Isoelectric forms of alpha-L-fucosidase in mouse teratocarcinoma-derived cell lines

The alpha-L-fucosidase isoenzyme pattern of mouse teratocarcinoma-derived cell lines was analyzed by isoelectric focusing and compared with the pattern of a mammary carcinoma as an example of a malignant somatic cell line. In addition, these isoenzyme patterns were compared with those of normal fetal and adult mouse tissues from an earlier study. In the normal early fetal and placental tissues as well as in embryonal carcinoma and yolk sac carcinoma cells the alpha-L-fucosidase activity is predominantly associated with basic forms of the enzyme. This embryonic pattern of alpha-L-fucosidase is characterized by one to three isoelectric forms of the enzyme with pI values ranging from 7 to 9.5 accounting for more than two-thirds of the total activity. In contrast, the mammary carcinoma pattern resembles adult somatic tissues and primarily expresses acidic enzymatic forms (which comprise approximately 80% of total activity). The somatic cell malignancies arising in retransplantable teratocarcinomas show varying isoenzyme patterns. Thus, a malignant fibrous histiocytoma expresses predominantly basic forms of the enzyme, whereas a leiomyosarcoma expresses approximately equal amounts of acidic and basic forms of the enzyme resembling in this respect late fetal or immature neonatal tissues. These findings show that the embryonal carcinoma and yolk sac carcinoma cells of the mouse express the embryonic isoenzyme pattern of alpha-L-fucosidase in contrast to malignant cells originating in somatic tissue, like mammary carcinoma, which express the adult pattern. Malignancies arising in somatic tissues of teratocarcinomas may retain the embryonic alpha-L-fucosidase phenotype or show a phenotype corresponding to late fetal or neonatal tissues in normal ontogeny.     

Evidence against a common subunit in adenylate kinase and pyruvate kinase

Summary A modified technique has been introduced which allows detection of PK in the presence of AK after starch-gel electrophoresis. It is shown that the PK isoenzyme patterns of different human tissues are independent of the AK phenotype of the person concerned. It is concluded that there is no basis for the previously held assumption that these two enzymes share a common polypeptide chain.This work was supported by a grant from the Scottish Hospital Endowments Research Trust (HERT 309).     

Arginine kinase: Differentiation of gene expression and protein activity in the red imported fire ant, Solenopsis invicta

Arginine kinase (AK), a primary enzyme in cell metabolism and adenosine 5′-triphosphate (ATP)-consuming processes, plays an important role in cellular energy metabolism and maintaining constant ATP levels in invertebrate cells. In order to identify genes that are differentially expressed between larvae and adults, queens and workers, and female alates (winged) and queens (wingless), AK cDNA was obtained from the red imported fire ant. The cDNA sequence of the gene has open reading frames of 1065 nucleotides, encoding a protein of 355 amino acid residues that includes the substrate recognition region, the signature sequence pattern of ATP:guanidino kinases, and an “actinin-type” actin binding domain. Northern blot analysis and protein activity analysis demonstrated that the expression of the AK gene and its protein activity were developmentally, caste specifically, and tissue specifically regulated in red imported fire ants with a descending order of worker> alate (winged adult) female> alate (winged adult) male> larvae> worker pupae ≈ alate pupae. These results suggest a different demand for energy-consumption and production in the different castes of the red imported fire ant, which may be linked to their different missions and physiological activities in the colonies. The highest level of the AK gene expression and activity was identified in head tissue of both female alates and workers and thorax tissue of workers, followed by thorax tissue of female alates and abdomen tissue of male alates, suggesting the main tissues or cells in these body parts, such as brain, neurons and muscles, which have been identified as the major tissues and/or cells that display high and variable rates of energy turnover in other organisms, play a key role in energy production and its utilization in the fire ant. In contrast, in the male alate, the highest AK expression and activity were found in the abdomen, suggesting that here energy demand may relate to sperm formation and reproduction.     

