021) Regulation of dietary intake of protein and lipid by nurse-age adult worker honeybees. The Journal of Experimental Biology, 224 (Pt 3). (doi:10.1242/jeb.230615).

Record type: Article

Abstract

Essential macronutrients are critical to the fitness and survival of animals. Many studies have shown that animals regulate the amount of protein and carbohydrate they eat for optimal performance. Regulation of dietary fat is important but less often studied. Honeybees collect and consume floral pollen to obtain protein and fat but how they achieve the optimal balance of these two macronutrients is presently unknown. Here, using chemically defined diets composed of essential amino acids and lipids (lecithin), we show that adult worker honeybees actively regulate their intake of lipids around optimal values relative to the amount of protein in their diet. We found that broodless, nurse-age worker honeybees consume foods to achieve a ratio between 1:2 and 1:3 for essential amino acids to lipid or ∼1.25:1 protein to fat. Bees fed diets relatively high in fat gained abdominal fat and had enlarged hypopharyngeal glands. In most cases, eating diets high in fat did not result in increased mortality. Importantly, we also discovered that the total quantity of food the bees ate increased when they were given a choice of two diets relatively high in fat, implying that dietary fat influences bee nutritional state in a way that, in turn, influences behaviour. We speculate that dietary fat plays a critical role in maintaining workers in the nurse-like behavioural state independently of the influence of queen pheromone.

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More information

Published date: 8 February 2021
Additional Information: © 2021. Published by The Company of Biologists Ltd.
Keywords: Amino Acids, Essential, Animals, Bees, Diet/veterinary, Dietary Fats, Eating, Lipids, Pollen
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Identifiers

Local EPrints ID: 477088
URI: http://eprints.soton.ac.uk/id/eprint/477088
DOI: doi:10.1242/jeb.230615
ISSN: 0022-0949
PURE UUID: 0612df22-39ef-4ddf-8dc6-e08a6e630e19

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Date deposited: 25 May 2023 16:49
Last modified: 17 Mar 2024 01:35

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Contributors

Author: Daniel Stabler
Author: Mushtaq Al-Esawy
Author: Jennifer A Chennells
Author: Giorgia Perri
Author: Alexandria Robinson
Author: Geraldine A Wright

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