Urea cycle disorders in Argentine patients: clinical presentation, biochemical and genetic findings.

BACKGROUND: The incidence, prevalence, and molecular epidemiology of urea cycle disorders (UCDs) in Argentina remain underexplored. The present study is the first to thoroughly assess the clinical and molecular profiles of UCD patients examined at a single reference center in Argentina. RESULTS: Forty-nine UCD cases were collected. About half (26/49, 53%) manifested neonatally with classical presentation and had a high mortality (25/26, 96%). Ornithine transcarbamylase deficiency (OTCD) was the most common UCD (26 patients). Argininosuccinate synthetase deficiency (ASSD) was detected in 19 cases, while argininosuccinate lyase deficiency (ASLD) was diagnosed in 4 cases. Molecular genetic analysis revealed 8 private OTC mutations and two large deletion/duplication events in the OTC gene. Most mutations in the ASS1 and ASL genes were recurrent missense changes, and four alterations were novel. The clinical outcome of our UCD cohort was poor, with an overall mortality of 57% (28/49 cases), and a 28% (6/21) disability rate among the survivors. CONCLUSIONS: Most patients in our case series showed severe neonatal onset, with high morbidity/mortality. We detected in total 19 mutations, most of them recurrent and of high frequency worldwide. Noteworthy, we highlight the presence of a geographic cluster with high prevalence of a point mutation in the ASS1 gene. This study suggests that these disorders may be more frequent than commonly assumed, and stresses the need for increased awareness amongst health professionals and greater availability of diagnostic tools for accurate identification, early diagnosis, and timely treatment.

Creatine metabolism: detection of creatine and guanidinoacetate in saliva of healthy subjects.

Creatine (Cr) plays an important role in storage and transmission of phosphate-bound energy. Cerebral creatine deficiency syndromes comprise three inherited defects in Cr biosynthesis and transport. The aim of this study was to investigate whether Cr and Guanidinoacetate (GAA) can be detected in saliva of healthy subjects and to establish the relationship between salivary and plasma levels of these molecules. An adapted gas chromatography (GC) method is described for the quantification of Cr and GAA biomarkers in saliva. Reference values were established for GAA and Cr in saliva. These values were age dependent (p= 0.001). No difference between genders was observed. We detected a difference between GAA and Cr concentrations in saliva and in plasma. The GC method for simultaneous determination of GAA and Cr in human saliva is fast, reliable, sensitive, non-invasive and precise to use as a biochemical approach in early detection of cerebral creatine 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 Cr pueden 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 biomarcadores, 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 detectó una 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 los síndromes de deficiencia de creatina cerebral.

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.

Citrullinemia type I, classical variant. Identification of ASS-p~G390R (c.1168G>A) mutation in families of a limited geographic area of Argentina: a possible population cluster.

OBJECTIVE: Citrullinemia type I (CTLN1) is an urea cycle defect caused by mutations in the argininosuccinate synthetase gene. We report the first identification in Argentina of patients with CTLN1 in a limited geographic area. DESIGN AND METHODS: Molecular analysis in patient/relatives included PCR, sequencing and restriction enzyme assay. RESULTS: The studied families showed the same mutation: ASS~p.G390R, associated with the early-onset/severe phenotype. CONCLUSION: We postulate a possible population cluster. A program to know the carrier frequency in that population is in progress.