Novel Mutation (Gly280Ala) in the ATP-Binding Domain of Glycerol Kinase Causes Severe Hyperglycerolemia

T. Wibmer; J. Otto; K. G. Parhofer; C. Otto

doi:10.1055/s-2005-865723

Experimental and Clinical Endocrinology & Diabetes, Table of Contents

Exp Clin Endocrinol Diabetes 2005; 113(7): 396-403
DOI: 10.1055/s-2005-865723

Article

J. A. Barth Verlag in Georg Thieme Verlag KG Stuttgart · New York

Novel Mutation (Gly280Ala) in the ATP-Binding Domain of Glycerol Kinase Causes Severe Hyperglycerolemia

T. Wibmer¹ ^, ² , J. Otto¹ ^, ³ , K. G. Parhofer² , C. Otto²

¹Physiological Chemistry, Adolf Butenandt Institute, University of Munich, Germany
²Medical Department 2 - Großhadern, University Hospital Munich, Germany
³deceased

Abstract

Glycerol kinase deficiency is a rarely diagnosed X-linked recessive disorder which occurs as a complex form together with the adrenal hypoplasia congenita (AHC) or with Duchenne muscular dystrophy (DMD) or as an isolated form either symptomatic or asymptomatic. We report the case of a male adult who had pseudo-hypertriglyceridemia (falsely elevated triglycerides of 552 mg/dl) refractory to lipid-lowering therapy for more than 15 years. Further investigations revealed an isolated, asymptomatic glycerol kinase deficiency. Using polymerase chain reaction and direct DNA sequencing, a novel missense mutation Gly280Ala in the Xp21.3 glycerol kinase gene was found. Comparison between human and E.coli glycerol kinase showed that the mutation affects a highly conserved amino acid in an ATP-binding domain in the active centre. This mutation is assumed to destabilize a hydrogen bond between ligand and enzyme resulting in a reduced activity of glycerol kinase and therefore in hyperglycerolemia.

