Human Fructosamine-3-Kinase

Szwergold, Benjamin S.; Howell, Scott K.; Beisswenger, Paul J.

doi:10.2337/diabetes.50.9.2139

Cited by 156 publications

(134 citation statements)

References 58 publications

(56 reference statements)

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“…Estimates reported here are similar to those reported previously [25]. The increased FL urinary excretion in diabetes may underestimate increased formation in diabetes, as FL urinary excretion is metabolised efficiently by fructosamine-3-phosphokinase [26]. FL residues in haemoglobin correlated positively with measures of glycaemic control, HbA 1 c and 24hG, whereas FL residues in plasma protein correlated negatively with CEL and 3DG-H residues.…”

Section: Discussionsupporting

confidence: 87%

“…The concentrations of MG-H1 and 3DG-H in haemoglobin were approximately ten-fold higher than the concentrations of CML and CEL residues, and 100-and 500-fold higher than the concentrations of MOLD and pentosidine residues respectively. Formation of 3DG-H in RBCs may be linked to the formation of 3-DG by the deglycating action of fructosamine-3-phosphokinase on HbA 1 c [26,33]. Application of matrix-assisted laser desorption ionisation (MALDI) mass spectrometry gave evidence of multiple types of modified haemoglobin in diabetes by molecular mass measurement of haemoglobin subunits [34], consistent with the findings of this study.…”

Section: Discussionsupporting

confidence: 87%

“…The predicted contributions of plasma protein and haemoglobin degradation to the excretion of protein glycation, oxidation and nitration free adducts revealed predicted excess production of MetSO and FL free adducts, consistent with the efficient metabolism of MetSO by MetSO reductase [48] and repair of FL residues and free adducts by fructosamine-3-phosphokinase [26,33]. NFK and 3-NT are also metabolised to kynurenine [49] and 3-nitro-4-hydroxyphenylacetic acid [50] respectively.…”

Section: Discussionmentioning

confidence: 57%

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Degradation products of proteins damaged by glycation, oxidation and nitration in clinical type 1 diabetes

et al. 2005

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Aims/hypothesis: Hyperglycaemia in diabetes is associated with increased glycation, oxidative stress and nitrosative stress. Proteins modified consequently contain glycation, oxidation and nitration adduct residues, and undergo cellular proteolysis with release of corresponding free adducts. These free adducts leak into blood plasma for eventual renal excretion. The aim of this study was to perform a comprehensive quantitative analysis of protein glycation, oxidation and nitration adduct residues in plasma protein and haemoglobin as well as of free adducts in plasma and urine to quantify increased protein damage and flux of proteolytic degradation products in diabetes. Methods: Type 1 diabetic patients (n=21) and normal healthy control subjects (n=12) were studied. Venous blood samples, with heparin anticoagulant, and 24-h urine samples were taken. Samples were analysed for protein glycation, oxidation and nitration adducts by a quantitative comprehensive screening method using liquid chromatography with triple quadrupole mass spectrometric detection. Results: In type 1 diabetic patients, the concentrations of protein glycation, oxidation and nitration adduct residues increased up to three-fold in plasma protein and up to one-fold in haemoglobin, except for decreases in pentosidine and 3-nitrotyrosine residues in haemoglobin when compared with normal control subjects. In contrast, the concentrations of protein glycation and oxidation free adducts increased up to ten-fold in blood plasma, and urinary excretion increased up to 15-fold in diabetic patients. Conclusions/interpretation: We conclude that there are profound increases in proteolytic products of glycated and oxidised proteins in diabetic patients, concurrent with much lower increases in protein glycation and oxidation adduct residues.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 57%

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Degradation products of proteins damaged by glycation, oxidation and nitration in clinical type 1 diabetes

et al. 2005

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“…1,2 If both glycation and deglycation are occurring simultaneously, there is no evidence of a complex time course from mean cell age until cells are removed from the circulation. A deglycating enzyme 43 has recently been identified that acts at lysine, but none has been reported that acts at the N-terminal glycated amino group. 44 The strong correlation of glycation rate with whole blood HbA1c in the DM and NDM subjects ( Figure 5) provides evidence that the whole blood determination depends on the integration of glycation rate throughout the red cell life span.…”

Section: Hba1c Synthesis Ratementioning

confidence: 99%

Red cell life span heterogeneity in hematologically normal people is sufficient to alter HbA1c

Cohen

Franco²,

Khera

et al. 2008

Blood

370

362

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Although red blood cell (RBC) life span is a known determinant of percentage hemoglobin A1c (HbA1c), its variation has been considered insufficient to affect clinical decisions in hematologically normal persons. However, an unexplained discordance between HbA1c and other measures of glycemic control can be observed that could be, in part, the result of differences in RBC life span. To explore the hypothesis that variation in RBC life span could alter measured HbA1c sufficiently to explain some of this discordance, we determined RBC life span using a biotin label in 6 people with diabetes and 6 nondiabetic controls.

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“…The non-enzymatic reaction of protein amino groups with glucose and other reducing sugars has long been considered irreversible [8,25]. However, recent evidence indicates that fructosamines can be repaired by Fructosamine-3-Kinase (FN3K), which phosphorilates fructoselysine (FL) residues on glycated proteins, resulting in the production of protein-bound FL-3-phosphate (FL3P) [16].…”

Section: Introductionmentioning

confidence: 99%

Reduced fructosamine-3-kinase activity and its mRNA in human distal colorectal carcinoma

Notarnicola¹,

Caruso²,

Tutino³

et al. 2010

Genes Nutr

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Fructosamine-3-Kinase (FN3K) is an enzyme phosphorilating fructoselysine (FL) residues on glycated proteins, resulting in the production of protein-bound FL-3-phosphate. The pathological role of the non-enzymatic modification of proteins by reducing sugars has become increasingly evident in various types of disorders, including the cancer. In this study, our aim was to study FN3K enzyme activity, as well as its mRNA in human colorectal cancer (CRC). Thirty consecutive CRC patients undergoing surgery of the colon were enrolled in the study. FN3K enzymatic activity and gene expression were analyzed using a radiometric assay and quantitative RT-PCR, respectively. FN3K is a functionally active enzyme in human colon tissue, without significant differences between normal mucosa and cancer. The mean level of FN3K mRNA was significantly lower in cancer than in the corresponding normal colorectal mucosa The colorectal tumors located on the left side showed lower levels of both enzymatic activity and mRNA FN3K than tumors located in the right side of colon. This paper is the first studying FN3K enzyme activity in human CRC, showing a significant relationship between enzymatic activity, its mRNA and tumor side.

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Human Fructosamine-3-Kinase

Cited by 156 publications

References 58 publications

Degradation products of proteins damaged by glycation, oxidation and nitration in clinical type 1 diabetes

Degradation products of proteins damaged by glycation, oxidation and nitration in clinical type 1 diabetes

Red cell life span heterogeneity in hematologically normal people is sufficient to alter HbA1c

Reduced fructosamine-3-kinase activity and its mRNA in human distal colorectal carcinoma

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