Opportunities to improve the management of anemia in peritoneal dialysis patients: lessons from a national study in routine clinical practice.

Background: Current guidelines establish the same hemoglobin (Hb) and iron biomarkers targets for hemodialysis (HD) and peritoneal dialysis (PD) in patients receiving erythropoiesis-stimulating agents (ESAs) even though patients having PD are usually younger, more active and less comorbid. Unfortunately, specific renal anemia [anemia in chronic kidney disease (aCKD)] trials or observational studies on PD are scanty. The aims of this study were to describe current aCKD management, goals and adherence to clinical guidelines, identifying opportunities for healthcare improvement in PD patients. Methods: This was a retrospective, nationwide, multicentre study including patients from 19 PD units. The nephrologists collected baseline data, demographics, comorbidities and data related to anemia management (laboratory values, previously prescribed treatments and subsequent adjustments) from electronic medical records. The European adaptation of KDIGO guidelines was the reference for definitions, drug prescriptions and targets. Results: A total of 343 patients (mean age 62.9 years, 61.2% male) were included; 72.9% were receiving ESAs and 33.2% iron therapy [20.7% intravenously (IV)]. Eighty-two patients were receiving ESA without iron therapy, despite 53 of them having an indication according to the European Renal Best Practice guidelines. After laboratory results, iron therapy was only started in 15% of patients. Among ESA-treated patients, 51.9% had an optimal control [hemoglobin (Hb) 10-12 g/dL] and 28.3% between 12-12.9 g/dL. Seventeen patients achieved Hb >13 g/dL, and 12 of them remained on ESA after overshooting. Only three patients had Hb <10 g/dL without ESAs. Seven patients (2%) met criteria for ESA resistance (epoetin dose >300 IU/kg/week). The highest tertile of erythropoietin resistance index (>6.3 UI/kg/week/g/dL) was associated with iron deficiency and low albumin corrected by renal replacement therapy vintage and hospital admissions in the previous 3 months. Conclusion: Iron therapy continues to be underused (especially IV). Low albumin, iron deficiency and prior events explain most of the ESA hyporesponsiveness. Hb targets are titrated to/above the upper limits. Thus, several missed opportunities for adequate prescriptions and adherence to guidelines were identified.

From Acid Alpha-Glucosidase Deficiency to Autophagy: Understanding the Bases of POMPE Disease.

Pompe disease (PD) is caused by mutations in the GAA gene, which encodes the lysosomal enzyme acid alpha-glucosidase, causing lysosomal glycogen accumulation, mainly in muscular tissue. Autophagic buildup is considered the main factor affecting skeletal muscle, although other processes are also involved. Uncovering how these mechanisms are interconnected could be an approximation to address long-lasting concerns, like the differential skeletal and cardiac involvement in each clinical phenotype. In this sense, a network reconstruction based on a comprehensive literature review of evidence found in PD enriched with the STRING database and other scientific articles is presented. The role of autophagic lysosome reformation, PGC-1α, MCOLN1, calcineurin, and Keap1 as intermediates between the events involved in the pathologic cascade is discussed and contextualized within their relationship with mTORC1/AMPK. The intermediates and mechanisms found open the possibility of new hypotheses and questions that can be addressed in future experimental studies of PD.

Spectroscopic and Microestructural Evidence for T-2 Toxin Adsorption Mechanism by Natural Bentonite Modified with Organic Cations.

