PUBLICATION
Gracilaria chorda subcritical-water extracts as ameliorant of insulin resistance induced by high-glucose in zebrafish and dexamethasone in L6 myotubes
- Authors
- Thakuri, L.S., Park, C.M., Park, J.W., Rhyu, D.Y.
- ID
- ZDB-PUB-240115-14
- Date
- 2023
- Source
- Journal of traditional and complementary medicine 14: 829082-90 (Journal)
- Registered Authors
- Keywords
- Gracilaria chorda, Insulin resistance, L6 myotubes, Subcritical-water extract, Zebrafish larvae
- MeSH Terms
- none
- PubMed
- 38223809 Full text @ J Tradit Complement Med
Citation
Thakuri, L.S., Park, C.M., Park, J.W., Rhyu, D.Y. (2023) Gracilaria chorda subcritical-water extracts as ameliorant of insulin resistance induced by high-glucose in zebrafish and dexamethasone in L6 myotubes. Journal of traditional and complementary medicine. 14:829082-90.
Abstract
Background and aim Insulin resistance (IR) is a pathological condition in which cells fail to respond normally to insulin. Loss of insulin sensitivity disrupts glucose homeostasis and elevates the risk of developing the metabolic syndrome that includes Type 2 diabetes. This study assesses the effect on subcritical-water extract of Gracilaria chorda (GC) at 210 °C (GCSW210) in IR induction models of high glucose (HG)-induced zebrafish larvae and dexamethasone (DEX)-induced L6 myotubes.
Experimental procedure The dose of HG and DEX for IR induction in zebrafish larvae and L6 myotubes was 130 mM or 0.5 μM. The capacity of glucose uptake was quantified by fluorescence staining or intensity. In addition, the activation of protein and mRNA expressions for insulin signaling (insulin-dependent or independent pathways) was measured.
Results and conclusion Exposure of zebrafish larvae to HG significantly reduced the intracellular glucose uptake with dose-dependnet manner compared to control. However, the group treated with GCSW210 significantly averted HG levels like the insulin-treated group, and significantly up- or down-regulated the mRNA expressions related to insulin production (insα) and insulin signaling pathways. Moreover, the treatment with GCSW210 effectively regulated the protein expression of PI3K/AKT, AMPK, and GLUT4 involved in the action of insulin in IR models of L6 myotubes compared to DEX-treated control. Our data indicate that GCSW210 stimulates activation of PI3K/AKT and AMPK pathways to attenuate the development of IR induced by HG in zebrafish and DEX in L6 myotubes. In conclusion, GCSW210 is a potential agent for alleviating various diseases associated with the insulin resistance.
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