Normal mRNA content in a phosphoglycerate kinase variant with severe enzyme deficiency.

A phosphoglycerate kinase variant, PGK-Matsue, was associated with a severe enzyme deficiency, congenital nonspherocytic hemolytic anemia, and mental disorders. The variant enzyme exhibited a slower cathodal electrophoretic mobility and lower affinity toward the substrates. The enzyme activity in the variant's red cells, muscles, and fibroblasts was about 5% of that of normal cells. The content of mRNA in the variant fibroblasts was compared to that of normal cells by the semiquantitative dot hybridization method, and, more accurately, by the liquid hybridization method, using a human PGK cDNA as a probe. It was found that the mRNA level in the variant fibroblasts was comparable to that of normal fibroblasts. The results strongly suggest that the major cause of enzyme deficiency in PGK-Matsue is a seven- to 10-fold increase in the mutant enzyme degradation.     

Glucose-6-phosphate dehydrogenase (G6PD) Iserlohn and G6PD Regensburg: two new severe enzyme defects in German families

Two new inheritable variants of glucose-6-phosphate dehydrogenase have been found in two unrelated German families. Patients with one variant (G6PD Iserlohn, also referred to as G6PD I) suffered from intermittent hemolytic crises caused by fava beans; patients with the other variant (G6PD Regensburg, G6PD II) disclosed chronic nonspherocytic hemolytic anemia aggravated by drug treatment. Due to their unusual biochemical characteristics, the new variants were designated G6PD Iserlohn and G6PD Regensburg. Both variants showed a reduction of enzyme activity to about 6% of the normal in erythrocytes, normal electrophoretic mobility, increased affinity for glucose-6-phosphate, a reduced affinity for NADP and a pH optimum in the neutral region (7.0 and 7.5). G6PD Iserlohn had a decreased affinity for the inhibitor NADPH; G6PD Regensburg had a normal inhibitor constant. Deamino NADP was utilized at an increased rate by G6PD Regensburg. G6PD Iserlohn was thermostable, G6PD Regensburg mildly instable. G6PD activity in leukocytes was normal in G6PD Iserlohn and reduced to the same degree as in erythrocytets in G6PD Regensburg. The cause of the decreased activity of G6PD Iserlohn appears to be in vivo instability; in G6PD Regensburg further mechanisms might include reduced specific activity or reduced synthesis of the variant enzyme.     

Enzyme levels in testis and other tissues of genetically sex-reversed mice

The specific activity of G6PD and PGK were measured in the testes, seminal vesicles, and livers of Sxr/+,XX mice, their Sxr/+,XY littermates and normal mice. While G6PD activity was high in the testes of young normal mice and declined as the testes matured, in the testes of Sxr/+,XX mice activity remained high, suggesting a failure of the Sertoli cells to mature normally. The activity of PGK was low in the testes of young normal mice, and increased as the testes matured. The testes of young Sxr/+,XX mice had high activity of this enzyme which remained high into adulthood. The high activity in young mice suggests an abnormality in the somatic cells. The seminal vesicle and liver measurements of G6PD and PGK confirmed that the Sxr/+,XX mice were phenotypically normal males except with respect to the testis. The developmental patterns of both enzymes in testes lacking germinal cells indicate that the maturation of the somatic cells of the normal testis is influenced by the presence of germinal cells.     

Evidence for linkage of 3-phosphoglycerate kinase,hypoxanthine-guanine-phosphoribosyl transferase,and glucose 6-phosphate dehydrogenase loci in Chinese hamster cells studied by using a relationship between gene multiplicity and enzyme activity

The PGK activity was assayed in diploid, hyperdiploid, tetraploid, and hybrid cells all originating from the same Chinese hamster cell line (DON line). A relationship between gene multiplicity and enzyme activity was observed. Selective pressure on the HGPRT locus by growth of hybrid cells in the presence of 8-azaguanine resulted in decreased levels of PGK activity. Growth of these hybrids in the presence of 5-BUdR did not influence the enzyme activity. It was concluded that the genes coding for HGPRT, PGK, and G6PD are linked in the Chinese hamster. The TK locus seems to be linked neither to the HGPRT, PGK, and G6PD loci nor to the 6PGD locus.     