Key words

GK - glycerol kinase - GKD - glycerol kinase deficiency - hyperglycerolemia

Full Text

References

1 Baba H, Zhang X J, Wolfe R R. Glycerol gluconeogenesis in fasting humans. Nutrition. 1995; 11 148-153
2 Dipple K M, Zhang Y-H, Huang B-L, McCabe L L, Dallongeville J, Inokuchi T, Kimura M, Marx H J, Roederer G O, Shih V, Yamaguchi S, Yoshida I, McCabe E RB. Glycerol kinase deficiency: evidence for complexity in a single gene disorder. Hum Genet. 2001; 109 55-62
3 Gaudet D, Arsenault S, Perusse L, Vohl M-C, St-Pierre J, Bergeron J, Despres J-P, Dewar K, Daly M J, Hudson T, Rioux J D. Glycerol as a correlate of impaired glucose tolerance: dissection of a complex system by use of a simple genetic trait. Am J Hum Genet. 2000; 66 1558-1568
4 Gautschi O, Bigosch C, Huegli B, Jermann M, Marx A, Chasse E, Ratschiller D, Weder W, Joerger M, Betticher D C, Stahel R A, Ziegler A. Circulating deoxyribonucleic acid as prognostic marker in non-small-cell lung cancer patients undergoing chemotherapy. J Clin Oncol. 2004; 22 4157-4164
5 Guggenheim M A, McCabe E RB, Roig M, Goodman S I, Lum G M, Bullen W W, Ringel S P. Glycerol kinase deficiency with neuromuscular skeletal and adrenal abnormalities. Ann Neurol. 1980; 7 441-449
6 Guo W, Worley K, Adams V, Mason J, Sylvester-Jackson D, Zhang Y-H, Towbin J A, Fogt D D, Madu S, Wheeler D A, McCabe E RB. Genomic scanning for expressed sequences in Xp21 identifies the glycerol kinase gene. Nature Genet. 1993; 4 367-371
7 Hellerud C, Burlina A, Gabelli C, Ellis J R, Nyholm P G, Lindstedt S. Glycerol metabolism and the determination of triglycerides - clinical, biochemical and molecular findings in six subjects. Clin Chem Lab Med. 2003; 41 46-55
8 Hultman T, Stahl S, Hornes E, Uhlen M. Direct solid phase sequencing of genomic and plasmid DNA using magnetic beads as solid support. Nucleic Acids Res. 1989; 17 4937-4946
9 Hultman T, Bergh S, Moks T, Uhlen M. Bidirectional solid phase sequencing of in vitro amplified plasmid DNA. Bio Techniques. 1991; 10 84-93
10 Jahoor F, Peters E J, Wolfe R R. The relationship between gluconeogenic substrate supply and glucose production in humans. Am J Physiol. 1990; 258 E288-296
11 Majewski J, Ott J. Amino acid substitutions in the human genome: evolutionary implications of single nucleotide polymorphisms. Gene. 2003; 305 167-173
12 Romero N B, Recan D, Rigal O, Leturcq F, Llense S, Barbot J C, Deburgrave N, Cheval M A, Deniau F, Kaplan J C. A point mutation in the glycerol kinase gene associated with a deletion in the dystrophin gene in a familial X-linked muscular dystrophy: non-contiguous gene syndrome involving Becker muscular dystrophy and glycerol kinase loci. Neuromuscul Disord. 1997; 7 499-504
13 Sargent C A, Young C, Marsh S, Ferguson-Smith M A, Affara N A. The glycerol kinase gene family: structure of the Xp gene and related intronless retroposons. Hum Molec Genet. 1994; 3 1317-1324
14 Sargent C A, Kidd A, Moore S, Dean J, Besley G TN, Affara N A. Five cases of isolated glycerol kinase deficiency including two families: failure to find genotype : phenotype correlation. J Med Genet. 2000; 37 434-441
15 Sjarif D R, Sinke R J, Duran M, Beemer F A, Kleijer W J, Ploos van Amstel J K, Poll-The B T. Clinical heterogeneity and novel mutations in the glycerol kinase gene in three families with isolated glycerol kinase deficiency. J Med Genet. 1998; 35 650-656
16 Sjarif D R, Ploos van Amstel J K, Duran M, Beemer F A, Poll-The B T. Isolated and contiguous glycerol kinase gene disorders: a review. J Inherit Metab Dis. 2000; 23 529-547
17 Sobolev V, Sorokine A, Prilusky J, Abola E E, Edelman M. Automated analysis of interatomic contacts in proteins. Bioinformatics. 1999; 15 327-332
18 Walker A P, Muscatelli F, Monaco A P. Isolation of the human Xp21 glycerol kinase gene by positional cloning. Hum Molec Genet. 1993; 2 107-114
19 Walker A P, Muscatelli F, Stafford A N, Chelly J, Dahl N, Blomquist H K, Delanghe J, Willems P J, Steinmann B, Monaco A P. Mutations and phenotype in isolated glycerol kinase deficiency. Am J Hum Genet. 1996; 58 1205-1211
20 Wapnir R A, Stiel L. Regulation of gluconeogenesis by glycerol and its phosphorylated derivates. Biochem Med. 1985; 33 141-148
21 Zhang Y H, Dipple K M, Vilain E, Huang B L, Finlayson G, Therrell B L, Worley K, Deininger P, McCabe E RB. AluY insertion (IVS4-52ins316alu) in the glycerol kinase gene from an individual with benign glycerol kinase deficiency. Hum Mutat. 2000; 15 316-323

M.D. Carsten Otto

Medical Department 2 - Großhadern
University Hospital of Munich

Marchioninistraße 15

81377 Munich

Germany

Phone: + 498970952268 or 70950

Fax: + 49 89 70 95 88 79

Email: carsten.otto@med.uni-muenchen.de