Results of an open label feasibility study of sodium valproate in people with McArdle disease.

McArdle disease results from a lack of muscle glycogen phosphorylase in skeletal muscle tissue. Regenerating skeletal muscle fibres can express the brain glycogen phosphorylase isoenzyme. Stimulating expression of this enzyme could be a therapeutic strategy. Animal model studies indicate that sodium valproate (VPA) can increase expression of phosphorylase in skeletal muscle affected with McArdle disease. This study was designed to assess whether VPA can modify expression of brain phosphorylase isoenzyme in people with McArdle disease. This phase II, open label, feasibility pilot study to assess efficacy of six months treatment with VPA (20 mg/kg/day) included 16 people with McArdle disease. Primary outcome assessed changes in VO2peak during an incremental cycle test. Secondary outcomes included: phosphorylase enzyme expression in post-treatment muscle biopsy, total distance walked in 12 min, plasma lactate change (forearm exercise test) and quality of life (SF36). Safety parameters. 14 participants completed the trial, VPA treatment was well tolerated; weight gain was the most frequently reported drug-related adverse event. There was no clinically meaningful change in any of the primary or secondary outcome measures including: VO2peak, 12 min walk test and muscle biopsy to look for a change in the number of phosphorylase positive fibres between baseline and 6 months of treatment. Although this was a small open label feasibility study, it suggests that a larger randomised controlled study of VPA, may not be worthwhile.

Development of fast and simple chromogenic methods for glucan phosphatases in-gel activity assays.

Glucan phosphatases are essential for normal starch degradation in plants and glycogen metabolism in mammals. Here we develop two chromogenic methods for the detection of glucan phosphatase activity in situ after non denaturing poliacrylamide gel electrophoresis; one method uses pNPP and the second one applies BCIP/NBT. The assays are sensitive, fast, simple, reliable and cost-effective preventing the use of radioactive or fluorogenic compounds. Taking advantage of an efficient separation method combined with the reported assays it is possible to obtain information about oligomeric state of the active enzymes as well as to simultaneously detect glucan substrate binding and phosphatase activity.

Defectos genéticos en el sistema de las fosforilasa hepática en Argentina análisis molecular como instrumento definitivo para una nosología exacta / Genetic defects of the liver phosphorylase system in Argentina molecular analysis a definitive instrument for a precise nosology

La fosforilasa y la fosforilasa-b-quinasa (PHK) ligada al cromosoma X, cuyas deficienciasproducen glucogenosis tipo VI (EAG-VI) y tipo IX (EAG-IX), están codificadaspor los genes PYGL y PHKA2.ObjetivosDiferenciar los defectos genéticos del sistema de la fosforilasa mediante el análisismolecular, suprimiendo métodos invasivos como la biopsia hepática.MétodosEl algoritmo propuesto incluye pasos secuenciales dependientes del sexo delpaciente y de la actividad de la PHK en eritrocitos. Se estudiaron cuatro probandos(dos varones y dos mujeres) no emparentados.ResultadosEl análisis molecular del gen PYGL en las dos pacientes identificó dos mutacionesnuevas (p.Gly233Ser y p.Gly686Arg) y un polimorfismo (IVS15-2delA). Losgenotipos resultantes fueron heterocigota compuesto(p.Gly233Ser/p.Gly686Arg) y homocigota (p.Gly686Arg/p.Gly686Arg), con unafrecuencia alélica del 75% para p.Gly686Arg. El estudio molecular en el genPHKA2 en los probandos varones está en curso.ConclusionesEsta investigación abordó un área de conocimiento inédita en Argentina. Permitiódefinir pacientes con EAG-VI, demostrando que el análisis genético representaun procedimiento óptimo para establecer un diagnóstico certero.

Homology modelling of pyrophosphosrylase, enzyme involved in chitin pathway of Moniliophthora perniciosa.

Moniliophthora perniciosa (Sthael) (Singer) Phillips-Mora is the causal agent of witches' broom disease, which can infect Theobroma cacao decreasing the production of cocoa about 60%. M. perniciosa has a set of potential enzymes that can be useful targets for design of new inhibitors. After the release of the aminoacid sequence of pyrophosphorylase of M. perniciosa, a comparative modelling approach was carried out to obtain the 3D structure of this target. This model can be useful to develop new inhibitors against witches' broom disease.

A glycosyltransferase with a length-controlling activity as a mechanism to regulate the size of polysaccharides.

