Creatine metabolism: detection of creatine and guanidinoacetate in saliva of healthy subjects / Metabolismo de creatina: detección de creatina y guanidinoacetato en saliva de sujetos sanos

Creatine (Cr) plays an important role in storage and transmissionof phosphate-bound energy. Cerebral creatine deficiencysyndromes comprise three inherited defects in Cr biosynthesis andtransport. The aim of this study was to investigate whether Cr andGuanidinoacetate (GAA) can be detected in saliva of healthysubjects and to establish the relationship between salivary andplasma levels of these molecules. An adapted gas chromatography(GC) method is described for the quantification of Cr and GAAbiomarkers in saliva. Reference values were established for GAAand Cr in saliva. These values were age dependent (p= 0.001). Nodifference between genders was observed. We detected a differencebetween GAA and Cr concentrations in saliva and in plasma. TheGC method for simultaneous determination of GAA and Cr inhuman saliva is fast, reliable, sensitive, non-invasive and preciseto use as a biochemical approach in early detection of cerebralcreatine deficiency syndromes.

La creatina (Cr) juega un importante rol en el almacenamiento y el transporte de energía unida al fosfato. Los síndromes de deficiencia de creatina cerebral comprenden tres defectos genéticos en la biosíntesis y transporte de creatina. Es propósito de este estudio investigar si el guanidinoacetato (GAA) y la Crpueden ser detectados en saliva de sujetos sanos e investigar la relación entre los valores de GAA y Cr en saliva con los niveles en plasma de estas moléculas. Se describe un método modificado de cromatografía gaseosa para la cuantificación de los biomarca -dores, Cr y GAA en este biofluído. Se establecieron valores de referencia para GAA y Cr. Estos valores dependen de la edad (P=0.001). No se observaron diferencias entre género. Se detectóuna diferencia entre la concentración de GAA y Cr en saliva con respecto al plasma. El método adaptado de cromatografía gaseosa para la determinación simultánea de GAA y Cr en saliva humana es fácil, seguro, sensible, no invasivo y preciso para utilizar como aproximación bioquímica en la detección temprana de lossíndromes de deficiencia de creatina cerebral.

Guanidinoacetate alters antioxidant defenses and butyrylcholinesterase activity in the blood of rats

Deficiency of guanidinoacetate methyltransferase, the first described creatine biosynthesis defect, leads to depletion of creatine and phosphocreatine, and accumulation of guanidinoacetate (GAA) in brain and body fluids. The present study aimed to investigate the influence of GAA on the activities of antioxidant enzymes, as well as on thiobarbituric acid-reactive substances (TBARS) and butyrylcholinesterase (BuChE) activity in the blood of rats. We also evaluated the effect of trolox (6-hydr oxy-2,5,7,8-tetramethylchroman-2-carboxylic acid), GSH (glutathione) and L-NAME (NG-nitro-L-arginine methyl ester) on the alterations elicited by GAA. Methods: The rats were randomly divided into 8 groups: (1) control; (2) GAA (10, 30, 50, 100 mM/kg); (3) trolox (1 mM/kg) + control; (4) trolox (1 mM/kg) + GAA (100 mM/kg); (5) GSH (1 mM/kg) + control; (6) GSH (1 mM/kg) + GAA (100 mM/kg); (7) L-NAME (1 mM/kg) + control; (8) L-NAME + GAA (100 mM/kg). After the addition of compounds, erythrocytes and plasma were pre-incubated at 37°C for 1h and tested immediately. Results: GAA enhanced the activities of catalase (CAT) and glutathione peroxidase (GSH-Px) in the erythrocytes and BuChE activity. In addition, GAA enhanced TBARS levels in the plasma. Trolox, GSH and L-NAME addition prevented the majority of alterations in oxidative stress parameters and the increase of BuChE activity that were caused by GAA. Data suggest that GAA alters antioxidant defenses and induces lipid peroxidation in the blood, as well altering BuChE activity. However, in the presence of trolox, GSH and L-NAME some of these alterations in oxidative stress and BuChE activity were prevented. Conclusions: Our findings lend support to a potential therapeutic strategy for this condition, which may include the use of appropriate antioxidants for ameliorating the damage caused by GAA...

Molecular analysis of guanidinoacetate-n- methyltransferase [GAMT] and creatine transporter [SLC6A8] gene by using denaturing high pressure liquid chromatography [DHPLC] as a possible source of human male infertility

The creatine/phosphocreatine system is essential for cellular phosphate coupled energy storage and production, particularly in tissues subject to high metabolic demands. Male factor infertility is a common condition with unknown etiology in most of the cases. Sperm abnormalities could possibly lead to infertility. As sperm motility depends on intact mitochondrial function and energy levels. Thus reduced intracellular creatine stores may contribute to decreased sperm motility leading to male infertility as creatine /phosphocreatine system plays major role in making and breaking of ATP, thus in energy kinetics. We developed and validated a denaturing high performance liquid chromatograph [DHPLC] method for the molecular analysis of SLC6A8 and GAMT genes involve in creatine biosynthesis and transport as a possible source of human male infertility by analyzing DNA from 64, clinically confirmed, infertile men. No mutation/polymorphism was detected in the exonic regions of both genes in all the patients and in fertile healthy controls indicating that SLC6A8 and GAMT genes may not be directly involved in human male infertility

