Dicarbonyls and glyoxalase in disease mechanisms and clinical therapeutics

doi:10.1007/s10719-016-9705-z

Review

. 2016 Aug;33(4):513-25.

doi: 10.1007/s10719-016-9705-z. Epub 2016 Jul 12.

Dicarbonyls and glyoxalase in disease mechanisms and clinical therapeutics

Naila Rabbani¹, Mingzhan Xue², Paul J Thornalley^{3

4}

Affiliations

¹ Warwick Systems Biology Centre, Coventry House, University of Warwick, Coventry, CV4 7AL, UK.
² Glyoxalase Research Group, Clinical Sciences Research Laboratories, Warwick Medical School, University of Warwick, University Hospital, Coventry, CV2 2DX, UK.
³ Warwick Systems Biology Centre, Coventry House, University of Warwick, Coventry, CV4 7AL, UK. P.J.Thornalley@warwick.ac.uk.
⁴ Glyoxalase Research Group, Clinical Sciences Research Laboratories, Warwick Medical School, University of Warwick, University Hospital, Coventry, CV2 2DX, UK. P.J.Thornalley@warwick.ac.uk.

PMID: 27406712
PMCID: PMC4975768
DOI: 10.1007/s10719-016-9705-z

Review

Dicarbonyls and glyoxalase in disease mechanisms and clinical therapeutics

Naila Rabbani et al. Glycoconj J. 2016 Aug.

. 2016 Aug;33(4):513-25.

doi: 10.1007/s10719-016-9705-z. Epub 2016 Jul 12.

Authors

Naila Rabbani¹, Mingzhan Xue², Paul J Thornalley^{3

4}

Affiliations

¹ Warwick Systems Biology Centre, Coventry House, University of Warwick, Coventry, CV4 7AL, UK.
² Glyoxalase Research Group, Clinical Sciences Research Laboratories, Warwick Medical School, University of Warwick, University Hospital, Coventry, CV2 2DX, UK.
³ Warwick Systems Biology Centre, Coventry House, University of Warwick, Coventry, CV4 7AL, UK. P.J.Thornalley@warwick.ac.uk.
⁴ Glyoxalase Research Group, Clinical Sciences Research Laboratories, Warwick Medical School, University of Warwick, University Hospital, Coventry, CV2 2DX, UK. P.J.Thornalley@warwick.ac.uk.

PMID: 27406712
PMCID: PMC4975768
DOI: 10.1007/s10719-016-9705-z

Abstract

The reactive dicarbonyl metabolite methylglyoxal (MG) is the precursor of the major quantitative advanced glycation endproducts (AGEs) in physiological systems - arginine-derived hydroimidazolones and deoxyguanosine-derived imidazopurinones. The glyoxalase system in the cytoplasm of cells provides the primary defence against dicarbonyl glycation by catalysing the metabolism of MG and related reactive dicarbonyls. Dicarbonyl stress is the abnormal accumulation of dicarbonyl metabolites leading to increased protein and DNA modification contributing to cell and tissue dysfunction in ageing and disease. It is produced endogenously by increased formation and/or decreased metabolism of dicarbonyl metabolites. Dicarbonyl stress contributes to ageing, disease and activity of cytotoxic chemotherapeutic agents. It contributes to ageing through age-related decline in glyoxalase 1 (Glo-1) activity. Glo-1 has a dual role in cancer as a tumour suppressor protein prior to tumour development and mediator of multi-drug resistance in cancer treatment, implicating dicarbonyl glycation of DNA in carcinogenesis and dicarbonyl-driven cytotoxicity in mechanism of action of anticancer drugs. Glo-1 is a driver of cardiovascular disease, likely through dicarbonyl stress-driven dyslipidemia and vascular cell dysfunction. Dicarbonyl stress is also a contributing mediator of obesity and vascular complications of diabetes. There are also emerging roles in neurological disorders. Glo-1 responds to dicarbonyl stress to enhance cytoprotection at the transcriptional level through stress-responsive increase of Glo-1 expression. Small molecule Glo-1 inducers are in clinical development for improved metabolic, vascular and renal health and Glo-1 inhibitors in preclinical development for multidrug resistant cancer chemotherapy.

Keywords: Cardiovascular disease; Diabetes, cancer; Glycation; Glyoxalase; Methylglyoxal; Obesity; Renal failure; Therapeutics.