Cyclic beta-1,2-glucans (CbetaG) are osmolyte homopolysaccharides with a cyclic beta-1,2-backbone of 17-25 glucose residues present in the periplasmic space of several bacteria. Initiation, elongation, and cyclization, the three distinctive reactions required for building the cyclic structure, are catalyzed by the same protein, the CbetaG synthase. The initiation activity catalyzes the transference of the first glucose from UDP-glucose to a yet-unidentified amino acid residue in the same protein. Elongation proceeds by the successive addition of glucose residues from UDP-glucose to the nonreducing end of the protein-linked beta-1,2-oligosaccharide intermediate. Finally, the protein-linked intermediate is cyclized, and the cyclic glucan is released from the protein. These reactions do not explain, however, the mechanism by which the number of glucose residues in the cyclic structure is controlled. We now report that control of the degree of polymerization (DP) is carried out by a beta-1,2-glucan phosphorylase present at the CbetaG synthase C-terminal domain. This last activity catalyzes the phosphorolysis of the beta-1,2-glucosidic bond at the nonreducing end of the linear protein-linked intermediate, releasing glucose 1-phosphate. The DP is thus regulated by this "length-controlling" phosphorylase activity. To our knowledge, this is the first description of a control of the DP of homopolysaccharides.

O efeito do 1-metilciclopropeno o metabolismo de carboidratos de bananas (Musa acuminata AAA cv. Nanicão) / The effect of 1-methylcyclopropene on bananas (Musa acuminata AAA cv. Nanicão

A banana é um fruto climatérico que apresenta alta taxa respiratória e alta produção de etileno após a colheita, o que a torna altamente perecível. Acredita-se que o 1-MCP é capaz de ligar-se ao receptor do hormônio etileno, bloqueando sua ação e, conseqüentemente, retardando o amadurecimento do fruto. Bananas (Musa acuminata AAA cv. Nanicão) com aproximadamente 110 dias pós-antese foram armazenadas em condições controladas de umidade e temperatura. Parte da amostra foi tratada com 1-MCP (100 nl/L, outra parte foi tratada com etileno (100 ppm – 7L/min), e, uma terceira parte, foi mantida como controle. Os frutos foram caracterizados, durante o período de amadurecimento, em relação à produção de etileno e C`O IND. 2’ (por cromatografia à gás) , à concentração de amido (pelo método enzimático descrito por Cordenunsi e Lajolo 1995) e açúcares (glicose, frutose, sacarose e maltose – por HPLC-PAD). Também foram analisados os comportamentos das enzimas α e ß – amilases, fosforilase, DPE 1 e DPE 2 por atividade enzimática in vitro ou por P.A.G.E. nativo e, quando possível, foram avaliados os comportamentos destas enzimas frente a tradução (Western blotting) e transcrição protéica (Northern blotting). A degradação de amido, assim como a respiração, a produção de etileno e síntese de açúcares foram retardadas nos frutos tratados com o 1-MCP. Como conseqüência destas mudanças, também houve uma alteração nos perfis das atividades enzimáticas...

Synthesis and mobilization of glycogen during metamorphosis of the medfly Ceratitis capitata.

There are no recent reports focusing on insect glycogen metabolism that take the advances made in mammalian and yeast systems into account. Moreover, little is known about glycogen synthesis and degradation during insect metamorphosis. The biosynthesis and mobilization of insect glycogen were measured during the larva to adult transition in the Medfly, Ceratitis capitata. The glycogen accumulated by larva decreased to reach almost undetectable levels at the beginning of the pupation process. Histological preparations of 40 h muscles and fat body confirmed a low glycogen content, in contrast with high glycogen images in third larva tissues. After 40 h, glycogen was synthesized de novo and accumulates up to adult ecdysis. We obtained the metamorphosis-dependent profiles of phosphorylase, glycogen synthase, and a glycogenin-like protein. This novel insect glycogen initiator protein (the first measured in an arthropod) appeared to be similar to the homologous enzymes from vertebrates and yeast. We have correlated these results with other biochemical events and anatomical landmarks to understand the use of storage carbohydrates during the sequence of metamorphosis events.

Efeito do ácido indol-3-acético no metabolismo amido-sacarose durante o amadurecimento da banana (Musa spp) / Indole-3-acetic acid effect on starch-to-sucrose metabolism during banana ripening

Dentre os vários processos que concorrem para o amadurecimento da banana, a degradação do amido e sua conversão em açucares solúveis, principalmente sacarose, são dois dos processos nais relevantes para a obtenção o sabor doce característico do fruto maduro. Embora venha sendo estudado há anos, ainda não foram esclarecidos quais os mecanismos regulátorios e os possíveis sinais hormonais envolvidos no controle da degradação do amido e na síntese da sacarose. O presente estudo objetivou avaliar o efeito do ácido indol-3-acético (AIA), um hormônio da classe das auxinas com reconhecido efeito retardador do amadurecimento, sobre o metabolismo amido-sacarose e algumas enzimas correlacionadas, em bananas...

