Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.1.1 (hexokinase)
 5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rabbit myeloid myelocaryocytes possessed higher activities of hexokinase (HK) and lactate dehydrogenase (LDH) as compared with those of erythroid cells. The lypolytic activity was twice as high in myeloid myelocaryocytes as in erythroid ones. Both strains of medullar cells did not differ in the activity of glucose-6-phosphate dehydrogenase (G6PD). But the isoenzyme spectra of G6PD varied distinctly in these cells; HK and LDH isoenzyme spectra were the same both in myeloid and erythroid cells. The enzymatic activity was altered dissimilarly in myeloid and erythroid cells after administration of hydrocortisone. In myeloid cells the HK activity was decreased, in the erythroid cells--the HK activity tended to increase and the lipolytic activity was decreased. Alterations in the isoenzyme spectra of G6PD and LDH, caused by hydrocortisone administration, exhibited similar patterns in myeloid and erythroid cells.
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PMID:[Isoenzyme spectrum and activity of several enzymes of bone marrow erythroid and myeloid cells in rabbits and changes in them under the influence of hydrocortisone]. 68 90

Acylphosphatase activity and content were measured in erythrocytes from hyperthyroid patients and healthy controls. In addition, the soluble enzymes glucose-6-phosphate dehydrogenase, hexokinase, and the membrane bound (Na+ + K+)-ATPase and Ca2+-ATPase were assayed. Our results confirmed previous studies indicating a decrease of (Na+ + K+)-ATPase and an increase of Ca2+-ATPase activity in hyperthyroid erythrocytes. While glucose-6-phosphate dehydrogenase was not significantly changed, hexokinase and acylphosphatase activities were significantly higher in the hyperthyroid group. Both activities and content of acylphosphatase returned to normal levels in erythrocytes from treated patients, when they were euthyroid. These findings suggest that an excess of thyroid hormones may stimulate acylphosphatase biosynthesis in erythroid cells and indicate a potential clinical usefulness of this enzyme in hyperthyroidism.
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PMID:Increased acylphosphatase levels in erythrocytes from hyperthyroid patients. 255 5

1. Red cell pyruvate kinase (EC 2.7.1.40) and hexokinase (EC 2.7.1.1) in high and low potassium (K) dogs were shown to exist as multiple forms which were separable by electrophoresis and ion-exchange chromatography. The R2-type pyruvate kinase, which was determined to be a young type enzyme in canine red cells, was shown to be the predominant form of pyruvate kinase in high K cells. 2. The M2-type pyruvate kinase, a prototype isozyme in erythroid cells, existed in high K dog erythrocytes as well as in high K and low K dog reticulocytes. 3. Isozyme analysis of high K red cell hexokinase also showed a profile similar to that obtained for low K reticulocytes. 4. These results seem to reflect the immaturity of high K erythrocytes, which suggest that an abnormal cell differentiation or maturation may occur at an early stage of erythroid cell proliferation in high K dogs.
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PMID:Inherited persistence of immature type pyruvate kinase and hexokinase isozymes in dog erythrocytes. 270 33

The erythrocyte enzyme activities in twenty-six cases of myelodysplastic syndromes were determined. There were remarkably abnormal levels in seven cases; namely, four cases showed increased hexokinase activity, three cases showed increased pyruvate kinase activity, and two cases showed increased adenosine deaminase activity. Among these, one case with elevated pyruvate kinase activity showed the novel expression of M2-type pyruvate kinase activity, in addition to the R-type pyruvate kinase activity normally found in erythrocytes. Southern blotting of peripheral leucocyte DNA revealed only an amplified PK-LR genome, which derived from the chromosomal abnormality of a 1;7 translocation. The mechanism responsible for switching M2-type to R-type during erythroid maturation was considered to be partially disrupted in this case.
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PMID:Erythrocyte enzyme activities in myelodysplastic syndromes: elevated pyruvate kinase activity. 291 62

