A low-sugar diet enhances<i>Drosophila</i>body size in males and females via sex-specific mechanisms

Millington, Jason W; Biswas, Puja; Chao, Charlotte; Xia, Yi Han; Wat, Lianna W; Brownrigg, George P; Sun, Ziwei; Basner-Collins, Paige J; Geltink, Ramon I. Klein; Rideout, Elizabeth J.

doi:10.1242/dev.200491

Cited by 9 publications

(9 citation statements)

References 73 publications

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“…Males’ metabolism was highly sensitive to raspberry medium feeding, with most of the analyzed parameters having a strong correlation with this fruit media; on the other hand, females’ metabolism differences are not as evident, with no strong correlation with a specific fruit host. These differences in metabolic responses dependent on sex were already observed in D. melanogaster fed on a low sugar diet 48 , which also appears to suggest the higher plasticity of females to adapt to different nutrient availability.…”

Section: Discussionsupporting

confidence: 59%

“…The AKH signaling pathway was already associated with gluconeogenesis and trehaloneogenesis in D. melanogaster , with its activation linked with nutrient deficiency, especially in low carbohydrate diets 45 , 46 . Also, studies on D. melanogaster already associated an increase in foxo expression with an increase in InR expression levels under low sugar diets, due to the feedback activation of InR by FOXO 47 , 48 . Thus, besides possible overconsumption of carbohydrates to counterbalance protein intake, the high glucose levels observed in males after feeding on raspberry medium could be also associated with the mobilization of energy sources to increase glucose and trehalose levels and therefore maintain sugar homeostasis.…”

Section: Discussionmentioning

confidence: 99%

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Drosophila suzukii energetic pathways are differently modulated by nutritional geometry in males and females

Sario

Mendes

Gonçalves

et al. 2022

Sci Rep

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As a polyphagous pest, Drosophila suzukii has a variety of host fruits available for feeding and oviposition, but how the nutritional geometry of different hosts influences its metabolism is still poorly understood. This work aimed to evaluate how D. suzukii metabolic and transcriptional pathways are influenced by feeding on different host fruits, and how sex influences these responses. Adult flies were allowed to feed on five different fruit-based media. Lipids, glucose, glycogen, and energy pathways-associated gene expression, were quantified. Females showed an energetic metabolism easily adaptable to the food’s nutritional characteristics; in contrast, males’ energetic metabolism was particularly influenced by food, predominantly those fed on raspberry media who showed changes in glucose levels and in the expression of genes associated with metabolic pathways, suggesting activation of gluconeogenesis and trehaloneogenesis as a result of nutritional deficiency. Here we present novel insight into how D. suzukii’s energetic pathways are modulated depending on fruits’ nutritional geometry and sex. While the females showed high adaptability in their energetic metabolism to the diet, males were more feeding-sensitive. These findings might be used not only to control this pest population but to better advise producers to invest in less suitable fruits based on the hosts’ nutritional geometry.

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Section: Discussionsupporting

confidence: 59%

Section: Discussionmentioning

confidence: 99%

Drosophila suzukii energetic pathways are differently modulated by nutritional geometry in males and females

Sario

Mendes

Gonçalves

et al. 2022

Sci Rep

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“…One mechanism by which biological sex contributes to the differential T2D risk between men and women is via effects on insulin sensitivity. In humans, females show higher insulin sensitivity than males (14)(15)(16)(17)(18)(19), a trend that exists in diverse species (13,(20)(21)(22)(23)(24). Given the known association between loss of insulin sensitivity and T2D (25), this provides a simple explanation for the male-biased risk of T2D in rodents and humans.…”

Section: Introductionmentioning

confidence: 93%

“…With respect to β cell function, most data from rodent and human studies suggests glucose-stimulated insulin secretion is higher in females than in males (5,10,(13)(14)(15)(16). While male-female differences in peripheral insulin sensitivity (15,(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27) may contribute to these differences, sex-biased insulin secretion in humans persists in the context of equivalent insulin sensitivity between males and females (5). Whether sex differences in additional aspects of β cell gene expression and function similarly persist remains unclear, as insulin sensitivity is not routinely monitored across datasets showing sex differences in β cell biology.…”

Section: Introductionmentioning

confidence: 99%

Sex differences in islet stress responses support female beta cell resilience

Brownrigg

Xia

Chu

et al. 2022

Preprint

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Type 2 diabetes risk is ∼40% higher in men than in pre-menopausal women. Despite evidence that sex differences in pancreatic β cells play a role in this differential diabetes risk, few studies have examined diabetes-associated changes to β cell function in each sex. Our single-cell analysis of human β cells revealed profound sex-specific changes to gene expression and function in type 2 diabetes. To gain deeper insight into sex differences in β cells, we generated a well-powered islet RNAseq dataset from 20-week-old male and female mice with equivalent insulin sensitivity. This unbiased analysis revealed differential enrichment of unfolded protein response pathway-associated genes, where female islets showed higher expression of genes linked with protein synthesis, folding, and processing. This differential expression was biologically significant, as female islets were more resilient to endoplasmic reticulum (ER) stress induction with thapsigargin. Specifically, female islets maintained better insulin secretion and showed a distinct transcriptional response under ER stress compared with males. Given the known links between ER stress and T2D pathogenesis, our findings suggest sex differences in β cells contribute to the differential T2D risk between men and women.

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“…One limitation of our study is that our analyses of fat-body mitochondrial metabolism and body growth relied on pooled groups of male and female larvae and did not involve an analysis of phenotypes by sex. This is a pertinent point to emphasize since studies have reported sex differences in the nutrient and metabolic regulation of larval physiology and growth (Millington et al, 2021a(Millington et al, , 2021b(Millington et al, , 2022Rideout et al, 2015;Sawala and Gould, 2017;Shingleton et al, 2017). Another limitation is that we examined how nutrient availability controls fat-body mitochondrial function and systemic physiology by comparing larvae grown on our normal lab food versus low-nutrient food (20% of our normal food), but we did not manipulate specific nutrients to see if they are important in modulating fat-body mitochondrial activity.…”

Section: Limitations Of the Studymentioning

confidence: 99%

Adipose mitochondrial metabolism controls body growth by modulating systemic cytokine and insulin signaling

Sriskanthadevan-Pirahas

Turingan

Chahal

et al. 2022

Cell Reports

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A low-sugar diet enhancesDrosophilabody size in males and females via sex-specific mechanisms

Cited by 9 publications

References 73 publications

Drosophila suzukii energetic pathways are differently modulated by nutritional geometry in males and females

Drosophila suzukii energetic pathways are differently modulated by nutritional geometry in males and females

Sex differences in islet stress responses support female beta cell resilience

Adipose mitochondrial metabolism controls body growth by modulating systemic cytokine and insulin signaling

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