Immunochemical studies on phosphoglycerate kinase deficiency

Antisera to normal erythrocyte and skeletal muscle PGK, raised in rabbits, were shown to cross-react with extracts from normal tissues and with extracts from a subject with PGK deficiency. Radial immunodiffusion, using the antisera raised against normal human PGK, was used to determine the amount of cross-reacting PGK protein present in extracts of several tissues from an affected subject. For all tissues tested, activity was only a small percentage of the PGK protein concentration. In particular, evidence for normal levels of protein in erythrocytes and myocardium was obtained. The results indicate that the deficiency is due to a structural mutation of the enzyme.     

Plasmodium falciparum: identification and purification of the phosphoglycerate kinase of the malaria parasite.

Multiplication of the human malaria parasite Plasmodium falciparum within red blood cells is an energy-dependent process and glucose consumption increases dramatically in infected red blood cells (IRBC) versus normal red blood cells (NRBC). The major pathway for glucose metabolism in P. falciparum IRBC is anaerobic glycolysis. Phosphoglycerate kinase (PGK) is one of the key enzymes of this pathway as it generates ATP. We found that the PGK specific activity in P. falciparum IRBC is seven times higher than that in NRBC. The parasitic origin of the increase in PGK activity is confirmed by isoelectric focusing. Indeed, two P. falciparum isoenzymes with neutral isoelectric points were detected. P. falciparum PGK in purified form has a molecular mass of 48 kDa. Antiserum raised against purified P. falciparum PGK specifically recognizes the 48-kDa protein band in P. falciparum and also reacts with P. berghei and P. yoelii IRBC lysates but does not cross-react with PGK associated with NRBC.     

Gd (+) Laguna,a new rare glucose-6-phosphate dehydrogenase variant from Brazil

Summary A new G6PD variant, designated Gd (+) Laguna, was found in a 9-year-old Brazillian boy of Portuguese ancestry suffering from an iron-refractory anemia. The red cell enzyme activity of the subject was 64%. The mutant enzyme showed slower electrophoretic mobility, increased affinity for glucose-6-phosphate, decreased affinity for NADP⁺, elevated utilization of substrate analogues, decreased inhibition of NADPH, normal heat stability and a biphasic pH curve. The occurrence of the variant in two non-anemic relatives of the propositus indicates that the association between this G6PD type and anemia may be coincidental.Publication no. 3171 BCR from the Research Institute of Scripps Clinic     

Preferential expression of the maternally inherited X-linked phosphoglycerate kinase allele in human erythrocytes

Summary The stability of allelic gene expression of X-linked phosphoglycerate kinase was studied in seven carriers of a rare genetic variant named PGK München. The enzymatic activities in erythrocytes of five heterozygous females and three hemizygous males were determined repeatedly over a period of 10 years (1975–1984) and shown to remain constant. As the phosphoglycerate kinase activity is lower in cells expressing the PGK München allele, the ratio of the two cell types in all heterozygous females of the PGK München kindred could be calculated from the PGK activity and from the known allozyme activities in erythrocytes of homozygous wild type or hemizygous PGK München carriers. Since the maternal or paternal origin of both alleles is known from the pedigree, the quantitative expression of the maternally derived allozyme in heterozygous women could be determined. In heterozygous carriers the cell pool expressing the maternally inherited allele was significantly increased, independently, of the PGK allele linked to the maternal X chromosome (P<0.001). Our data show that inactivation of one of the two X chromosomes in human female erythropoietic stem cell precursors may be non-random, at least in the kindred and cell populations described here. The results are discussed in the context of random X chromosome inactivation (Lyon hypothesis).Dedicated to J.S., the senior of the family studied, on the occasion of her 80th birthday     

Deletion of P1 arginine in a novel antithrombin variant (antithrombin London) abolishes inhibitory activity but enhances heparin affinity and is associated with early onset thrombosis