6-Phosphofructokinase (PFK) plays a central role in the regulation of glycolysis in both normal and neoplastic cells. Since PFK also mediates the Pasteur effect, it coordinates the two modes of energy production in most cell systems, i.e., glycolysis and respiration. The energy production in the cancer cell is characterized by a predominance of aerobic glycolysis (the Warburg effect) and a diminution or lack of the Pasteur effect. Previous studies from this laboratory have demonstrated that PFK in humans and in the rat exists in multiple tetrameric isozymic forms consisting of three unique subunits under separate genetic controls, M, L, and P types. These isozymes are distinguishable from one another by ion-exchange chromatography and subunit-specific antibodies. Various organs exhibit unique isozyme distribution patterns which essentially reflect the preferred mode of carbohydrate metabolism utilized, i.e., glycolysis or gluconeogenesis or both. In order to investigate whether the high aerobic glycolysis of the cancer cell can be explained on the basis of a lack of the regulatory function of PFK due to an altered isozyme distribution pattern, we compared the activity and isozymic profile of the enzyme from malignant cells of human leukemias, lymphomas, virus-transformed cell lines, and established malignant cell lines of lymphoid, myeloid, erythroid, and fibroblastic origin and their normal counterparts. The myeloid and erythroid cell lines were also investigated after in vitro differentiation induced by dimethyl sulfoxide, sodium butyrate, hemin, etc. Our results show that, as is the case with hexokinase and pyruvate kinase, the other two rate-limiting enzymes of glycolysis, PFK shows both quantitative increases and isozymic alterations secondary to altered gene expression during neoplastic transformation, both in vivo and in vitro. In contradistinction to the isozymic alteration in hexokinase and pyruvate kinase, where highly regulated liver-type isozymes decrease or disappear and are replaced by the nonregulated ones, in the case of PFK, the highly regulated liver-type isozyme not only persists but actually increases, followed by an increase in the platelet-type isozyme. These isozymic alterations closely parallel the quantitative increases in total PFK activity, which in turn is closely related to the rate of replication of cancer cells and hence an increase in metabolism. Thus, human PFK is both a transformation- and a progression-linked discriminant of malignancy (For definitions of these terms, see Weber et al., N. Engl. J. Med., 296: 486-493, 1977.).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Alterations in the activity and isozymic profile of human phosphofructokinase during malignant transformation in vivo and in vitro: transformation- and progression-linked discriminants of malignancy. 315 73

The hematological parameters of young (2-month-old) and old (2-year-old) mice were compared. No differences could be detected with the exception of an increased percentage of reticulocytes in the old animals suggesting that anemia in senescent mice does not occur. Red blood cell mean half-life in old mice was 8 +/- 0.8 days compared to 12 +/- 1 days in young mice. This reduced survival of red blood cell is not due to a different rate of cell phagocytosis in the reticulohistiocytic system of young and old animals since erythrocytes from young mice have the same mean half-life when injected both in young and old animals and vice versa. Thus, the old mice have a reduced red cell life-span but the same hematocrit of the young, suggesting that old animals possess a chronologically younger population of erythrocytes than do young animals. This has been confirmed by measuring the specific activities of some red blood cell age-dependent enzymes (hexokinase, glucose-6-phosphate dehydrogenase, pyruvate kinase) that were found to be higher in the older animals, and by the separation of erythrocytes into different density (age) groups by Percoll/albumin density gradient centrifugation. However, the erythrocytes osmotic fragility, and the cellular contents of adenine and pyridine nucleotides, as well as the content of 2,3-diphosphoglycerate and reduced glutathione, show that circulating erythrocytes in old animals constitute an heterogeneous cell population whose properties cannot be explained on the basis of a chronologically younger erythrocyte population. Furthermore, evaluation of cell components in hemopoietic tissues have shown an increased porportion of erythroid precursor cells in old animals confirming that old mice compensate for reduced red cell survival with an increased erythropoiesis.
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PMID:Effect of age on some properties of mice erythrocytes. 334 96

The enzyme activities of cultured early erythroid progenitor cells (burst-forming unit erythroid, BFU-E) were measured and were compared with the activities of mature erythrocytes. The enzyme activity of acetylcholinesterase was not detectable in the erythroblasts. The ratios of phosphofructokinase and glutathione peroxidase were low due to low enzyme activities in both the erythroblasts and erythrocytes. The ratios of triose phosphate isomerase, phosphoglycerate kinase, and adenylate kinase were low due to high enzyme activities in both the erythroblasts and erythrocytes. The ratios of hexokinase, glucose phosphate isomerase, monophosphoglyceromutase, pyruvate kinase, and adenosine deaminase were high due to high enzyme activities in the erythroblasts. The isozyme of erythroblast hexokinase was of the prototype isozyme I, while pyruvate kinase was predominantly of the prototype M2, with two hybrid isozymes to the anodal side by electrophoresis. These facts suggest that there is a greatly different metabolic pattern during the maturation of the erythroid cells.
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PMID:Enzyme activities of cultured erythroblasts. 403 55