Multiforms of mammalian adenylate kinase and its monoclonal antibody against AK1

An attempt has been made to determine the intracellular distribution of the multiforms of the adenylate kinase (AK) isoenzymes in mammalian tissues, to shed some light on their physiological roles, especially in energy metabolism. The adenylate kinase zymograms obtained from isoelectric focusing yielded two typical isoform patterns: (1) with a pI greater than or equal to 9 and 8.6, specific for bovine skeletal muscle, heart, aorta and brain, and (2) with a pI = 7.9 and 7.1, specific for liver and kidney. Pattern (1) was attributed to the cytosolic isoenzyme (AK1) as demonstrated by immunostaining with anti-AK1. Pattern (2) was attributed to the mitochondrial isoenzyme (AK2). These results were largely confirmed by chromatofocusing experiments. The AK1 isoenzyme was partially purified from the cytosol fraction of bovine aortic smooth muscle and had an apparent Mr of 23.5 kilodaltons. Its kinetic features are discussed from a comparative standpoint. Finally, the human serum AK1 isoform was also detected by Western blotting with a monoclonal antibody directed against crystalline porcine muscle AK1. These results are to form the basis of further studies on the 'aberrant' adenylate kinase isoenzyme from the serum of Duchenne muscular dystrophics.     

Cytosolic and mitochondrial isoenzymes of branched-chain amino acid aminotransferase during development of the rat.

The isoenzymic forms of branched-chain amino acid aminotransferase in mitochondria of rat tissues were compared with the better-known cytosolic forms in order to find any regular pattern of expression of these isoenzymes during development. Mitochondria of all tissues examined except brain contained only a type-I isoenzyme differing from the cytosolic type-I isoenzyme in heat stability and activation by mercaptoethanol. Foetal and adult brain mitochondria contained isoenzymes type III as well as type I. The large excess of type-I isoenzyme in foetal liver was localized in mitochondria, apparently of haematopoietic cells. The activity of this isoenzyme declined precipitously (by 80%) from day 19 of gestation at the same period and rate as does the volume fraction of haematopoietic cells that are then leaving the liver. Cortisol treatment accelerated the loss of these cells, and proportionally accelerated loss of the mitochondrial isoenzyme I. A development succession of type-I isoenzyme by the unique type II of liver parenchymal cell cytosols could not be demonstrated, since small, about equal, amounts of types I and II were always present in cytosols of foetal and adult liver. Developmental succession of isoenzymes within tissues was limited to cytosols and was demonstrated by the presence of cytosolic isoenzyme III in foetal and newborn skeletal muscle and kidney, organs which contain only isoenzyme I in the adult.     

Expression of different isoenzymes of adenylate deaminase in cultured human muscle cells. Relation to myoadenylate deaminase deficiency.

Adenylate deaminase activity was determined in cultured muscle cells of different maturation grades and muscle biopsies from normal subjects and four patients with a primary myoadenylate deaminase (MAD) deficiency. Adenylate deaminase activity was much lower in cultured human muscle cells than in normal muscle. The activity increased with maturation. The ratio of activities measured at 5 and 2 mM AMP decreased in the order: immature muscle cells greater than more mature muscle cells greater than muscle. Adenylate deaminase activity was detectable in muscle cell cultures of MAD-deficient patients. However, both at 2 and 5 mM AMP this activity was significantly lower than in cultured cells with the same high maturation grade obtained from control subjects, whereas the ratio between the activities at 5 and 2 mM AMP was higher. The observations indicate that transition from a fetal to an adult muscle isoenzyme of adenylate deaminase takes place in human cultured muscle cells during maturation. In cultures obtained from MAD-deficient patients this transition does not occur and only the fetal isoenzyme is present.     

Red cell adenylate kinase phenotypes in the affective disorders

Summary The red cell adenylate kinase (AK) phenotype was determined by starch gel electrophoresis in 96 adult Caucasian subjects with affective disorders (24 with bipolar illness and 72 with unipolar illness). The phenotype frequencies and the gene frequencies of the bipolar group closely resembled that of the control subjects (180 subjects drawn from the population of a large institution for the mentally retarded), the unipolar group however, showed a significant increase in the frequency of the AK² allele.The significance of these results have been discussed in relation to the known genetic and biochemical findings in the affective disorders. It is suggested that the mechanism involved may be a reduction of the enzyme activity in the tissues of subjects with the AK 2:1 phenotype. This may present a selective disadvantage in the form of a decrease in control of energy metabolism in general, and control of adenine nucleotide levels in nervous tissue in particular.     