A novel variant of antithrombin, the major serpin inhibitor of coagulation proteases, has been identified in a patient with early onset thrombosis and abnormal plasma antithrombin activity. Sequencing of the antithrombin genes of the patient revealed that one of the two alleles was abnormal due to an in-frame deletion of the codon for the P1 arginine residue. The abnormal antithrombin was separated from the normal inhibitor by complexing the latter with thrombin followed by heparin-agarose affinity chromatography. The purified variant, antithrombin London, was completely inactive as a thrombin or factor Xa inhibitor even after heparin activation. Surprisingly, the variant bound heparin with a K(D) reflecting an approximately 10-fold greater affinity than the normal inhibitor. Stopped-flow kinetic analysis showed that this was almost entirely due to a more favorable conformational activation of the variant than the normal inhibitor, as reflected by a decreased rate constant for reversal of the activation. Consistent with its higher than normal heparin affinity, the inactive antithrombin variant was a potent competitive antagonist of the heparin-catalyzed reaction of normal antithrombin with thrombin but did not affect the uncatalyzed reaction. These results suggest that deletion of the antithrombin P1 residue partially activates the serpin by inducing strain in the reactive center loop, which destabilizes the native loop-buried state and favors the activated loop-exposed state with high heparin affinity. The unusually severe thrombosis associated with the heterozygous mutation may be explained by the ability of antithrombin London to bind endogenous heparan sulfate or heparin molecules with high affinity and to thereby block activation of the normal inhibitor.     

Consequences of phosphoglycerate kinase overproduction for the growth and physiology of Saccharomyces cerevisiae

Summary The physiological consequences of overproduction of the homologous glycolytic enzyme 3-phosphoglycerate kinase (PGK), integrated in 80 PGK1 gene copies in the genome of Saccharomyces cerevisiae are described. This multiple integration and the strong PGK overproduction (maximum 47% of the total soluble cell protein) do not affect the maximal specific growth rate, but cause 40% reduction of the molar growth yield, compared with that of the wild-type host. The extra energy that is needed for protein overproduction is mainly provided by extra fermentation (respirofermentative growth), but respiration is also elevated compared with the reference strains. The increase in the specific oxygen uptake rate indicates that the respiratory capacity of the yeasts is higher than that in the wild-type host, in which the limited capacity of respiration is generally supposed to be at its maximal level at the critical dilution rate, and is thus responsible for the switch to respirofermentative growth. In a medium PGK1 gene copy integrant (about 25 copies), overproduction of 10%–12% PGK has a stimulating effect on the growth yield and energy efficiency. In these cells the growth benefits of overproduction of the glycolytic enzyme are higher than the disadvantages of extra protein synthesis. The overproduction of PGK has also consequences for the glucose affinity of the yeasts: In the more overproducing strain the K _s is increased, compared to its reference strains. Elimination of strong overproducing cells from a glucose-limited chemostat culture is caused by two factors: (a) the excision of the PGK genes from the genome, which is of minor importance for wash-out, but the induction process for this overall decline of overproduction, and (b) the physiological selection process for less overproducing cells, caused by differences in affinity for glucose, most obvious at µ 1/2µ_max. However in batch culture and in a chemostat at low specific growth rates, all the overproducing strains show high genetic stability and constantly provide high PGK quantities.Offprint requests to: P. C. van der Aar     

Chronic nonspherocytic hemolytic anemia (CNSHA) and glucose 6 phosphate dehydrogenase (G6PD) deficiency in a patient with familial amyloidotic polyneuropathy (FAP)