Diagnóstico bioquímico das síndromes de deficiência de creatina / Biochemical diagnosis of creatine deficiency syndromes

Recentemente, foi descrito um grupo de alterações no metabolismo da creatina denominado Síndromes de Deficiência de Creatina. Há três formas da doença geneticamente determinadas que cursam com deficiência de creatina, seja por comprometimento de sua síntese ou por defeito na proteína transportadora. O espectro de apresentação clínica dessa condição é inespecífico e inclui atraso ou estagnação do desenvolvimento neuromotor, hipotonia muscular, movimentos involuntários do tipo coreoatetose, retardo ou ausência do desenvolvimento da fala, retardo mental de grau variável, comportamento autista e epilepsia. Neste trabalho, foi desenvolvida e validada uma alternativa metodológica àquelas disponíveis na literatura, com a utilização de extração por troca catiônica forte e separação e detecção por cromatografia líquida de interação hidrofílica acoplada a espectrometria de massas em tandem em que foram exploradas as características químicas das moléculas de creatina e guanidinoacetato, metabólito intermediário da síntese de creatina. Os valores de referência para o método foram definidos pela sua aplicação a 150 amostras de urina e 197 amostras de soro de indivíduos de ambos os sexos e idades entre 0 e 16 anos. Foram também analisadas amostras de urina, soro e plasma de 54 pacientes com clínica compatível com a síndrome de deficiência de creatina sendo que 3 deles apresentaram perfil bioquímico característico de uma das formas dessa condição.

Recently, a new group of inborn errors of metabolism, collectively named as creatine deficiency syndrome, was identified. Three genetically determined presentations are currently known, affecting both creatine synthesis and transport. Clinical presentation spectrum is non-specific and includes developmental delay, hypotonia, involuntary movements as choreoathetosis, delay or lack of speech acquisition, mental retardation of variable severity, autistic behavior, and epilepsy. Herein, we developed and validated an innovative method for determination of creatine and of its metabolic intermediate, guanidinoacetate, based on cation-exchange solid-phase extraction and hydrophilic interaction liquid chromatography coupled to tandem mass spectrometry. Reference values for the method were defined testing 150 urine and 197 serum samples in males and females with age ranging from 0 to 16 years. Urine and serum samples from 54 patients with some clinical features that might be attributable to creatine deficiency were also evaluated, and in three, biochemical profile characteristic of one of the disorders was detected.

Efeitos da suplementação de creatina na captação de glicose em ratos submetidos ao exercício físico / Effects of creatine supplementation on glucose uptake in rats submitted to exercise training

Estudos recentes têm sugerido que a suplementação de creatina é capaz de modular a homeostase da glicose, aumentando sua captação pelos tecidos periféricos. O objetivo deste trabalho foi investigar o efeito da suplementação de creatina na tolerância à glicose e no conteúdo de glicogênio muscular e hepático em ratos submetidos ou não à atividade física por quatro e oito semanas. Ratos Wistar foram divididos em dois grupos: quatro e oito semanas de intervenção. Posteriormente, cada grupo foi subdividido em quatro subgrupos, de acordo com a ingestão do suplemento e o treinamento: controle cedentário, controle treinado, suplementado sedentário e suplementado treinado. Os animais tiveram livre acesso à água e ração; o grupo suplementado teve 2 por cento de sua ração sob a forma de creatina monoidratada. Os grupos exercitados nadaram 40 minutos por dia, quatro dias por semana, com carga entre 2 e 5 por cento do seu peso amarrado ao peito. Após quatro e oito semanas, o teste oral de tolerância à glicose e as dosagens de glicogênio muscular e hepático foram realizadas. Não foram observadas diferenças significativas entre os grupos no teste de tolerância oral à glicose e no conteúdo de glicogênio muscular e hepático. Este estudo mostrou que a suplementação de creatina não exerceu influência na tolerância à glicose nem nas concentrações de glicogênio em ratos submetidos ou não à atividade física por quatro ou oito semanas.

Recently, studies have suggested that creatine supplementation can modulate glucose homeostasis by increasing glucose uptake in peripheral tissues. The aim of this study was to investigate the effects of creatine supplementation on glucose tolerance, muscle and hepatic glycogen content in rats submitted or not to physical activity for four and eight weeks. Wistar rats were divided in two groups: four and eight weeks of intervention. Afterwards, each group was subdivided in four subgroups, according to supplement intake and exercise: Sedentary Control; Trained Control; Supplemented Sedentary; and Supplemented Trained. The animals had free access to water and chow and the supplemented groups had two percent of their diet as creatine monohydrated. The exercise groups swam for 40 minutes a day, four days a week, with two to five percent of their body weight attached to their chests. After four and eight weeks, oral glucose tolerance tests were performed and both hepatic and muscle glycogen were determined. No significant differences were observed between groups on glucose tolerance and glycogen content in muscle and hepatic tissue. This study shows that creatine supplementation does not influence neither glucose tolerance nor glycogen concentrations in rats submitted or not to physical activity for four and eight weeks.