Aluminosilicates are adsorbents able to bind mycotoxins, and their chemical modification increases their affinity to adsorb low-polarity mycotoxins. To further investigate if the inclusion of salts in bentonite modifies its adsorptive capacity, we studied T-2 toxin adsorption in natural bentonite (NB) and when modified with quaternary ammonium salts differing in polarity and chain length: myristyl trimethyl ammonium bromide (B14), cetyl trimethyl ammonium bromide (B16) and benzyl dimethyl stearyl ammonium chloride (B18). The results showed that quaternary salts made bentonite: displace monovalent (Na+1, K+1) and divalent (Mg+2, Ca+2) ions; reduce its porosity; change its compaction and structure, becoming more crystalline and ordered; and modify the charge balance of sheets. T-2 adsorption was higher in all modified materials compared to NB (p ≤ 0.0001), and B16 (42.96%) better adsorbed T-2 compared to B18 (35.80%; p = 0.0066). B14 (38.40%) showed no differences compared to B16 and B18 (p > 0.05). We described the T-2 adsorption mechanism in B16, in which hydrogen bond interactions, Van der Waals forces and the replacement of the salt by T-2 were found. Our results showed that interaction types due to the inclusion in B16 might be more important than the hydrocarbon chain length to improve the adsorptive capacity of bentonite.

Molecular Docking and In Vitro Studies of Ochratoxin A (OTA) Biodetoxification Testing Three Endopeptidases.

Ochratoxin A (OTA) is considered one of the main mycotoxins responsible for health problems and considerable economic losses in the feed industry. The aim was to study OTA's detoxifying potential of commercial protease enzymes: (i) Ananas comosus bromelain cysteine-protease, (ii) bovine trypsin serine-protease and (iii) Bacillus subtilis neutral metalloendopeptidase. In silico studies were performed with reference ligands and T-2 toxin as control, and in vitro experiments. In silico study results showed that tested toxins interacted near the catalytic triad, similar to how the reference ligands behave in all tested proteases. Likewise, based on the proximity of the amino acids in the most stable poses, the chemical reaction mechanisms for the transformation of OTA were proposed. In vitro experiments showed that while bromelain reduced OTA's concentration in 7.64% at pH 4.6; trypsin at 10.69% and the neutral metalloendopeptidase in 8.2%, 14.44%, 45.26% at pH 4.6, 5 and 7, respectively (p < 0.05). The less harmful α-ochratoxin was confirmed with trypsin and the metalloendopeptidase. This study is the first attempt to demonstrate that: (i) bromelain and trypsin can hydrolyse OTA in acidic pH conditions with low efficiency and (ii) the metalloendopeptidase was an effective OTA bio-detoxifier. This study confirmed α-ochratoxin as a final product of the enzymatic reactions in real-time practical information on OTA degradation rate, since in vitro experiments simulated the time that food spends in poultry intestines, as well as their natural pH and temperature conditions.

The landscape of CRISPR/Cas9 for inborn errors of metabolism.

Since its discovery as a genome editing tool, the clustered regularly interspaced short palindromic repeats and CRISPR-associated protein 9 (CRISPR/Cas9) system has opened new horizons in the diagnosis, research, and treatment of genetic diseases. CRISPR/Cas9 can rewrite the genome at any region with outstanding precision to modify it and further instructions for gene expression. Inborn Errors of Metabolism (IEM) are a group of more than 1500 diseases produced by mutations in genes encoding for proteins that participate in metabolic pathways. IEM involves small molecules, energetic deficits, or complex molecules diseases, which may be susceptible to be treated with this novel tool. In recent years, potential therapeutic approaches have been attempted, and new models have been developed using CRISPR/Cas9. In this review, we summarize the most relevant findings in the scientific literature about the implementation of CRISPR/Cas9 in IEM and discuss the future use of CRISPR/Cas9 to modify epigenetic markers, which seem to play a critical role in the context of IEM. The current delivery strategies of CRISPR/Cas9 are also discussed.

Metabolic impact of infant formulas in young infants. An outlook from the urine metabolome.

