Shan Jiang scite author profile

Glycogen synthase kinase-3β (GSK-3β), a serine/threonine protein kinase, has been reported to show essential roles in molecular pathophysiology of many diseases. Mitochondrion is a dynamic organelle for producing cellular energy and determining cell fates. Stress-induced translocated GSK-3β may interact with mitochondrial proteins, including PI3K-Akt, PGC-1α, HK II, PKCε, components of respiratory chain, and subunits of mPTP. Mitochondrial pool of GSK-3β has been implicated in mediation of mitochondrial functions. GSK-3β exhibits the regulatory effects on mitochondrial biogenesis, mitochondrial bioenergetics, mitochondrial permeability, mitochondrial motility, and mitochondrial apoptosis. The versatile functions of GSK-3β might be associated with its wide range of substrates. Accumulative evidence demonstrates that GSK-3β inactivation may be potentially developed as the promising strategy in management of many diseases, such as Alzheimer’s disease (AD) and Parkinson’s disease (PD). Intensive efforts have been made for exploring GSK-3β inhibitors. Natural products provide us a great source for screening new lead compounds in inactivation of GSK-3β. The key roles of GSK-3β in mediation of mitochondrial functions are discussed in this review.

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Liver governs adipose remodelling via extracellular vesicles in response to lipid overload

Zhao

Jiang

et al. 2020

Nat Commun

103

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Lipid overload results in lipid redistribution among metabolic organs such as liver, adipose, and muscle; therefore, the interplay between liver and other organs is important to maintain lipid homeostasis. Here, we show that liver responds to lipid overload first and sends hepatocyte-derived extracellular vesicles (EVs) targeting adipocytes to regulate adipogenesis and lipogenesis. Geranylgeranyl diphosphate synthase (Ggpps) expression in liver is enhanced by lipid overload and regulates EV secretion through Rab27A geranylgeranylation. Consistently, liver-specific Ggpps deficient mice have reduced fat adipose deposition. The levels of several EV-derived miRNAs in the plasma of non-alcoholic fatty liver disease (NAFLD) patients are positively correlated with body mass index (BMI), and these miRNAs enhance adipocyte lipid accumulation. Thus, we highlight an inter-organ mechanism whereby the liver senses different metabolic states and sends corresponding signals to remodel adipose tissue to adapt to metabolic changes in response to lipid overload.

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Altered protein prenylation in Sertoli cells is associated with adult infertility resulting from childhood mumps infection

Wang

Ying

Diao

et al. 2013

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Geranylgeranyl diphosphate synthase (GGPPS) regulates non‐alcoholic fatty liver disease (NAFLD)–fibrosis progression by determining hepatic glucose/fatty acid preference under high‐fat diet conditions

Liu

Jiang

Zhao

et al. 2018

The Journal of Pathology

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Patients with obesity have a high prevalence of non-alcoholic fatty liver disease (NAFLD) and, in parallel, increased susceptibility to fibrosis/cirrhosis/hepatocellular carcinoma (HCC). Herein, we report that a high-fat diet (HFD) can augment glycolysis and then accelerate NAFLD-fibrosis progression by downregulating the expression of geranylgeranyl diphosphate synthase (GGPPS), which is a critical enzyme in the mevalonate pathway. Long-term HFD overloading decreases GGPPS expression in mice, which shifts the fuel preference from fatty acids towards glucose. Liver-specific Ggpps deficiency drives the Warburg effect by impairing mitochondrial function, and then induces hepatic inflammation, thus exacerbating fibrosis. Ggpps deficiency also enhances the hyperfarnesylation of liver kinase B1, and promotes metabolic reprogramming by regulating 5'-AMP-activated protein kinase activity. Clinical data further imply that GGPPS expression can predict the stage of NAFLD and recurrence of NAFLD-associated HCC. We conclude that the level of GGPPS is a susceptibility factor for NAFLD-fibrosis progression, and requires more stringent surveillance to ensure early prediction and precision of treatment of NAFLD-related HCC. Copyright © 2018 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

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GGPPS‐mediated Rab27A geranylgeranylation regulates β cell dysfunction during type 2 diabetes development by affecting insulin granule docked pool formation

Jiang

Shen

Jia

et al. 2015

The Journal of Pathology

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Loss of first-phase insulin secretion associated with β cell dysfunction is an independent predictor of type 2 diabetes mellitus (T2DM) onset. Here we found that a critical enzyme involved in protein prenylation, geranylgeranyl pyrophosphate synthase (GGPPS), is required to maintain first-phase insulin secretion. GGPPS shows a biphasic expression pattern in islets of db/db mice during the progression of T2DM: GGPPS is increased during the insulin compensatory period, followed by a decrease during β cell dysfunction. Ggpps deletion in β cells results in typical T2DM β cell dysfunction, with blunted glucose-stimulated insulin secretion and consequent insulin secretion insufficiency. However, the number and size of islets and insulin biosynthesis are unaltered. Transmission electron microscopy shows a reduced number of insulin granules adjacent to the cellular membrane, suggesting a defect in docked granule pool formation, while the reserve pool is unaffected. Ggpps ablation depletes GGPP and impairs Rab27A geranylgeranylation, which is responsible for the docked pool deficiency in Ggpps-null mice. Moreover, GGPPS re-expression or GGPP administration restore glucose-stimulated insulin secretion in Ggpps-null islets. These results suggest that GGPPS-controlled protein geranylgeranylation, which regulates formation of the insulin granule docked pool, is critical for β cell function and insulin release during the development of T2DM.

