Thiamine pyrophosphate: An essential cofactor for the α-oxidation in mammals – implications for thiamine deficiencies?

Sniekers, Mieke; Foulon, Veerle; Mannaerts, Guy P.; Maldergem, Lionel Van; Mandel, Hanna; Gelb, Bruce D.; Casteels, Minne; Veldhoven, Paul P. Van

doi:10.1007/s00018-005-5603-4

Cited by 23 publications

(35 citation statements)

References 56 publications

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“…A gender dependency, so far not reported, was found (106 ± 12 mU/g liver in females, n = 4, and 71 ± 19 mU/g liver in males, n = 6). The values obtained were comparable to those previously measured in rodent liver homogenates using long-chain 2-hydroxyacylCoA as substrate ( 5,6,23 ). Linearity of HACL1 activity in mouse liver homogenates is limited to 5 min (at 1 mg (40 M).…”

Section: Application To Biological Samplessupporting

confidence: 85%

“…To simulate HACL1 defi ciency, so far not yet reported, HACL1 activity was measured in human fi broblasts exposed to oxythiamine (OT), which blocks the coenzyme functions of thiamine. In fact, OT-diphosphate competes with TPP for binding to apo-enzymes ( 23 ). As reported before, OT exposure resulted in inhibition of ␣ -oxidation ( 23 ) and reduced HACL1 activity ( Fig.…”

Section: Application To Biological Samplessupporting

confidence: 61%

“…At the time of the experiment, mice were anesthetized with an overdose of Nembutal (approximately 150 g/g body weight), and tissues were dissected. Human fi broblasts ( 23 ) and murine fi broblasts, derived from C57BL6 or Sgpl1 Ϫ / Ϫ mice ( 24,25 ), were cultured as described in the cited references .…”

Section: Animals and Cellsmentioning

confidence: 99%

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RP-HPLC-fluorescence analysis of aliphatic aldehydes: application to aldehyde-generating enzymes HACL1 and SGPL1

Mezzar

Schryver

Veldhoven

2014

Journal of Lipid Research

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Long-chain aliphatic aldehydes are produced during various metabolic processes, such as microsomal oxidation of long-chain alcohols, lysosomal degradation of prenylated proteins, peroxisomal ␣ -oxidation of 3-methylbranched fatty acids and 2-hydroxy long-chain fatty acids, microsomal breakdown of phosphorylated sphingoid bases, attack of plasmalogens by myeloperoxidase (MPO)-derived hypochlorous acid, and microsomal degradation of (lyso)plasmalogens (see Fig. 1A ). The involved enzymes are fatty aldehyde dehydrogenase (ALDH3A2) ( 1, 2 ), prenylcysteine oxidase 1 (PCYOX1) ( 3, 4 ), 2-hydroxyacylCoA lyase (HACL1) ( 5, 6 ), sphingosine-1-phosphate lyase (SGPL1) ( 7-9 ), MPO ( 10 ), and lysoplasmalogenase ( 11,12 ). In particular, two of these enzymes, HACL1 and SGPL1, have intensively been studied in our laboratory. Their activity measurements are complicated by their low specifi c activity [ ‫ف‬ 115 ( 5 ) and ‫ف‬ 15 mU/g rat liver ( 13 ), respectively], low K m (10-15 M), and the considerable interference of enzymes acting on their substrates (acylCoA hydrolases for HACL1; phosphatases for SGPL1) or on their cofactors (phosphatases acting on TPP, cofactor for HACL1, and on pyridoxal-phosphate, cofactor for SGPL1). In addition, the generated aldehyde is chemically not stable and subject to further metabolism, and compounds normally used to trap the aldehyde or block its metabolism interfere with the cofactor (pyridoxalphosphate). Moreover, the presence of plasmalogens in mammalian tissues, which give rise to aldehydes under acidic conditions ( 14 ), can cause a high background when using nonradioactive substrates, especially in nervous tissue.To measure HACL1 and SGPL1 activities in tissue or cell lysates, various protocols were developed by our group.Abstract Long-chain aldehydes are commonly produced in various processes, such as peroxisomal ␣ -oxidation of longchain 3-methyl-branched and 2-hydroxy fatty acids and microsomal breakdown of phosphorylated sphingoid bases. The enzymes involved in the aldehyde-generating steps of these processes are 2-hydroxyacyl-CoA lyase (HACL1) and sphingosine-1-phosphate lyase (SGPL1), respectively. In the present work, nonradioactive assays for these enzymes were developed employing the Hantzsch reaction. Tridecanal (C13-al) and heptadecanal (C17-al) were selected as model compounds and cyclohexane-1,3-dione as 1,3-diketone, and the fl uorescent derivatives were analyzed by reversed phase (RP)-HPLC. Assay mixture composition, as well as pH and heating, were optimized for C13-al and C17-al. Under optimized conditions, these aldehydes could be quantifi ed in picomolar range and different long-chain aldehyde derivatives were well resolved with a linear gradient elution by RP-HPLC. Aldehydes generated by recombinant enzymes could easily be detected via this method. Moreover, the assay allowed to document activity or defi ciency in tissue homogenates and fi broblast lysates without an extraction step. In conclusion, a simple, quick, and cheap assay for the study of HACL1 and SGPL1 ac...