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Figures

**Fig. 1**
Biochemistry of dicarbonyl stress. a Metabolism of MG by the glyoxalase system. b Formation of hydroimidazolone MG-H1 from arginine residues. c Formation of imidazopurinone MGdG in DNA. Adduct residue is shown with guanyl base only

**Fig. 2**
Formation of methylglyoxal, metabolism and glycation of protein and DNA *in vivo*. Tissue levels of MG and MG-H1 adduct residues in tissues are given for mice. PBMC DNA AGEs are for human subjects and flux of MG metabolised by the glyoxalase system and urinary excretion of MG-H1 free adduct is for healthy adduct humans. Data from [2, 63, 89, 122, 137] and Masania, J, Shafie, A, Rabbani, N and Thornalley, P.J., Unpublished observations

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References

1. Rabbani N, Thornalley PJ. Glyoxalase centennial conference: introduction, history of research on the glyoxalase system and future prospects. Biochem. Soc. Trans. 2014;42(2):413–418. doi: 10.1042/BST20140014. - DOI - PubMed
1. Rabbani N, Thornalley PJ. Measurement of methylglyoxal by stable isotopic dilution analysis LC-MS/MS with corroborative prediction in physiological samples. Nat. Protoc. 2014;9(8):1969–1979. doi: 10.1038/nprot.2014.129. - DOI - PubMed
1. Thornalley PJ, Rabbani N. Assay of methylglyoxal and glyoxal and control of peroxidase interference Biochem. Soc. Transit. 2014;42(2):504–510. - PubMed
1. Rabbani, N., Thornalley, P.J.: Dicarbonyls (Glyoxal, Methylglyoxal, and 3-Deoxyglucosone). In: Uremic Toxins. pp. pp. 177–192. John Wiley & Sons, Inc., (2012)
1. Ahmed N, Thornalley PJ, Dawczynski J, Franke S, Strobel J, Stein G, Haik GM., Jr Methylglyoxal-derived hydroimidazolone advanced glycation endproducts of human lens proteins. Investig. Ophthalmol. Vis. Sci. 2003;44(12):5287–5292. doi: 10.1167/iovs.03-0573. - DOI - PubMed

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[1] Rabbani N, Thornalley PJ. Glyoxalase centennial conference: introduction, history of research on the glyoxalase system and future prospects. Biochem. Soc. Trans. 2014;42(2):413–418. doi: 10.1042/BST20140014. - DOI - PubMed

[2] Rabbani N, Thornalley PJ. Glyoxalase centennial conference: introduction, history of research on the glyoxalase system and future prospects. Biochem. Soc. Trans. 2014;42(2):413–418. doi: 10.1042/BST20140014. - DOI - PubMed

[3] Rabbani N, Thornalley PJ. Measurement of methylglyoxal by stable isotopic dilution analysis LC-MS/MS with corroborative prediction in physiological samples. Nat. Protoc. 2014;9(8):1969–1979. doi: 10.1038/nprot.2014.129. - DOI - PubMed

[4] Rabbani N, Thornalley PJ. Measurement of methylglyoxal by stable isotopic dilution analysis LC-MS/MS with corroborative prediction in physiological samples. Nat. Protoc. 2014;9(8):1969–1979. doi: 10.1038/nprot.2014.129. - DOI - PubMed

[5] Thornalley PJ, Rabbani N. Assay of methylglyoxal and glyoxal and control of peroxidase interference Biochem. Soc. Transit. 2014;42(2):504–510. - PubMed

[6] Thornalley PJ, Rabbani N. Assay of methylglyoxal and glyoxal and control of peroxidase interference Biochem. Soc. Transit. 2014;42(2):504–510. - PubMed

[7] Rabbani, N., Thornalley, P.J.: Dicarbonyls (Glyoxal, Methylglyoxal, and 3-Deoxyglucosone). In: Uremic Toxins. pp. pp. 177–192. John Wiley & Sons, Inc., (2012)

[8] Rabbani, N., Thornalley, P.J.: Dicarbonyls (Glyoxal, Methylglyoxal, and 3-Deoxyglucosone). In: Uremic Toxins. pp. pp. 177–192. John Wiley & Sons, Inc., (2012)

[9] Ahmed N, Thornalley PJ, Dawczynski J, Franke S, Strobel J, Stein G, Haik GM., Jr Methylglyoxal-derived hydroimidazolone advanced glycation endproducts of human lens proteins. Investig. Ophthalmol. Vis. Sci. 2003;44(12):5287–5292. doi: 10.1167/iovs.03-0573. - DOI - PubMed

[10] Ahmed N, Thornalley PJ, Dawczynski J, Franke S, Strobel J, Stein G, Haik GM., Jr Methylglyoxal-derived hydroimidazolone advanced glycation endproducts of human lens proteins. Investig. Ophthalmol. Vis. Sci. 2003;44(12):5287–5292. doi: 10.1167/iovs.03-0573. - DOI - PubMed

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Dicarbonyls and glyoxalase in disease mechanisms and clinical therapeutics

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Dicarbonyls and glyoxalase in disease mechanisms and clinical therapeutics

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