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Protein prenylation and human diseases: a balance of protein farnesylation and geranylgeranylation

Shen

Wang

et al. 2015

Sci. China Life Sci.

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The protein prenylation is one of the essential post-translational protein modifications, which extensively exists in the eukaryocyte. It includes protein farnesylation and geranylgeranylation, using farnesyl pyrophosphate (FPP) or geranylgeranyl pyrophosphate (GGPP) as the substrate, respectively. The prenylation occurs by covalent addition of these two types of isoprenoids to cysteine residues at or near the carboxyl terminus of the proteins that possess CaaX motif, such as Ras small GTPase family. The attachment of hydrophobic prenyl groups can anchor the proteins to intracellular membranes and trigger downstream cell signaling pathway. Geranylgeranyl biphosphate synthase (GGPPS) catalyzes the synthesis of 20-carbon GGPP from 15-carbon FPP. The abnormal expression of this enzyme will affect the relative content of FPP and GGPP, and thus disrupts the balance between protein farnesylation and geranylgeranylation, which participates into various aspects of cellular physiology and pathology. In this paper, we mainly review the property of this important protein post-translational modification and research progress in its regulation of cigarette smoke induced pulmonary disease, adipocyte insulin sensitivity, the inflammation response of Sertoli cells, the hepatic lipogenesis and the cardiac hypertrophy. protein prenylation, GGPP, FPP, biological function regulation Citation:Xu N, Shen N, Wang XX, Jiang S, Xue B, Li CJ. Protein prenylation and human diseases: a balance of protein farnesylation and geranylgeranylation.

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Lipid-induced Muscle Insulin Resistance Is Mediated by GGPPS via Modulation of the RhoA/Rho Kinase Signaling Pathway

Tao

Xie

et al. 2015

Journal of Biological Chemistry

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Background: GGPPS is overexpressed in the muscle of ob/ob mice, but its function remains unknown. Results: Heterozygous knock-out of GGPPS in the skeletal muscle improved systemic insulin sensitivity and inhibited lipidinduced insulin resistance by decreasing RhoA/Rho kinase signaling. Conclusion: GGPPS promotes lipid-induced muscle insulin resistance by enhancing RhoA/Rho kinase signaling. Significance: GGPPS/RhoA/Rho kinase/IRS-1 axis is a novel pathway for the regulation of muscle insulin resistance.

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EGR1 regulates hepatic clock gene amplitude by activating Per1 transcription

Tao

Zhang

et al. 2015

Sci Rep

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The mammalian clock system is composed of a master clock and peripheral clocks. At the molecular level, the rhythm-generating mechanism is controlled by a molecular clock composed of positive and negative feedback loops. However, the underlying mechanisms for molecular clock regulation that affect circadian clock function remain unclear. Here, we show that Egr1 (early growth response 1), an early growth response gene, is expressed in mouse liver in a circadian manner. Consistently, Egr1 is transactivated by the CLOCK/BMAL1 heterodimer through a conserved E-box response element. In hepatocytes, EGR1 regulates the transcription of several core clock genes, including Bmal1, Per1, Per2, Rev-erbα and Rev-erbβ, and the rhythm amplitude of their expression is dependent on EGR1’s transcriptional function. Further mechanistic studies indicated that EGR1 binds to the proximal region of the Per1 promoter to activate its transcription directly. When the peripheral clock is altered by light or feeding behavior transposition in Egr1-deficient mice, the expression phase of hepatic clock genes shifts normally, but the amplitude is also altered. Our data reveal a critical role for EGR1 in the regulation of hepatic clock circuitry, which may contribute to the rhythm stability of peripheral clock oscillators.

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Shan Jiang

The Key Roles of GSK-3β in Regulating Mitochondrial Activity

Liver governs adipose remodelling via extracellular vesicles in response to lipid overload

Altered protein prenylation in Sertoli cells is associated with adult infertility resulting from childhood mumps infection

Geranylgeranyl diphosphate synthase (GGPPS) regulates non‐alcoholic fatty liver disease (NAFLD)–fibrosis progression by determining hepatic glucose/fatty acid preference under high‐fat diet conditions

GGPPS‐mediated Rab27A geranylgeranylation regulates β cell dysfunction during type 2 diabetes development by affecting insulin granule docked pool formation

Protein prenylation and human diseases: a balance of protein farnesylation and geranylgeranylation

Lipid-induced Muscle Insulin Resistance Is Mediated by GGPPS via Modulation of the RhoA/Rho Kinase Signaling Pathway

EGR1 regulates hepatic clock gene amplitude by activating Per1 transcription

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