Distribution of glycogen phosphorylase and cytochrome oxidase in the central nervous system of the turtle Trachemys dorbigni.

Glycogen phosphorylase (GP) and cytochrome oxidase (CO) activities were mapped histochemically in the brain of the turtle Trachemys dorbigni. In the telencephalon, both activities occurred in the olfactory bulb, in all cortical areas, in the dorsal ventricular ridge, striatum, primordium hippocampi and olfactory tubercle. In the diencephalon, they were identified in some areas of the hypothalamus, and in rotundus and geniculate nuclei. Both reactions were detected in the oculomotor, trochlear, mesencephalic trigeminal nuclei, the nucleus of the posterior commissure, torus semicircularis, substantia nigra and ruber and isthmic nuclei of the mesencephalon. In all layers of the optic tectum GP activity was found, but CO only labelled the stratum griseum centrale. In the medulla oblonga both enzymes appear in the reticular, raphe and vestibular nuclei, locus coeruleus and nuclei of cranial nerves. In the cerebellum, the granular and molecular layers, and the deep cerebellar nuclei were positive for both enzymes. The Purkinje cells were only reactive for CO. In the spinal cord, motor and commissural neurones exhibited a positive reaction for the two enzymes. However, CO also occurred in the marginal nucleus and in the lateral funiculus. These results may be useful as a basis for subsequent studies on turtle brain metabolism.

Gene organization and transcription analysis of the Agrobacterium tumefaciens glycogen (glg) operon: two transcripts for the single phosphoglucomutase gene.

The gene organization and transcription of the Agrobacterium glg operon differ from those in other bacteria. Agrobacterium tumefaciens A348 contains a 9.1-kb gene cluster harboring genes for glycogen metabolism. The nucleotide sequence and gene organization of a region containing ADP-glucose pyrophosphorylase (glgC), glycogen synthetase (glgA), and phosphoglucomutase (pgm) genes have been previously described (A. Uttaro and R. A. Ugalde, Gene 150:117-122, 1994). In this work we report that the glycogen phosphorylase (glgP) and branching enzyme (glgB) genes are located immediately upstream of this region. The complete nucleotide sequences of the glgP and glgB genes were obtained, and mutants were constructed by targeted insertional mutagenesis with a kanamycin cassette. Enzymatic assays and reverse transcription PCR carried out with the wild type and with glgP and glgB mutants, as well as primer extension experiments and beta-galactosidase fusions, revealed that this region containing five open reading frames (glgPBCA and pgm) is transcribed unidirectionally as a single operon under the control of a promoter located upstream of the glycogen phosphorylase gene (glgP). An alternative transcript was identified starting 168 bp upstream of an internal ATG start codon of the pgm gene, which is translated as a 71-amino-acid-shorter Pgm protein which complements in vivo a pgm mutant. This alternative transcript has a promoter with the motif TATCAAN5G, identified in octopine Ti plasmid as an autoinducible TraR promoter. This promoter is >200 times more efficient in A. tumefaciens than in Escherichia coli, as judged by the level of enzymatic activity of a lacZ-pgm fusion.

Glycogen brain branching enzyme.

Rat brain glycogen branching enzyme was partially purified in order to elucidate its mechanism of action. The alpha1,4-alpha1,6-glucan polysaccharide was synthesized using rat brain branching enzyme under two different elongation conditions: Glc-1-P and phosphorylase or UDP-Glc and glycogen synthase. The products obtained demonstrated that the cpolysaccharides synthesized (pattern of the spectra obtained in the presence of Krisman's reagent, lambda max, parameter A and R, % beta-amylolysis and degree of branching) under different incubation times are nearly constant. These results imply that the degree of branching of a polysaccharide depends only on the enzyme specificity.

Modulation of sperm acrosomal exocytosis by guanyl nucleotides and G-protein-modifier agents.

