Lipoic acid metabolism and mitochondrial redox regulation

Solmonson, Ashley; DeBerardinis, Ralph J.

doi:10.1074/jbc.tm117.000259

Cited by 283 publications

(268 citation statements)

References 83 publications

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“…56 In addition, TNF-α was involved in necroptosis pathway of the intestinal cell death, either through a number of protein kinases that induced membrane depolarization or by induced NF-κB activation. 12 On the contrary, subsequent to trimerization of TNF-α receptor, and recruitment of TNF receptor-associated factor-2 (TRAF-2) and ribosome inactivating protein (RIP) to death domain (DD), both of the TNF receptor type 1-associated DD protein (TRADD), TNF-α R, and IkB kinase (IKKs) were stimulated either directly 58-61 ( Figure 5) or indirectly via MAPK kinase 1-MAPK kinase 4-IKK (MEKK1-MKK4-IKK) pathway, which was stymied by ALA at each stage ( Figure 5). It was evident that the intestinal cell death and homeostasis have been significantly implicated in chronic colitis.…”

Section: Discussionmentioning

confidence: 99%

“…57 Indeed, ALA interacted with phosphorylation of IkB-α as an NF-κB suppressant within the cytoplasm by means of either mitogen-activated protein kinase (MAPK) or recycling of vitamin E ( Figure 5). 12 On the contrary, subsequent to trimerization of TNF-α receptor, and recruitment of TNF receptor-associated factor-2 (TRAF-2) and ribosome inactivating protein (RIP) to death domain (DD), both of the TNF receptor type 1-associated DD protein (TRADD), TNF-α R, and IkB kinase (IKKs) were stimulated either directly [58][59][60][61] ( Figure 5) or indirectly via MAPK kinase 1-MAPK kinase 4-IKK (MEKK1-MKK4-IKK) pathway, which was stymied by ALA at each stage ( Figure 5). 62,63 On the contrary, it is known that vitamin E, as a protein kinase C (PKC) inhibitor, had contributed to the phosphorylation of IkB.…”

Section: Discussionmentioning

confidence: 99%

“…10,11 Of note, only R-LA is able to act as a cofactor, since it is conjugated to conserve lysine residues in an amide linkage. 12 ALA directly or indirectly acts against oxidative stress via multiple pathways including free radical elimination, 5,6 metal chelating, inhibition of oxidants generation or reactivity, stimulation of mitochondrial enzymes activity, an increase of antioxidant enzymes expressions, and restoration of antioxidants (vitamin C and E or GSH) or oxidized proteins. LA modulates these multi-enzyme complexes and plays a key role in cell growth and signaling, mitochondrial activity, and metabolism regulation.…”

Section: Introductionmentioning

confidence: 99%

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Effects of alpha lipoic acid and its derivative “andrographolid‐lipoic acid‐1” on ulcerative colitis: A systematic review with meta‐analysis of animal studies

Moeinian

Abdolghaffari

Nikfar

et al. 2018

J of Cellular Biochemistry

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We aimed to review and meta‐analyze the inflammatory and oxidative factors following alpha lipoic acid (ALA) and its derivative “andrographolid‐lipoic acid‐1” (AL‐1) in ulcerative colitis (UC). ALA plays an important role in scavenging intracellular radicals and inflammatory elements. AL‐1 is found in herbal medicines with potent anti‐inflammatory properties. Data were collected from the Google Scholar, PubMed, Scopus, Evidence‐based medicine/clinical trials, and Cochrane library database until 2017, which finally resulted in 22 animal studies (70 rats and 162 mice). The beneficial effects of ALA or AL‐1 on the most important parameters of UC were reviewed; also, studies were considered separately in mice and rats. Administration of ALA and AL‐1 significantly reduced the tumor necrosis factor‐α level compared with the controls, while data were not noteworthy in the meta‐analysis (mean differences = −18.57 [95% CI = −42.65 to 5.51], P = 0.13). In spite of insignificant decrease in meta‐analysis outcomes (differences = 6.92 [95% CI = −39.33 to 53.16], P = 0.77), a significant reduction in myeloperoxidase activity was shown following ALA or AL‐1 treatment compared with the controls. Despite significant differences in each study, we had to exclude some studies to homogenize data for meta‐analyzing as they showed insignificant results. Interleukin 6, cyclooxygenase‐2, glutathione, malondialdehyde, superoxide dismutase, histopathological score, macroscopic and microscopic scores, disease activity index, body weight change, and colon length were also reviewed. Most studies have emphasized on significant positive effects of ALA and AL‐1. Comprehensive clinical trials are obligatory to determine the precious position of ALA or AL‐1 in the management of UC.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of alpha lipoic acid and its derivative “andrographolid‐lipoic acid‐1” on ulcerative colitis: A systematic review with meta‐analysis of animal studies