The enzyme activities and isozyme distribution of some glycolytic enzymes were studied in the K562 cell line before and after induction of hemoglobin formation. Special attention was paid to the three regulator enzymes of glycolysis, hexokinase, phosphofructokinase and pyruvate kinase. Results for the K562 cell line were compared with those for the mature red cell. K562 cells exhibit a relatively low phosphofructokinase and high pyruvate kinase activity. Electrophoresis of hexokinase shows the presence of two bands in the HK I region. HK II is also present, probably as a result of culture conditions. Only 15% of the total hexokinase activity is mitochondrial bound. Phosphofructokinase in K562 cells is mainly composed of the L- and F-types of which the F-type is characteristic for platelets and granulocytes and not for erythrocytes. In the electrophoretic pattern of pyruvate kinase a predominant K4 band besides three hybrids were found. The hybrids were demonstrated to contain L-type subunits of pyruvate kinase, which means a new erythroid marker of K562 cells, as the red cell is the only blood cell that contains L-type pyruvate kinase. Induction experiments with hemin, ARA-C and mitomycin-C gave rise to more than 85% benzidine positive cells after 11 days of culture. The isozyme composition of pyruvate kinase did not change after induction. HK II disappears after induction with ARA-C and mitomycin-C but not with hemin. The results support the idea of the multipotential features of the K562 cell line.
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PMID:Glycolytic enzymes of an erythroleukemic cell line, K562, before and after hemoglobin induction. 622 99

Late committed progenitor cells of erythropoiesis, CFU-E (colony-forming unit--erythroid), were isolated from mouse spleens to near homogeneity by a three-step enrichment procedure. The procedure included a four-day pretreatment of bled mice with the antibiotic thiamphenicol, a recovery period of 3 1/2 days, followed by centrifugal elutriation and Percoll density gradient centrifugation of the spleen cells. This practically pure CFU-E population was used to study some aspects of erythroid differentiation in vitro. Colony growth, as well as morphology and glycolytic enzyme activities of cells isolated at selected times of the 48-hour culture period, were determined. Marked declining activities of several enzymes, including hexokinase, phosphofructokinase, aldolase, enolase, pyruvate kinase, and glucose-6-phosphate dehydrogenase, were observed during in vitro differentiation. The activity of diphosphoglycerate mutase was almost absent in the CFU-E, but progressively increased during differentiation. The isozyme distribution of aldolase and enolase did not change during CFU-E in vitro differentiation into the reticulocyte. Hexokinase (HK) in the CFU-E contained mainly a double-banded type I isozyme, in addition to a minor amount of HK II. During differentiation, a shift was noticed within the double-banded HK I region, whereas HK ii disappeared after one cell division. Pyruvate kinase in the CFU-E was characterized by the presence of both the K-type and the L-type isozyme and hybrids of these isozyme types. During in vitro differentiation, the production of the K-type isozyme rapidly stops in favor of the L type.
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PMID:Changes in activities and isozyme patterns of glycolytic enzymes during erythroid differentiation in vitro. 646 70

Rabbit red blood cells contain hexokinase type I whereas in the reticulocyte two distinct molecular forms (HK Ia and Ib) are present. One (HK Ia) corresponds to hexokinase type I from other tissues, while the other differs from any previously reported isozyme. Rabbit bone marrow cells contain hexokinase type I and II. However, when the erythroid precursor cells become predominant over the non-erythroid cells (during phenylhydrazine anemia) a great increase of HK Ia can be observed concomitant with the appearance of HK Ib. Fractionation of the bone marrow cells on density gradients provides evidence that basophil erythroblasts and proerythroblasts contain only HK Ia while HK Ib appears at the reticulocyte stage. Maturation and ageing of circulating reticulocytes are associated with the decrease of hexokinase activity. Since the decay rate of HK Ib is about three times higher than the decay rate of HK Ia, the mature erythrocytes do not contain appreciable amounts of HK Ib. Furthermore, in vitro, HK Ia and Ib possess similar stabilities so that a cellular mechanism must be responsible of their in vivo different decay rates. This mechanism, as reported in this paper, is ATP-dependent, could be found in the soluble fraction, and is active only at the reticulocyte stage. These properties are similar to those of the ATP-dependent proteolytic system. Pure ubiquitin, an essential polypeptide of the ATP-dependent proteolytic system, is also able to catalyze the decay of hexokinase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rabbit red blood cell hexokinase. Mechanism of decay during cell life-span. 667 10


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