Interplay between adenylate metabolizing enzymes and AMP‐activated protein kinase

Camici, Marcella; Allegrini, Simone; Tozzi, Maria Grazia

doi:10.1111/febs.14508

Cited by 35 publications

(58 citation statements)

References 106 publications

(158 reference statements)

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“…The phosphorylation of AMPK is largely dependent on the AMP and ATP ratio [43,[46][47][48][49]. After AMP binding to the AMPK γ-subunit, the allosteric structure will change.…”

Section: A Brief Review Of Ampkmentioning

confidence: 99%

“…Through AMP binding to site 1, the enzyme is activated. At site 3, binding of either AMP or ADP will suppress the ability of phosphatases to remove the phosphate from Thr 172 and inhibit the enzyme [9,43].The phosphorylation of AMPK is largely dependent on the AMP and ATP ratio [43,[46][47][48][49]. After AMP binding to the AMPK γ-subunit, the allosteric structure will change.…”

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confidence: 99%

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AMPK: a balancer of the renin–angiotensin system

Liu

et al. 2019

Bioscience Reports

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The renin–angiotensin system (RAS) is undisputedly well-studied as one of the oldest and most critical regulators for arterial blood pressure, fluid volume, as well as renal function. In recent studies, RAS has also been implicated in the development of obesity, diabetes, hyperlipidemia, and other diseases, and also involved in the regulation of several signaling pathways such as proliferation, apoptosis and autophagy, and insulin resistance. AMP-activated protein kinase (AMPK), an essential cellular energy sensor, has also been discovered to be involved in these diseases and cellular pathways. This would imply a connection between the RAS and AMPK. Therefore, this review serves to draw attention to the cross-talk between RAS and AMPK, then summering the most recent literature which highlights AMPK as a point of balance between physiological and pathological functions of the RAS.

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“…The phosphorylation of AMPK is largely dependent on the AMP and ATP ratio [43,[46][47][48][49]. After AMP binding to the AMPK γ-subunit, the allosteric structure will change.…”

Section: A Brief Review Of Ampkmentioning

confidence: 99%

mentioning

confidence: 99%

AMPK: a balancer of the renin–angiotensin system

Liu

et al. 2019

Bioscience Reports

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“…De novo synthesis is feedback regulated by its final products adenosine 5′-monophosphate (AMP), inosine 5′-monophosphate (IMP) and guanosine 5′-monophosphate (GMP), which are allosteric inhibitors of 5-phosphoribosyl-1-pyrophosphate (PRPP) amidotransferase (PPAT) [ 5 ], while it is increased in the presence of PRPP which is both substrate and allosteric activator of the same enzyme [ 6 ] ( Figure 1 ). Conversely, the purine salvage pathway is mainly regulated by the level of expression of enzymes and their kinetic characteristics and substrate concentrations, particularly of PRPP, which is a cosubstrate for adenine, hypoxanthine, and guanine salvage [ 7 ] ( Figure 2 ). Therefore, PRPP appears to be an important regulator in common to both pathways [ 6 , 7 ].…”

Section: Introductionmentioning

confidence: 99%

“…Conversely, the purine salvage pathway is mainly regulated by the level of expression of enzymes and their kinetic characteristics and substrate concentrations, particularly of PRPP, which is a cosubstrate for adenine, hypoxanthine, and guanine salvage [ 7 ] ( Figure 2 ). Therefore, PRPP appears to be an important regulator in common to both pathways [ 6 , 7 ]. As shown in Figure 2 , the purine salvage pathway and purine catabolism are strictly correlated.…”

Section: Introductionmentioning

confidence: 99%

Emerging Role of Purine Metabolizing Enzymes in Brain Function and Tumors

Garcia‐Gil

Camici²,

Allegrini³

et al. 2018

IJMS

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The growing evidence of the involvement of purine compounds in signaling, of nucleotide imbalance in tumorigenesis, the discovery of purinosome and its regulation, cast new light on purine metabolism, indicating that well known biochemical pathways may still surprise. Adenosine deaminase is important not only to preserve functionality of immune system but also to ensure a correct development and function of central nervous system, probably because its activity regulates the extracellular concentration of adenosine and therefore its function in brain. A lot of work has been done on extracellular 5′-nucleotidase and its involvement in the purinergic signaling, but also intracellular nucleotidases, which regulate the purine nucleotide homeostasis, play unexpected roles, not only in tumorigenesis but also in brain function. Hypoxanthine guanine phosphoribosyl transferase (HPRT) appears to have a role in the purinosome formation and, therefore, in the regulation of purine synthesis rate during cell cycle with implications in brain development and tumors. The final product of purine catabolism, uric acid, also plays a recently highlighted novel role. In this review, we discuss the molecular mechanisms underlying the pathological manifestations of purine dysmetabolisms, focusing on the newly described/hypothesized roles of cytosolic 5′-nucleotidase II, adenosine kinase, adenosine deaminase, HPRT, and xanthine oxidase.

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“…137,138 More importantly, phosphorylating of AMPK signaling depends on adenosine triphosphate ATP/AMP ratio to a great extent. 139,140 Interestingly, AMPK signaling expressed a dual role to protect normal brain cells from energy stress while repressing the tumor cells. 141 It has been reported that activities of glycolysis including glucose uptake, ATP levels, and lactate production were regulated by AMPK signaling in glioma cells.…”

Section: Ampk Signalingmentioning

confidence: 99%

<p>Emerging Roles and Therapeutic Interventions of Aerobic Glycolysis in Glioma</p>

Han¹,

Shi²,

Cao³

et al. 2020

OTT

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Glioma is the most common type of intracranial malignant tumor, with a great recurrence rate due to its infiltrative growth, treatment resistance, intra-and intertumoral genetic heterogeneity. Recently, accumulating studies have illustrated that activated aerobic glycolysis participated in various cellular and clinical activities of glioma, thus influencing the efficacy of radiotherapy and chemotherapy. However, the glycolytic process is too complicated and ambiguous to serve as a novel therapy for glioma. In this review, we generalized the implication of key enzymes, glucose transporters (GLUTs), signalings and transcription factors in the glycolytic process of glioma. In addition, we summarized therapeutic interventions via the above aspects and discussed promising clinical applications for glioma.

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Interplay between adenylate metabolizing enzymes and AMP‐activated protein kinase

Cited by 35 publications

References 106 publications

AMPK: a balancer of the renin–angiotensin system

AMPK: a balancer of the renin–angiotensin system

Emerging Role of Purine Metabolizing Enzymes in Brain Function and Tumors

<p>Emerging Roles and Therapeutic Interventions of Aerobic Glycolysis in Glioma</p>

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