Studies on the properties and tissue distribution of the isozymes of guanylate kinase in man.

The isozyme patterns of guanylate kinase were examined in fetal and adult tissues, in cultured cells and also in red cells separated by density gradient fractionation. Results from fetal and cultured cells inidcated that there are three primary isozymes a, c, and e among the seven isozymes of guanylate kinase in man. Serial secondary isozyme production in red cells in vivo showed that isozyme a produces b, c produces d, and e produces f and g. The three sets of isozymes were found to differ in the following properties: activation/inhibition by EDTA; thermostability, and molecular weights. Isoelectric points of several of the isozymes were estimated by isoelectric focusing. It was concluded that the isozymes of guanylate kinase are determined by three separate gene loci.     

Prolyl 4-hydroxylase isoenzymes I and II have different expression patterns in several human tissues.

Prolyl 4-hydroxylase plays a central role in the synthesis of all collagens. We have previously reported that the recently identified Type II isoenzyme is its main form in chondrocytes and possibly in capillary endothelial cells, while Type I is the main form in many other cell types. We report here that the Type II isoenzyme is clearly the main form in capillary endothelial cells and also in cultured umbilical vein endothelial cells, whereas no Type I isoenzyme could be detected in these cells by immunostaining or Western blotting. The Type II isoenzyme was also the main form in cells of the developing glomeruli in the fetal kidney and tubular structures of collecting duct caliber in both fetal and adult kidney, in occasional sinusoidal structures and epithelia of the bile ducts in the liver, and in some cells of the decidual membrane that probably represented invasive cytotrophoblasts in the placenta. Osteoblasts in a fetal calvaria, i.e., a bone developing by intramembranous ossification, stained strongly for both types of isoenzyme. The Type I isoenzyme was the main form in undifferentiated interstitial mesenchymal cells of the developing kidney, for example, and in fibroblasts and fibroblastic cells in many tissues. Skeletal myocytes and smooth muscle cells appeared to have the Type I isoenzyme as their only prolyl 4-hydroxylase form. Hepatocytes expressed small amounts of the Type I enzyme and very little if any Type II, the Type I expression being increased in malignant hepatocytes and cultured hepatoblastoma cells. The data suggest that the Type I isoenzyme is expressed especially by cells of mesenchymal origin and in developing and malignant tissues, whereas the Type II isoenzyme is expressed, in addition to chondrocytes and osteoblasts, by more differentiated cells, such as endothelial cells and cells of epithelial structures. (J Histochem Cytochem 49:1143-1153, 2001)     

Purine nucleoside metabolizing enzyme activities in mouse thymocytes at different stages of differentiation and maturation

The activities of the enzymes involved in purine nucleoside metabolism, adenosine deaminase (ADA), adenosine kinase (AK), purine nucleoside phosphorylase (PNP) and deoxycytidine kinase (deoxyCRK), were determined in mouse thymocytes at various stages of differentiation and maturation, and compared with those in other tissues. The thymocytes were characterized by high ADA and deoxyCRK activities with high ADA/AK and ADA/PNP ratios and low PNP/deoxyCRK ratio. In fetal thymocytes of 16 gestational days, ADA activity was lower, and PNP, AK and deoxyCRK activities were higher than those in the adult thymocytes. During differentiation of fetal thymocytes, ADA activity increased while PNP and AK activities decreased. DeoxyCRK activity decreased after birth. In spleen T lymphocytes, ADA and deoxyCRK activities were lower and PNP activity was about 2.5-fold higher than in the thymocytes. Thus the differentiation stages of T lymphocytes may be characterized by the absolute levels and the ratios of these enzymes.     

Cutting edge commentary: origins of B-1 cells

The origin of B-1a cells, a minority population of B cells that express CD5, are abundant in coelomic cavities, and often produce autoantibodies, has been the subject of study for many years. Accumulating evidence demonstrates that the hypothesis that only B cells arising in fetal or neonatal tissues have the potential to become B-1a cells cannot be true. Rather, B cell receptor-mediated signaling initiated by ligation of autoantigen has now been shown to be required for induction of the B-1a phenotype. Furthermore, cells with a functional B-1a phenotype can be induced from adult precursors by appropriate Ag. At the same time, microenvironment-specific events may determine the likelihood that a given B cell, either adult or fetal derived, enters this pathway. CD5 expression and possibly localization to the peritoneum appear to provide some protection to autoreactive cells otherwise slated for elimination.     

