Lifespan and ROS levels in different <i>Drosophila melanogaster</i> strains after 24 h hypoxia exposure

Malacrida, Sandro; Lazzari, Federica De; Mrakic‐Sposta, Simona; Vezzoli, Alessandra; Zordan, Mauro Agostino; Bisaglia, Marco; Menti, Giulio Maria; Meda, Nicola; Frighetto, Giovanni; Bosco, Gerardo; Cappello, Tomas Dal; Strapazzon, Giacomo; Reggiani, Carlo; Gussoni, M.; Megighian, Aram

doi:10.1242/bio.059386

Cited by 8 publications

(7 citation statements)

References 73 publications

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“…Overexpression or knockdown of Sirt1 and PGC‐1α gene delayed or promoted cardiac aging and muscle aging by reducing or increasing age‐related oxidative stress and contractility debility 28,35–38 . Excessive oxidative stress impaired the function of skeletal muscle and heart, and it promoted age‐related deterioration of skeletal muscle and heart and reduced the lifespan of Drosophila 39–41 . Therefore, combined with existing evidence, muscle Pten gene may delay skeletal muscle aging by promoting Sirt1/PGC‐1α pathway activity and reducing oxidative damage.…”

Section: Discussionmentioning

confidence: 98%

“…28,[35][36][37][38] Excessive oxidative stress impaired the function of skeletal muscle and heart, and it promoted age-related deterioration of skeletal muscle and heart and reduced the lifespan of Drosophila. [39][40][41] Therefore, combined with existing evidence, muscle Pten gene may delay skeletal muscle aging by promoting Sirt1/ PGC-1α pathway activity and reducing oxidative damage.…”

Section: Discussionmentioning

confidence: 99%

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Physical exercise ameliorates age‐related deterioration of skeletal muscle and mortality by activating Pten‐related pathways in Drosophila on a high‐salt diet

Hou,

Wen,

Zhong

et al. 2023

The FASEB Journal

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The phosphatase and tensin congeners (Pten) gene affects cell growth, cell proliferation, and rearrangement of connections, and it is closely related to cellular senescence, but it remains unclear the role of muscle‐Pten gene in exercise against age‐related deterioration in skeletal muscle and mortality induced by a high‐salt diet (HSD). In here, overexpression and knockdown of muscle Pten gene were constructed by building MhcGAL4/PtenUAS‐overexpression and MhcGAL4/PtenUAS‐RNAi system in flies, and flies were given exercise training and a HSD for 2 weeks. The results showed that muscle Pten knockdown significantly reduced the climbing speed, climbing endurance, GPX activity, and the expression of Pten, Sirt1, PGC‐1α genes, and it significantly increased the expression of Akt and ROS level, and impaired myofibril and mitochondria of aged skeletal muscle. Pten knockdown prevented exercise from countering the HSD‐induced age‐related deterioration of skeletal muscle. Pten overexpression has the opposite effect on skeletal muscle aging when compared to it knockdown, and it promoted exercise against HSD‐induced age‐related deterioration of skeletal muscle. Pten overexpression significantly increased lifespan, but its knockdown significantly decreased lifespan of flies. Thus, current results confirmed that differential expression of muscle Pten gene played an important role in regulating skeletal muscle aging and lifespan, and it also affected the adaptability of aging skeletal muscle to physical exercise since it determined the activity of muscle Pten/Akt pathway and Pten/Sirt1/PGC‐1α pathway.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Physical exercise ameliorates age‐related deterioration of skeletal muscle and mortality by activating Pten‐related pathways in Drosophila on a high‐salt diet

Hou,

Wen,

Zhong

et al. 2023

The FASEB Journal

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“…Lifespan assays were performed as previously described [ 50 ]. Forty vials per group ( A. keiskei supplemented or control), with 6 males and 6 females per vial, were set up with both w 1118 and JIV fly strains.…”

