Increased mitochondrial and lipid metabolism is a conserved effect of Insulin/PI3K pathway downregulation in adipose tissue

Bettedi, Lucia; Yan, Anqi; Schuster, Eugene; Alic, Nazif; Foukas, Lazaros C.

doi:10.1038/s41598-020-60210-3

Cited by 7 publications

(3 citation statements)

References 43 publications

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“…Genetic inactivation of the IIS pathway in Drosophila and C. elegans has been shown to extend their lifespans (Broughton et al, 2005;Clancy et al, 2001;Kenyon et al, 1993;Giannakou et al, 2004;Nässel et al, 2015). The phospho- (Bettedi et al, 2020), and downregulation by genetic modulation of the IIS pathway in invertebrates has been associated with prolonged lifespan (Tatar et al, 2003). Our results also revealed the increased lipid metabolism as a conserved effect of downregulating InR/PI3K pathway, as in ppl-Gal4>UAS-Pten flies.…”

Section: Quantifying Lipid Metabolism In Aging Drosophila Mutantssupporting

confidence: 57%

“…Further comparing lipid metabolism in each fly mutant during aging revealed that genetic downregulation of InR/PI3K pathway would maintain the relatively high lipid metabolism in flies ( ppl ‐ Gal4 > UAS ‐ Pten ) with aging (Figure S4c ), but upregulation ( ppl ‐ Gal4 > UAS ‐ InR del ) or inactivation ( ppl ‐ Gal4 > UAS ‐ InR DN ) of the pathway led to significant decreases of lipid metabolism in aged flies (Figure S4b,d ), similarly as in the control (Figure S4a ). A recent study on mouse adipose tissue and fly fat body showed that downregulation of InR/PI3K pathway increased lipid metabolism as a conserved effect (Bettedi et al, 2020 ), and downregulation by genetic modulation of the IIS pathway in invertebrates has been associated with prolonged lifespan (Tatar et al, 2003 ). Our results also revealed the increased lipid metabolism as a conserved effect of downregulating InR/PI3K pathway, as in ppl ‐ Gal4 > UAS ‐ Pten flies.…”

Section: Resultsmentioning

confidence: 99%

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DO‐SRS imaging of diet regulated metabolic activities in Drosophila during aging processes

Zhang

Fung

et al. 2022

Aging Cell

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Lipid metabolism plays crucial roles during aging processes, but how it is regulated by diets and how it interplays with aging still remain unclear. We proposed a new optical imaging platform by integrating heavy water (D 2 O) probing with stimulated Raman scattering (DO‐SRS) microscopy, for the first time, to directly visualize and quantify lipid metabolism regulated by different diets and insulin signaling pathway in Drosophila fat body during aging. We found that calorie restriction, low protein diet, and (moderately) high protein and high sucrose diets enhanced lipid turnover in flies at all ages, while (moderately) high fructose and glucose diets only promoted lipid turnover in aged flies. The measured lipid turnover enhancements under diverse diets were due to different mechanisms. High protein diet shortened the lifespan while all other diets extended the lifespan. Downregulating the insulin signaling pathway enhanced lipid turnover, which is likely related to lifespan increase, while upregulating insulin signaling pathway decreased lipid turnover that would shorten the lifespan. Our study offers the first approach to directly visualize spatiotemporal alterations of lipid turnover in aging Drosophila in situ, for a better understanding of the interconnections between lipid metabolism, diets, and aging.

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Section: Quantifying Lipid Metabolism In Aging Drosophila Mutantssupporting

confidence: 57%

Section: Resultsmentioning

confidence: 99%

DO‐SRS imaging of diet regulated metabolic activities in Drosophila during aging processes

Zhang

Fung

et al. 2022

Aging Cell

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“…PI3Ks p110α and p110β have been pursued as therapeutic targets mainly in oncology [ 9 ]. However, inhibition of p110α has recently been shown to increase energy expenditure through potentiation of β-AR signalling and enhancement of mitochondrial activity in adipocytes [ 8 , 10 ]. The potentiating effect of p110α inhibition in β-AR signalling has also been shown in human adipose tissue [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Dominant Role of PI3K p110α over p110β in Insulin and β-Adrenergic Receptor Signalling

Zhang

Luk

Valadares

et al. 2021

IJMS

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Attribution of specific roles to the two ubiquitously expressed PI 3-kinase (PI3K) isoforms p110α and p110β in biological functions they have been implicated, such as in insulin signalling, has been challenging. While p110α has been demonstrated to be the principal isoform activated downstream of the insulin receptor, several studies have provided evidence for a role of p110β. Here we have used isoform-selective inhibitors to estimate the relative contribution of each of these isoforms in insulin signalling in adipocytes, which are a cell type with essential roles in regulation of metabolism at the systemic level. Consistent with previous genetic and pharmacological studies, we found that p110α is the principal isoform activated downstream of the insulin receptor under physiological conditions. p110α interaction with Ras enhanced the strength of p110α activation by insulin. However, this interaction did not account for the selectivity for p110α over p110β in insulin signalling. We also demonstrate that p110α is the principal isoform activated downstream of the β-adrenergic receptor (β-AR), another important signalling pathway in metabolic regulation, through a mechanism involving activation of the cAMP effector molecule EPAC1. This study offers further insights in the role of PI3K isoforms in the regulation of energy metabolism with implications for the therapeutic application of selective inhibitors of these isoforms.

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Antidiabetic effect of konjac glucomannan via insulin signaling pathway regulation in high-fat diet and streptozotocin-induced diabetic rats

Jayachandran

2021

Food Research International

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Increased mitochondrial and lipid metabolism is a conserved effect of Insulin/PI3K pathway downregulation in adipose tissue

Cited by 7 publications

References 43 publications

DO‐SRS imaging of diet regulated metabolic activities in Drosophila during aging processes

DO‐SRS imaging of diet regulated metabolic activities in Drosophila during aging processes

Dominant Role of PI3K p110α over p110β in Insulin and β-Adrenergic Receptor Signalling

Antidiabetic effect of konjac glucomannan via insulin signaling pathway regulation in high-fat diet and streptozotocin-induced diabetic rats

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