Mammalian sperm must undergo an exocytotic event during fertilization, the acrosome reaction (AR). This process is specifically induced by egg-surface glycoproteins and it involves guanine nucleotide binding proteins (G-proteins). Neoglycoproteins (NGP) with mannose or N-acetylglucosamine residues has been demonstrated to induce the AR in human sperm. Activators of G-proteins, like GTP gamma S, GppNHp, mastoparan and AlF4- were capable of inducing the AR, while other nucleotides or analogues did not. When sperm were preincubated with these agents and then with NGPs, only the G-protein inhibitor GDP beta S decreased the AR rate. The preincubation of sperm with Pertussis toxin resulted in the inhibition of NGP-induced AR, while no effect was observed with cholera toxin. Results indicate that direct activation of G-proteins is sufficient to elicit the AR, and the induction of the AR in human sperm is mediated by N-acetylglucosaminyl and mannosyl binding sites involving PTx-sensitive G-proteins similar to the induction by zona pellucida glycoproteins.

Marcadores bioquímicos en el diagnóstico temprano del infarto agudo de miocardio / Biochemical markers in the early diagnosis of acute myocardial infarctaion

Con el transcurso del tiempo surgen mejores alternativas terapéuticas para los pacientes que sufren de infarto agudo de miocardio (IAM), enfermedad considerada en nuestro país como una de los principales causas de muerte; esto hace que el Laboratorio deba evolucionar permanentemente hacia la utilización de nuevas prácticas que sean cada vez más sensibles y específicas para poder realizar un diagnóstico precoz. En el presente trabajo se pretende realizar una revisión sobre los análisis de laboratorio históricamente más frecuentemente utilizados, así como también efectuar una actualización sobre los nuevos parámetros en estudio para el diagnóstico de IAM

Marcadores bioquímicos en el diagnóstico temprano del infarto agudo de miocardio / Biochemical markers in the early diagnosis of acute myocardial infarctaion

Con el transcurso del tiempo surgen mejores alternativas terapéuticas para los pacientes que sufren de infarto agudo de miocardio (IAM), enfermedad considerada en nuestro país como una de los principales causas de muerte; esto hace que el Laboratorio deba evolucionar permanentemente hacia la utilización de nuevas prácticas que sean cada vez más sensibles y específicas para poder realizar un diagnóstico precoz. En el presente trabajo se pretende realizar una revisión sobre los análisis de laboratorio históricamente más frecuentemente utilizados, así como también efectuar una actualización sobre los nuevos parámetros en estudio para el diagnóstico de IAM (AU)

Analysis of primer independent phosphorylase activity in potato plants: high levels of activity in sink organs and sucrose-dependent activity in cultured stem explants.

One isoform of potato (Solanum tuberosum L., cv. Spunta), type L phosphorylase (EC 2.4.1.1), exhibiting primer independent activity appears to be tuber-specific. However, this activity can also be modulated by exogenous sucrose in storage as well as in non-storage organs. Primer independent phosphorylase (PIPh) activity in microtubers and shoots of in vitro plantlets was found to be much higher than in tubers and shoots of soil-grown plants. Detached leaves of soil-grown plants showed an increase in PIPh activity as well when incubated in sucrose-containing Murashige-Skoog (MS) medium. This increase was always accompanied by a rise in starch content. The presence of metabolizable carbohydrates in the growth or incubation medium are likely to be responsible for the observed rise in PIPh activity. In vitro microtubers and micropropagated plantlet organs (shoots and roots) exhibited a correlation between measurable PIPh activity and presence of enzyme protein, as judged by Western blot analysis using anti-potato tuber type L phosphorylase antibody. Therefore, in addition, to be developmentally regulated (tuber-specific accumulation), PIPh activity associated with the tuber type L isoform might be under a form of metabolic regulation.

Biochemistry below 0 degrees C: nature's frozen vertebrates.

Although alien to man, the ability to endure the freezing of extracellular body fluids during the winter has developed in several species of terrestrially hibernating frogs and turtles as well as in many species of insects and other invertebrates. Wood frogs, for example, can endure freezing for at least 2 weeks with no breathing, no heart beat or blood circulation, and with up to 65% of their total body water as ice. Our studies are providing a comprehensive view of the requirements for natural freezing survival and of the physical and metabolic protection that must be offered for effective cryopreservation of vertebrate organs. Molecular mechanisms of natural freeze tolerance in lower vertebrates include: 1) control over ice crystal growth in plasma by ice nucleating proteins, 2) the accumulation of low molecular weight cryoprotectants to minimize intracellular dehydration and stabilize macromolecular components, and 3) good ischemia tolerance by all organs that may include metabolic arrest mechanisms to reduce organ energy requirements while frozen. Cryomicroscopy of tissue slices and magnetic resonance imaging (MRI) of whole animals is revealing the natural mode of ice propagation through an organism. MRI has also revealed that thawing is non-uniform; core organs (with high cryoprotectant levels) melt first, facilitating the early resumption of heart beat and blood circulation. Studies of the production and actions of the natural cryoprotectant, glucose, in frogs have shown its importance in maintaining a critical minimum cell volume in frozen organs and new work on the metabolic effects of whole body dehydration in 3 species of frogs has indicated that adaptations supporting freeze tolerance grew out of mechanisms that deal with desiccation resistance in amphibians. Studies of the regulation of cryoprotectant glucose synthesis by wood frog liver have shown the role of protein kinases and of alpha and beta adrenergic receptors in regulating the glycemic response, and of changes in membrane glucose transporter proteins to facilitate cryoprotectant distribution.