Summary A new glucose-6-phosphate dehydrogenase (G6PD) variant with severe erythrocytic G6PD deficiency and a unique pH optimum is described in a young patient with chronic nonspherocytic hemolytic anemia (CNSHA) and familial amyloidotic polyneuropathy (FAP). Chronic hemolysis was present in the absence of infections, oxidant drugs or ingestion of faba beans. Residual enzyme activity was about 2.6% and 63% of normal activity in erythrocytes and leucocytes, respectively. A molecular study using standard methods showed G6PD in the patient to have normal electrophoretic mobility (at pH 7.0, 8.0 and 8.8), normal apparent affinity for substrates (K_m, G6P and NADP) and a slightly abnormal utilization of substrate analogues (decreased deamino-NADP and increased 2-deoxyglucose-6-phosphate utilization). Heat stability was found to be markedly decreased (8% of residual activity after 20 min of incubation at 46°C) and a particular characteristic of this enzyme was a biphasic pH curve with a greatly increased activity at low pH. Although molecular characteristics of this variant closely resemble those of G6PD Bangkok and G6PD Duarte, it can be distinguished from these and all other previously reported variants by virtue of its unusual pH curve. Therefore the present variant has been designated G6PD Clinic to distinguish it from other G6PD variants previously described.     

Thessaly variant of Glucose-6-phosphate Dehydrogenase

Summary A new variant of the erythrocytic enzyme Glucose-6-phosphate Dehydrogenase was detected in two unrelated Greek individuals. The variant was designated G6PD Thessaly. It is characterized by normal levels of G6PD activity in the red cells and electrophoretic migration slower than G6PD B on phosphate and T.E.B. buffers while faster than G6PD B on Tris-HCl buffer. In addition, the Thessaly variant has distinctly decreased affinity for NADP.This study was supported by National Institutes of Health Grant GM 15253.     

Molecular cloning and biochemical characterization of three phosphoglycerate kinase isoforms from developing sunflower (Helianthus annuus L.) seeds

Three cDNAs encoding different phosphoglycerate kinase (PGK, EC 2.7.2.3) isoforms, two cytosolic (HacPGK1 and HacPGK2) and one plastidic (HapPGK), were cloned and characterized from developing sunflower (Helianthus annuus L.) seeds. The expression profiles of these genes showed differences in heterotrophic tissues, such as developing seeds and roots, where HacPGK1 was predominant, while HapPGK was highly expressed in photosynthetic tissues. The cDNAs were expressed in Escherichia coli, and the corresponding proteins purified to electrophoretic homogeneity, using immobilized metal ion affinity chromatography, and biochemically characterized. Despite the high level of identity between sequences, the HacPGK1 isoform showed strong differences in terms of specific activity, temperature stability and pH sensitivity in comparison to HacPGK2 and HapPGK. A polyclonal immune serum was raised against the purified HacPGK1 isoform, which showed cross-immunoreactivity with the other PGK isoforms. This serum allowed the localization of high expression levels of PGK isozymes in embryo tissues.     

Antithrombin Budapest 3 An antithrombin variant with reduced heparin affinity resulting from the substitution L99F

The molecular basis and functional properties of a variant antithrombin (AT) protein. AT Budapest 3, were studied. A single base substitution was identified in codon 99, TC→ TC, altering the normal leucine to phenylalanine. The proband presented with a history of venous thrombotic disease and was found to be homozygous for the mutation. The variant protein demonstrated reduced heparin affinity and reduced antiproteinase activity in the presence of either unfractionated heparin or the AT-binding heparin pentasaccharide, when compared to normal AT. A small change in the isoelectric point was also identified. The substituted amino acid residue of AT Budapest 3 is located near to the proposed AT heparin binding site, and it is suggested that reduced heparin affinity of the variant protein may result from substitution-induced distortion of positive charge geometry in the binding site and/or changes in its position relative to the rest of the inhibitor molecule.     

Infrared studies reveal unique vibrations associated with the PGK-ATP-3-PG ternary complex