Section: Methodsmentioning

confidence: 99%

Angelica keiskei Impacts the Lifespan and Healthspan of Drosophila melanogaster in a Sex and Strain-Dependent Manner

et al. 2023

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Angelica keiskei is a perennial plant, belonging to the Apiaceae family and originating from Japan. This plant has been reported to act as a diuretic, analeptic, antidiabetic, hypertensive, tumor, galactagogue, and laxative. The mechanism of action of A. keiskei is not known, but previous studies have suggested that it may act as an antioxidant. In this work, we used Drosophila melanogaster to evaluate the impact of A. keiskei on lifespan and healthspan and its potential anti-aging mechanism by conducting multiple assays on three fly strains: w1118, chico, and JIV. We observed that the extract extended lifespan and improved healthspan in a sex- and strain-dependent manner. A. keiskei extended lifespan and improved reproductive fitness in female flies and either had no effect or decreased survival and physical performance in males. The extract protected against the superoxide generator paraquat in both sexes. These sex-specific effects suggest that A. keiskei may act through age-specific pathways such as the insulin and insulin-like growth factor signaling (IIS) pathways. Upon examination, we found that the increased survival of A. keiskei-fed females was dependent on the presence of the insulin receptor substrate chico, supporting the role of IIS in the action of A. keiskei.

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“…A small amount of tissue (0.0031 ± 0.0016 g, n = 14) was excised from each kidney of both groups at T0, T1, and T2 for EPR experiments. For ROS detection in kidney tissue, methods were previously described [ 34 , 35 , 74 ]. Briefly, samples were biopted, weighed, and immediately incubated at 37 °C in Krebs-HEPES buffer (KHB) with 25 μM deferoxamine methane–sulfonate salt (DF) chelating agent and 5 μM sodium diethyldithio-carbamate trihydrate (DETC) at pH 7.4 with 1 mM of spin probe CMH.…”

Section: Methodsmentioning

confidence: 99%

“…As is well known, electron paramagnetic resonance (EPR) is the only technique capable of providing direct quantitative detection of the ‘instantaneous’ presence of ROS [ 29 , 30 ] in a variety of biological samples [ 31 , 32 , 33 , 34 , 35 ], resulting in its being the “gold standard”.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Oxidative Stress and Metabolic Profile in a Preclinical Kidney Transplantation Model According to Different Preservation Modalities

Mrakic‐Sposta

Vezzoli

Cova

et al. 2023

IJMS

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This study addresses a joint nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectroscopy approach to provide a platform for dynamic assessment of kidney viability and metabolism. On porcine kidney models, ROS production, oxidative damage kinetics, and metabolic changes occurring both during the period between organ retrieval and implantation and after kidney graft were examined. The 1H-NMR metabolic profile—valine, alanine, acetate, trimetylamine-N-oxide, glutathione, lactate, and the EPR oxidative stress—resulting from ischemia/reperfusion injury after preservation (8 h) by static cold storage (SCS) and ex vivo machine perfusion (HMP) methods were monitored. The functional recovery after transplantation (14 days) was evaluated by serum creatinine (SCr), oxidative stress (ROS), and damage (thiobarbituric-acid-reactive substances and protein carbonyl enzymatic) assessments. At 8 h of preservation storage, a significantly (p < 0.0001) higher ROS production was measured in the SCS vs. HMP group. Significantly higher concentration data (p < 0.05–0.0001) in HMP vs. SCS for all the monitored metabolites were found as well. The HMP group showed a better function recovery. The comparison of the areas under the SCr curves (AUC) returned a significantly smaller (−12.5 %) AUC in the HMP vs. SCS. EPR-ROS concentration (μmol·g−1) from bioptic kidney tissue samples were significantly lower in HMP vs. SCS. The same result was found for the NMR monitored metabolites: lactate: −59.76%, alanine: −43.17%; valine: −58.56%; and TMAO: −77.96%. No changes were observed in either group under light microscopy. In conclusion, a better and more rapid normalization of oxidative stress and functional recovery after transplantation were observed by HMP utilization.

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Lifespan and ROS levels in different Drosophila melanogaster strains after 24 h hypoxia exposure

Cited by 8 publications

References 73 publications

Physical exercise ameliorates age‐related deterioration of skeletal muscle and mortality by activating Pten‐related pathways in Drosophila on a high‐salt diet

Physical exercise ameliorates age‐related deterioration of skeletal muscle and mortality by activating Pten‐related pathways in Drosophila on a high‐salt diet

Angelica keiskei Impacts the Lifespan and Healthspan of Drosophila melanogaster in a Sex and Strain-Dependent Manner

Evaluation of Oxidative Stress and Metabolic Profile in a Preclinical Kidney Transplantation Model According to Different Preservation Modalities

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