Introduction: Although breast milk is the ideal food source for newborns during the first six months of life, a high percentage of children receive infant formulas. There is evidence that specific diet habits may influence individual metabolic profile. Therefore, in newborns, such profile can be influenced by the use of infantile formulas given the composition differences that display compared to human milk. Up to now, there are no reports in the literature that address this issue. Objectives: this work aims to compare the metabolic profile of full-term newborns that were feed with either breast milk (n = 32) or infantile formulas (n = 21). Methods: Metabolic profile was established based on urine analysis through gas chromatography-mass spectrometry (GC-MS) and nuclear magnetic resonance (H-NMR). Results: our results evidenced a more gluconeogenic profile in breast-fed infants characterized by elevation of Kreb's cycle intermediaries like fumaric, succinic and ketoglutaric acids compared to infants receiving infant formula. In addition, infant formula fed infants presented urinary excretion of metabolites derived from specific compounds present in this type of diet that were not observed in breast-fed infants, for instance D-glucitol, and 4-deoxytetronic. Moreover, in infant formula fed infants there was excretion of basal levels of metabolites of clinical relevance like 3-hydroxy-3-methyl-glutaric, 2-methyl-3-keto-valeric and 3,4-dihydroxybutyric. Conclusion: These results show the importance of understanding the metabolic impact of diet in newborn population in normal and pathological contexts.

Sphingolipids and their role in health and disease in the central nervous system.

Sphingolipids (SLs) are lipids derived from sphingosine, and their metabolism involves a broad and complex network of reactions. Although SLs are widely distributed in the body, it is well known that they are present in high concentrations within the central nervous system (CNS). Under physiological conditions, their abundance and distribution in the CNS depend on brain development and cell type. Consequently, SLs metabolism impairment may have a significant impact on the normal CNS function, and has been associated with several disorders, including sphingolipidoses, Parkinson's, and Alzheimer's. This review summarizes the main SLs characteristics and current knowledge about synthesis, catabolism, regulatory pathways, and their role in physiological and pathological scenarios in the CNS.

Predicting sepsis severity at first clinical presentation: The role of endotypes and mechanistic signatures.

BACKGROUND: Inter-individual variability during sepsis limits appropriate triage of patients. Identifying, at first clinical presentation, gene expression signatures that predict subsequent severity will allow clinicians to identify the most at-risk groups of patients and enable appropriate antibiotic use. METHODS: Blood RNA-Seq and clinical data were collected from 348 patients in four emergency rooms (ER) and one intensive-care-unit (ICU), and 44 healthy controls. Gene expression profiles were analyzed using machine learning and data mining to identify clinically relevant gene signatures reflecting disease severity, organ dysfunction, mortality, and specific endotypes/mechanisms. FINDINGS: Gene expression signatures were obtained that predicted severity/organ dysfunction and mortality in both ER and ICU patients with accuracy/AUC of 77-80%. Network analysis revealed these signatures formed a coherent biological program, with specific but overlapping mechanisms/pathways. Given the heterogeneity of sepsis, we asked if patients could be assorted into discrete groups with distinct mechanisms (endotypes) and varying severity. Patients with early sepsis could be stratified into five distinct and novel mechanistic endotypes, named Neutrophilic-Suppressive/NPS, Inflammatory/INF, Innate-Host-Defense/IHD, Interferon/IFN, and Adaptive/ADA, each based on ∼200 unique gene expression differences, and distinct pathways/mechanisms (e.g., IL6/STAT3 in NPS). Endotypes had varying overall severity with two severe (NPS/INF) and one relatively benign (ADA) groupings, consistent with reanalysis of previous endotype studies. A 40 gene-classification tool (accuracy=96%) and several gene-pairs (accuracy=89-97%) accurately predicted endotype status in both ER and ICU validation cohorts. INTERPRETATION: The severity and endotype signatures indicate that distinct immune signatures precede the onset of severe sepsis and lethality, providing a method to triage early sepsis patients.

