Properties and functions of the thiamin diphosphate dependent enzyme transketolase

Schenk, Gerhard; Duggleby, Ronald G.; Nixon, P.G.F.

doi:10.1016/s1357-2725(98)00095-8

Cited by 225 publications

(182 citation statements)

References 162 publications

(246 reference statements)

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“…Interestingly, the proposed reactions of the nonoxidative PPP are not firmly established; experimentally measured degree of 14 C isotope labelling and its distribution in carbon atoms of fructose-6-phosphate differs from that predicted by reaction sequences (Horecker et al, 1954;Williams et al, 1987;Schenk et al, 1998). This discrepancy demonstrates the presence of other types of nonoxidative PPP reactions, although the molecular and biochemical basis of these reactions remain elusive.…”

Section: Discussionmentioning

confidence: 99%

Expression of transketolase TKTL1 predicts colon and urothelial cancer patient survival: Warburg effect reinterpreted

et al. 2006

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Tumours ferment glucose to lactate even in the presence of oxygen (aerobic glycolysis; Warburg effect). The pentose phosphate pathway (PPP) allows glucose conversion to ribose for nucleic acid synthesis and glucose degradation to lactate. The nonoxidative part of the PPP is controlled by transketolase enzyme reactions. We have detected upregulation of a mutated transketolase transcript (TKTL1) in human malignancies, whereas transketolase (TKT) and transketolase-like-2 (TKTL2) transcripts were not upregulated. Strong TKTL1 protein expression was correlated to invasive colon and urothelial tumours and to poor patients outcome. TKTL1 encodes a transketolase with unusual enzymatic properties, which are likely to be caused by the internal deletion of conserved residues. We propose that TKTL1 upregulation in tumours leads to enhanced, oxygen-independent glucose usage and a lactatebased matrix degradation. As inhibition of transketolase enzyme reactions suppresses tumour growth and metastasis, TKTL1 could be the relevant target for novel anti-transketolase cancer therapies. We suggest an individualised cancer therapy based on the determination of metabolic changes in tumours that might enable the targeted inhibition of invasion and metastasis.

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Section: Discussionmentioning

confidence: 99%

Expression of transketolase TKTL1 predicts colon and urothelial cancer patient survival: Warburg effect reinterpreted

et al. 2006

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“…Transketolase reaction is reversible, with the sole exception of cases where hydroxypyruvate is used as a substrate (1)(2)(3).…”

Section: Introductionmentioning

confidence: 99%

Functional nonequivalence of transketolase active centers

Kochetov

Sevostyanova

2010

IUBMB Life

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SummaryTransketolase (TK, EC 2.2.1.1), the key enzyme of the nonoxidative branch of pentose phosphate pathway of hydrocarbon transformation, plays an important role in a system of substrate rearrangement between pentose shunt and glycolysis, acting as a reversible link between the two metabolic pathways. In addition, it supplies precursors for biosyntheses of nucleotides, aromatic amino acids, and vitamins. In plants, the enzyme plays a central role in the Calvin cycle. TK catalyzes interconversion of sugar phosphates. Thiamine diphosphate (TDP) and bivalent cations serve as its cofactors. Being a typical TDP-dependent enzyme, TK is the least complex representative of this group of enzymes, and this accounts for its use as a model in studies of their structure and mechanism of action. TK is readily crystallized, this being the reason why the first crystal X-ray structure analysis of TDP-dependent enzymes was performed with a TK sample. Both the general structure of TK and the structures of its active centers have been studied in detail. In this article, we review experimental evidence of functional nonequivalence of the two active centers of TK, which are known to be identical by crystal X-ray structure analysis. half-of-the-sites reactivity.Abbreviations TK, Transketolase; TDP, thiamine diphosphate; X5P, xylulose 5-phosphate; R5P, ribose 5-phosphate; F6P, fructose 6-phosphate; DHETDP, dihydroxyethylthiamine diphosphate.

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“…TKT is known to encode an active transketolase enzyme (8), and TKTL2 is also likely to encode an active transketolase enzyme. TKTL1 has been assumed to be a pseudogene; however, it has been previously shown that TKTL1 could encode a transketolase-like protein (9).…”

Section: Introductionmentioning

confidence: 99%

Transketolase protein TKTL1 overexpression: A potential biomarker and therapeutic target in breast cancer

Földi¹,

Stickeler²,

Bau³

et al. 2007

Oncol Rep

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Abstract. Malignant tumors degrade glucose to lactate even in the presence of oxygen via the pentose phosphate pathway (ppp). The non-oxidative part of the ppp is controlled by thiamine-dependant transketolase enzyme reactions. Overexpression of the transketolase-like-1-gene (TKTL1) in urothelial and colorectal cancer is associated with poor patient outcome. We analyzed the expression of the TKTL1 protein in a retrospective institution-based patient cohort with invasive breast cancer by immunohistochemical analysis of 124 paraffin-embedded breast cancer tissues. Our study revealed TKTL1 expression in 86% of breast cancer specimens with 45% showing high expression levels. In contrast, only 29% of corresponding non-neoplastic breast tissues were TKTL1 immunopositive, including 9% with high expression levels. High expression levels of TKTL1 correlated significantly to Her2/neu overexpression (p=0.015). However, TKTL1 expression failed to reach statistical significance for other common prognostic parameters. In contrast to recent data for e.g. colorectal cancer TKTL1 overexpression did not correlate to patient outcome and survival. However, in the context of novel insights into TKTL1-related tumor metabolism and the high proportion of TKTL1 overexpressing breast cancers, this enzyme represents a potential candidate for targeted inhibition of tumor growth in this tumor entity.

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Properties and functions of the thiamin diphosphate dependent enzyme transketolase

Cited by 225 publications

References 162 publications

Expression of transketolase TKTL1 predicts colon and urothelial cancer patient survival: Warburg effect reinterpreted

Expression of transketolase TKTL1 predicts colon and urothelial cancer patient survival: Warburg effect reinterpreted

Functional nonequivalence of transketolase active centers

Transketolase protein TKTL1 overexpression: A potential biomarker and therapeutic target in breast cancer

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