Brain oxygen transport related to levels of fetal haemoglobin in stable preterm infants.

The relative amount of regional cerebral oxygen transport was compared between different preterm infants by performing measurements of cerebral blood flow velocity, mean arterial blood pressure, whole blood viscosity and haemoglobin content for each individual. In addition the percentage of fetal haemoglobin was determined. On 25 occasions measurements of fetal haemoglobin and cerebral oxygen transport have been performed prior to and following a blood transfusion with adult red blood cells. Comparison of the data for cerebral oxygen transport suggests that the actual amount of cerebral oxygen transport is lowest at fetal haemoglobin levels below 30% and will increase progressively as soon as the percentage of fetal haemoglobin rises about 30%. Thus, at increasing fetal haemoglobin levels, cerebral haemodynamic mechanisms in the human neonate cause elevations of regional cerebral blood flow and oxygen transport. The found increase of cerebral blood flow and oxygen transport at high fetal haemoglobin levels will minimize the impeded dissociation and delivery of oxygen to brain tissues.     

Clinical Problems: Quantitation of Transplacental Haemorrhage

On four occasions over a period of four years samples of adult blood to which known amounts of fetal blood had been added were distributed to 8-12 different laboratories taking part in clinical trials organized by an M.R.C. Working Party. Estimates were made of the proportion of fetal: adult red cells in the samples after preparing films by the acid-elution method. When the proportion of fetal: adult red cells was less than about 1:10,000, the highest and lowest estimates were separated by a factor of about 10. However, when the number of cells present was between about 1:100 and 1:1,000, most results were between half and twice the true number of cells present.It is pointed out that since fetal red cells are approximately 30% larger than adult red cells, and since only about 90% of fetal cells stain darkly in the acid-elution method, estimates of the proportion of darkly-staining cells in a film underestimate the volume of fetal red cells present by about one-third. A simple formula is proposed which corrects for this factor and which gives an estimate of the total volume of fetal red cells present, deduced from the ratio of fetal: adult red cells and assuming a maternal red cell volume at term of 1,800 ml.A method of screening blood films is suggested which, firstly, endeavours to standardize the density of adult red cells on films, and, secondly, takes into account the Poisson distribution. Thus limits are set for the number of fetal red cells which can be seen in scanning a given number of adult cells before the suspicion is aroused that a transplacental haemorrhage exceeding a certain amount is present.It is emphasized that the density of adult red cells on blood films varies very widely, and unless the cell density and the size of the low-power field are defined the practice of deducing the extent of transplacental haemorrhage from the number of fetal red cells seen per low-power field may lead to large errors.     

Unique monoclonal antibodies specifically bind surface structures on human fetal erythroid blood cells

Background

Continuing efforts in development of non-invasive prenatal genetic tests have focused on the isolation of fetal nucleated red blood cells (NRBCs) from maternal blood for decades. Because no fetal cell-specific antibody has been described so far, the present study focused on the development of monoclonal antibodies (mAbs) to antigens that are expressed exclusively on fetal NRBCs.Methods: Mice were immunized with fetal erythroid cell membranes and hybridomas screened for Abs using a multi-parameter fluorescence-activated cell sorting (FACS). Selected mAbs were evaluated by comparative FACS analysis involving Abs known to bind erythroid cell surface markers (CD71, CD36, CD34), antigen-i, galactose, or glycophorin-A (GPA). Specificity was further confirmed by extensive immunohistological and immunocytological analyses of NRBCs from umbilical cord blood and fetal and adult cells from liver, bone marrow, peripheral blood, and lymphoid tissues.Results: Screening of 690 hybridomas yielded three clones of which Abs from 4B8 and 4B9 clones demonstrated the desired specificity for a novel antigenic structure expressed on fetal erythroblast cell membranes. The antigenic structure identified is different from known surface markers (CD36, CD71, GPA, antigen-i, and galactose), and is not present on circulating adult erythroid cells, except for occasional detectability in adult bone marrow cells.Conclusions:The new mAbs specifically bind the same or highly overlapping epitopes of a surface antigen that is almost exclusively expressed on fetal erythroid cells. The high specificity of the mAbs should facilitate development of simple methods for reliable isolation of fetal NRBCs and their use in non-invasive prenatal diagnosis of fetal genetic status.     