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Section: Application To Biological Samplessupporting

confidence: 85%

Section: Application To Biological Samplessupporting

confidence: 61%

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RP-HPLC-fluorescence analysis of aliphatic aldehydes: application to aldehyde-generating enzymes HACL1 and SGPL1

Mezzar

Schryver

Veldhoven

2014

Journal of Lipid Research

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“…Given extracellularly, the majority of 2OH-FA appear to be degraded, with few molecules being incorporated into structural lipids ( 19,59,60 ). The steps involved in the degradation of 2OH-FA are an activation, uptake of the…”

Section: Acsl1mentioning

confidence: 99%

Biochemistry and genetics of inherited disorders of peroxisomal fatty acid metabolism

Veldhoven

2010

Journal of Lipid Research

286

290

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“…Thiamine (T), vitamin B 1 , is a water-soluble vitamin essential for vertebrates. Inside the cell, T is phosphorylated (10) to thiamine diphosphate (TDP), which functions as a cofactor for at least 5 vital enzymes in the cellular metabolism: transketolase (TK) in the hexose monophosphate shunt, pyruvate dehydrogenase in the glycolysis, ␣-ketoglutarate dehydrogenase (KGDH) in the citric acid cycle, branched-chain ␣-keto acid dehydrogenase for the metabolism of amino acids, and, as recently shown, 2-hydroxyacylCoA lyase 1 for the ␣-oxidation of 3-methyl-branched and 2-hydroxy straight chain fatty acids (11,12). Further phosphorylation produces thiamine triphosphate, which is necessary for the proper functioning of neuronal membranes (13,14).…”

mentioning

confidence: 99%

Wild birds of declining European species are dying from a thiamine deficiency syndrome

Balk

Hägerroth

Åkerman

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Wild birds of several species are dying in large numbers from an idiopathic paralytic disease in the Baltic Sea area. Here, we demonstrate strong relationships between this disease, breeding failure, and thiamine (vitamin B1) deficiency in eggs, pulli, and full-grown individuals. Thiamine is essential for vertebrates, and its diphosphorylated form functions as a cofactor for several life sustaining enzymes, whereas the triphosphorylated form is necessary for the functioning of neuronal membranes. Paralyzed individuals were remedied by thiamine treatment. Moreover, thiamine deficiency and detrimental effects on thiamine-dependent enzymes were demonstrated in the yolk, liver, and brain. We propose that the mortality and breeding failure are part of a thiamine deficiency syndrome, which may have contributed significantly to declines in many bird populations during the last decades.␣-ketoglutarate dehydrogenase ͉ avian ͉ extinction ͉ transketolase

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Thiamine pyrophosphate: An essential cofactor for the α-oxidation in mammals – implications for thiamine deficiencies?

Cited by 23 publications

References 56 publications

RP-HPLC-fluorescence analysis of aliphatic aldehydes: application to aldehyde-generating enzymes HACL1 and SGPL1

RP-HPLC-fluorescence analysis of aliphatic aldehydes: application to aldehyde-generating enzymes HACL1 and SGPL1

Biochemistry and genetics of inherited disorders of peroxisomal fatty acid metabolism

Wild birds of declining European species are dying from a thiamine deficiency syndrome

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