Phosphoglycerate kinase (PGK) catalyzes a reversible phospho-transfer reaction between ATP and 3-phosphoglycerate (3-PG) that is thought to require a hinge-bending motion in the protein that brings two separate substrate-binding domains together. We have used difference infrared spectroscopy to better understand the conformational changes that are unique to the PGK-ATP-3-PG complex. Caged nucleotides (caged-ADP and caged-ATP) were used to initiate nucleotide binding to PGK or PGK-3-PG complexes. The difference spectra include those of PGK-ATP minus PGK, PGK-3-PG-ATP minus PGK-3-PG, PGK-3-PG-ADP minus PGK-3-PG, and PGK-ADP minus PGK. The resulting spectra were compared in attempts to identify bands associated with each PGK complex. In addition, complementary activity assays were performed in the presence of caged-nucleotides. While PGK activity decreased in the presence of caged-ADP, the activity was not influenced by the addition of caged-ATP. The activity assay results suggest that the caged-ADP may interact with PGK substrate binding site(s) and inhibit phospho-transfer. Therefore, additional difference infrared nucleotide exchange experiments were used to isolate the differences between ADP and ATP binding to PGK. Difference FTIR spectra obtained on PGK-nucleotide-3-PG complexes show distinct bands that may result from amino acid side chains as well as structural changes in the hinge region and/or increased interactions such as salt bridges forming between the two domains. The infrared data obtained on the active ternary complexes show evidence of changes in alpha-helix and beta-structures as well as signals consistent with Arg, Asn, His, Lys, Asp, Glu, and additional side chains that are uniquely perturbed in the active ternary complex as compared to other PGK complexes.     

LDH calcutta-1: A mutation of the B subunit of human lactate dehydrogenase

The electrophoretic variant of human LDH, Calcutta-1, occurs at phenotypic frequencies of 0–4% throughout India. The variant was examined by various electrophoretic techniques and by heat stability studies. The LD₁ (B₄) isoenzyme was purified from normal and variant bloods by affinity chromatography and ion-exchange chromatography. A minimum of five Calcutta-1 LD₁ bands was demonstrated by isoelectric focusing. Electrophoresis of variant LD₁ in high-molar urea-acrylamide denaturing gels resulted in two Calcutta-1 B subunit bands, while normal gels yielded only a single band. Homozygote Calcutta-1 LDH from red cells demonstrated a decreased heat stability, while heterozygote variant LDH showed a normal heat stability. This effect was confirmed when purified LD₁'s were compared. Evidence is presented suggesting a B-subunit variant showing thermolability in the homozygous form.The author was supported by an Australian National University Scholarship.     

X linkage of phosphoglycerate kinase in the mouse

The levels of phosphoglycerate kinase (PGK), glucose 6-phosphate dehydrogenase (G6PD), and lactate dehydrogenase (LDH) were measured in one-cell embryos from X/0 and X/X females. Since the level of both PGK and G6PD was dependent on the number of X chromosomes present in the mother, these two enzymes are most likely coded for by X-linked genes. The level of LDH was the same in both types of embryos, indicating autosomal linkage. A search for an electrophoretic variant of PGK was not successful.     

The occurrence of chloroplastic and cytosolic isoenzymes of phosphoglycerate kinase in a range of plant species

The chloroplastic and cytosolic isoenzymes of phosphoglycerate kinase (PGK; EC 2.7.2.3) of leaves from 18 of a broad range of 21 vascular plant species were separated by either standard or modified anion-exchange Chromatographic procedures. Immunoprecipitation of the isoenzymes with antisera raised against barley chloroplastic and cytosolic PGK isoenzymes showed that the chloroplastic isoenzymes resemble the chloroplastic isoenzymes of other species more closely than the cytosolic isoenzyme of the same species and vice versa for the cytosolic isoenzymes. Each of the two cyanobacterial species tested, yielded only a single PGK fraction on anion-exchange chromatography and gave no reaction with antisera raised against the barley isoenzymes. The cyanobacteria are presumed to contain only a single PGK which is not closely related to either of the barley PGK isoenzymes. In all of the investigated leaf extracts the catalytic activity of the cytosolic PGK was exceeded by that of the chloroplastic PGK with the ratio for many of the C₃ plants falling within the range 595 to 1585 (cytosolic: chloroplastic). The relative amounts of cytosolic PGK activity appeared to be greater in older leaves, in C₄ and CAM plants and in ferns.Abbreviations CAM crassulacean acid metabolism - pgk phosphoglycerate kinase This work was supported by the Science and Engineering Research Council (grant no. GR/E54504) and also the King's College London Research Strategy Fund.