Moeinian

Abdolghaffari

Nikfar

et al. 2018

J of Cellular Biochemistry

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“…PDC activity is highly regulated; it is inactivated by phosphorylation of serine sites on E1α by one of four pyruvate dehydrogenase kinases (PDKs: PDK1, PDK2, PDK3, and PDK4), while activation of PDC is achieved by removal of these phosphates from E1α by two pyruvate dehydrogenase phosphatases (PDPs: PDP1 and PDP2) . The lipoate cofactor plays a critical role in stabilizing and regulating PDC function . PDC also is glutathionylated on E2, and this glutathionylation decreases reactive oxygen species (ROS) production when pyruvate is being oxidized, while depletion of glutathione leads to increased ROS production from PDC .…”

Section: Introductionmentioning

confidence: 99%

“…1 The lipoate cofactor plays a critical role in stabilizing and regulating PDC function. 2 PDC also is glutathionylated on E2, and this glutathionylation decreases reactive oxygen species (ROS) production when pyruvate is being oxidized, while depletion of glutathione leads to increased ROS production from PDC. 3 Glutathione reductase (GRX2) regulates the reversible glutathionylation, which also is important for PDC activity.…”

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confidence: 99%

A novel null mutation in the pyruvate dehydrogenase phosphatase catalytic subunit gene (PDP1) causing pyruvate dehydrogenase complex deficiency

et al. 2019

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Congenital lactic acidosis due to pyruvate dehydrogenase phosphatase (PDP) deficiency is very rare. PDP regulates pyruvate dehydrogenase complex (PDC) and defective PDP leads to PDC deficiency. We report a case with functional PDC deficiency with low activated (+dichloroacetate) and inactivated (+fluoride) PDC activities in lymphocytes and fibroblasts, normal activity of other mitochondrial enzymes in fibroblasts, and novel biallelic frameshift mutation in the PDP1 gene, c.575dupT (p.L192FfsX5), with absent PDP1 product in fibroblasts. Unexpectedly, the patient also had low branched‐chain 2‐ketoacid dehydrogenase (BCKDH) activity in fibroblasts with slight elevation of branched‐chain amino acids in plasma and ketoacids in urine but with no pathogenic mutations in the enzymes of BCKDH, which could suggest shared regulatory function of PDC and BCKDH in fibroblasts, potentially in other tissues or cell types as well, but this remains to be determined. The clinical presentation of this patient overlaps that of other patients with primary‐specific PDC deficiency, with neonatal/infantile and childhood lactic acidosis, normal lactate to pyruvate ratio, elevated plasma alanine, delayed psychomotor development, epileptic encephalopathy, feeding difficulties, and hypotonia. This patient exhibited marked improvement of overall development following initiation of ketogenic diet at 31 months of age. To the best of our knowledge, this is the fourth case of functional PDC deficiency with a defined mutation in PDP1 . Synopsis Pyruvate dehydrogenase phosphatase (PDP) regulates pyruvate dehydrogenase complex (PDC) and defective PDP due to PDP1 mutations leads to PDC deficiency and congenital lactic acidosis.

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Mitochondrial [2Fe‐2S] ferredoxins: new functions for old dogs

et al. 2022

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Ferredoxins (FDXs) comprise a large family of iron–sulfur proteins that shuttle electrons from NADPH and FDX reductases into diverse biological processes. This review focuses on the structure, function and specificity of mitochondrial [2Fe‐2S] FDXs that are related to bacterial FDXs due to their endosymbiotic inheritance. Their classical function in cytochrome P450‐dependent steroid transformations was identified around 1960, and is exemplified by mammalian FDX1 (aka adrenodoxin). Thirty years later the essential function in cellular Fe/S protein biogenesis was discovered for the yeast mitochondrial FDX Yah1 that is additionally crucial for the formation of haem a and ubiquinone CoQ6. In mammals, Fe/S protein biogenesis is exclusively performed by the FDX1 paralog FDX2, despite the high structural similarity of both proteins. Recently, additional and specific roles of human FDX1 in haem a and lipoyl cofactor biosyntheses were described. For lipoyl synthesis, FDX1 transfers electrons to the radical S‐adenosyl methionine‐dependent lipoyl synthase to kickstart its radical chain reaction. The high target specificity of the two mammalian FDXs is contained within small conserved sequence motifs, that upon swapping change the target selection of these electron donors.

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Lipoic acid metabolism and mitochondrial redox regulation

Cited by 283 publications

References 83 publications

Effects of alpha lipoic acid and its derivative “andrographolid‐lipoic acid‐1” on ulcerative colitis: A systematic review with meta‐analysis of animal studies

Effects of alpha lipoic acid and its derivative “andrographolid‐lipoic acid‐1” on ulcerative colitis: A systematic review with meta‐analysis of animal studies

A novel null mutation in the pyruvate dehydrogenase phosphatase catalytic subunit gene (PDP1) causing pyruvate dehydrogenase complex deficiency

Mitochondrial [2Fe‐2S] ferredoxins: new functions for old dogs

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