An analysis of red cell enzymatic markers in the province of Bologna (Italy).

About 280 unrelated individuals living in the province of Bologna (Northern Italy) have been studied for the following red cell enzymatic markers: phosphoglucomutase (PGM), adenylate kinase (AK), adenosine deaminase (ADA) and phosphohexose isomerase (PHI). 116 subjects from the same sample have also been analysed for red cell acid phosphatase (ACP). The observed gene frequencies are PGM21 = 0.280; AK2 = 0.030; ADA2 = 0.091; ACPa = 0.297; ACPb = 0.647; ACPc = 0.056. In the PHI system two individuals with the variant PHI 3-1 phenotype have been found.     

Oxygen equilibrium characteristics of adult and fetal hemoglobin of Japanese monkey (Macaca fuscata).

Adult hemoglobin and fetal hemoglobin were obtained from Japanese monkey (Macaca fuscata) and their oxygen equilibrium characteristics were studied. (1) The oxygen affinity of fetal hemoglobin was higher than that of adult hemoglobin both in the presence and absence of 2,3-diphosphoglycerate. The presence of diphosphoglycerate lowers the oxygen affinity of adult hemoglobin much greater than does that of HbF and the diphosphoglycerate levels of red cells of adult and newborn monkeys are about the same. (2) The intensity of the Bohr effect, as expressed by -deltalogP50/deltapH, at pH 7.4 was in the order of fetal hemoglobin-diphosphoglycerate greater than adult hemoglobin-diphosphoglycerate greater than fetal hemoglobin greater than adult hemoglobin.     

Developmental changes in the human heavy chain CDR3

The CDR3 of the Ig H chain (CDR3(H)) is significantly different in fetal and adult repertoires. To understand the mechanisms involved in the developmental changes in the CDR3(H) of Ig H chains, sets of nonproductive V(H)DJ(H) rearrangements obtained from fetal, full-term neonates and adult single B cells were analyzed and compared with the corresponding productive repertoires. Analysis of the nonproductive repertoires was particularly informative in assessing developmental changes in the molecular mechanisms of V(H)DJ(H) recombination because these rearrangements did not encode a protein and therefore their distribution was not affected by selection. Although a number of differences were noted, the major reasons that fetal B cells expressed Ig H chains with shorter CDR3(H) were both diminished TdT activity in the DJ(H) junction and the preferential use of the short J(H) proximal D segment D7-27. The enhanced usage of D7-27 by fetal B cells appeared to relate to its position in the locus rather than its short length. The CDR3(H) progressively acquired a more adult phenotype during ontogeny. In fetal B cells, there was decreased recurrent DJ(H) rearrangements before V(H)-DJ(H) rearrangement and increased usage of junctional microhomologies both of which also converted to the adult pattern during ontogeny. Overall, these results indicate that the decreased length and complexity of the CDR3(H) of fetal B cells primarily reflect limited enzymatic modifications of the joins as well as a tendency to use proximal D and J(H) segments during DJ(H) rearrangements.     

Isoenzyme pattern and immunological properties of arginase in normal and hyperargininemia fibroblasts

Arginase deficiency is an inborn error of the last step in the urea cycle and leads to profound hyperargininemia. The enzyme deficiency has been demonstrated in the liver and red blood cells. In cultured patient fibroblasts, the activity is normal. Arginase exists in multiple molecular forms only one of which is missing in hyperargininemic patients. In fibroblasts, three arginase isoenzymes can be demonstrated by DEAE-cellulose column chromatography, two by electrophoresis and by immunoprecipitation methods. From the present data, it is improbable that part of the A1 isoenzyme in fibroblasts originates from fetal calf serum arginase which supplements the culture media. None of the techniques for the separation and analyses of arginase isoenzyme allows to differentiate between the normal and the arginase-deficient phenotype. A possible explanation would be that the defect in A1 arginase observed in the liver is the result of a regulatory defect.