Biochemistry below 0§C: nature's frozen vertebrates

Although alien to man, the ability to endure the freezing of extracellular body fluids during the winter has developed in several species of terrestrially hibernating frogs and turtles as well as in many species of insects and other invertebrates. Wood frogs, for example, can endure freezing for at least 2 weeks with no breathing, no heart beat or blood circulation, and with up to 65 per cent of their total body water as ice. Our studies are providing a comprehensive view of the requirements for natural freezing survival and of the physical and metabolic protection that must be offered for effective cryopreservation of vertebrate organs. Molecular mechanisms of natural freeze tolerance in lower vertebrates include: 1) control over ice crystal growth in plasma by ice nucleating proteins, 2) the accumulation of low molecular weight cryoprotectants to minimize intracellular dehydration and stabilize macromolecular components, and 3) good ischemia tolerance by all organs that may include metabolic arrest mechanisms to reduce organ energy requirements while frozen. Cryomicroscopy of tissue slices and magnetic resonance imaging (MRI) of whole animals is revealing the natural mode of ice propagation through an organism. MRI has also revealed that thawing is non-uniform; core organs (with high cryoprotectant levels) melt first, facilitating the early resumption of heart beat and blood circulation. Studies of the production and actions of the natural cryoprotectant, glucose, in frogs have shown its importance in maintaining a critical minimum cell volume in frozen organs and new work on the metabolic effects of whole body dehydration in 3 species of frogs has indicated that adaptations supporting freeze tolerance grew out of mechanisms that deal with desiccation resistance in amphibians. Studies of the regulation of cryoprotectant glucose synthesis by wood frog liver have shown the role of protein kinases and of (alpha and beta adrenergic receptors in regulating the glycemic response, and of changes in membrane glucose transporter proteins to facilitate cryoprotectant distribution.

Effects of temperature shifts on the activities of Neurospora crassa glycogen synthase, glycogen phosphorylase and trehalose-6-phosphate synthase.

Conidiospore germlings of Neurospora crassa submitted to a heat shock at 45 degrees C accumulate trehalose and degrade glycogen. The opposite occurs upon reincubation at a physiologic temperature (30 degrees C). These observations suggest a temperature-dependent mechanism for the preferential synthesis of one or the other sugar reserve. Here we show that concomitant with these shifts of temperature, occurred reversible changes in the activities of glycogen synthase and phosphorylase. Glycogen synthase was inactivated at 45 degrees C while phosphorylase was activated. The reverse was true when the cells were shifted back to 30 degrees C. Addition of cycloheximide did not prevent the reversible enzymatic changes, which remained stable after gel filtration. Apparently, the effects of temperature shifts occurred at the level of reversible covalent enzymatic modifications. Trehalose-6-phosphate synthase properties were also affected by temperature. For instance, the enzyme was less sensitive to in vitro inhibition by inorganic phosphate at 50 degrees C than at 30 degrees C. Fructose-6-phosphate partially relieved the inhibitory effect of phosphate at 30 degrees C but not at 50 degrees C. These effects of the assay temperature, inorganic phosphate, and fructose-6-phosphate, on trehalose-6-phosphate synthase activity, were more evident for crude extracts obtained from heat-shocked cells. Altogether, these results may contribute to explain the preferential accumulation of trehalose 45 degrees C, or that of glycogen at 30 degrees C.

Extraction and evaluation of crude glucan obtained from Saccharomyces cerevisae cells

Células de uma cepa de Saccharomyces cerevisae muito comuns na produçäo de álcool no Brasil foram usadas para a obtençäo de glucano bruto. O produto tem características muito similares a outras preparaçöes já descritas e demonstrou-se útil como um espessante. O rendimento (glucano bruto seco/células secas de leveduras) foi de cerca de 12 por cento)