Advances and Challenges in Classical Galactosemia. Pathophysiology and Treatment

Abstract Classical galactosemia is caused by the genetic deficiency of galactose-1-phosphate-urydyl-transferase resulting in clinical symptoms development during the first weeks of life including jaundice, hypotonia, lethargy, emesis, hepatomegaly, among others. Currently, dietary restriction of galactose is considered the standard for classical galactosemia management. For several years, severe dietary galactose restriction was considered necessary, implying restriction not only of dairy products, but also fruits, vegetables, legumes, and viscera. Such management failed to improve or prevent the appearance of long-term complications, by contrast, such restrictive approach may lead to nutritional deficiencies development. Thus, the last consensus suggests guidelines that are more flexible. In addition, the lack of knowledge regarding the physiopathology of the disease, and the toxicity threshold of the metabolites accumulated, make even more difficult to propose novel and more effective therapeutic approaches. This review summarizes the current state of knowledge regarding classical galactosemia in terms of physiopathology, long-term complications, newborn screening and genetic variants and their implications on galactosemia treatment, summed to the challenges that researchers working on this disease must address in future studies including the analysis of galactose content in foods, galactose tolerance threshold and search for novel therapeutic targets.

1H-Nuclear Magnetic Resonance Analysis of Urine as Diagnostic Tool for Organic Acidemias and Aminoacidopathies.

The utility of low-resolution 1H-NMR analysis for the identification of biomarkers provided evidence for rapid biochemical diagnoses of organic acidemia and aminoacidopathy. 1H-NMR, with a sensitivity expected for a field strength of 400 MHz at 64 scans was used to establish the metabolomic urine sample profiles of an infant population diagnosed with small molecule Inborn Errors of Metabolism (smIEM) compared to unaffected individuals. A qualitative differentiation of the 1H-NMR spectral profiles of urine samples obtained from individuals affected by different organic acidemias and aminoacidopathies was achieved in combination with GC-MS. The smIEM disorders investigated in this study included phenylalanine metabolism; isovaleric, propionic, 3-methylglutaconicm and glutaric type I acidemia; and deficiencies in medium chain acyl-coenzyme and holocarboxylase synthase. The observed metabolites were comparable and similar to those reported in the literature, as well as to those detected with higher-resolution NMR. In this study, diagnostic marker metabolites were identified for the smIEM disorders. In some cases, changes in metabolite profiles differentiated post-treatments and follow-ups while allowing for the establishment of different clinical states of a biochemical disorder. In addition, for the first time, a 1H-NMR-based biomarker profile was established for holocarboxylase synthase deficiency spectrum.

Use of a neuron-glia genome-scale metabolic reconstruction to model the metabolic consequences of the Arylsulphatase a deficiency through a systems biology approach.

Metachromatic leukodystrophy (MLD) is a human neurodegenerative disorder characterized by progressive damage on the myelin band in the nervous system. MLD is caused by the impaired function of the lysosomal enzyme Arylsulphatase A (ARSA). The physiopathology mechanisms and the biochemical consequences in the brain of ARSA deficiency are not entirely understood. In recent years, the use of genome-scale metabolic (GEM) models has been explored as a tool for the study of the biochemical alterations in MLD. Previously, we modeled the metabolic consequences of different lysosomal storage diseases using single GEMs. In the case of MLD, using a glia GEM, we previously predicted that the metabolism of glycosphingolipids and neurotransmitters was altered. The results also suggested that mitochondrial metabolism and amino acid transport were the main reactions affected. In this study, we extended the modeling of the metabolic consequences of ARSA deficiency through the integration of neuron and glial cell metabolic models. Cell-specific models were generated from Recon2, and these were used to create a neuron-glial bi-cellular model. We propose a workflow for the integration of this type of model and its subsequent study. The results predicted the impairment pathways involved in the transport of amino acids, lipids metabolism, and catabolism of purines and pyrimidines. The use of this neuron-glial GEM metabolic reconstruction allowed to improve the prediction capacity of the metabolic consequences of ARSA deficiency, which might pave the way for the modeling of the biochemical alterations of other inborn errors of metabolism with central nervous system involvement.

GM2 Gangliosidoses: Clinical Features, Pathophysiological Aspects, and Current Therapies.

GM2 gangliosidoses are a group of pathologies characterized by GM2 ganglioside accumulation into the lysosome due to mutations on the genes encoding for the ß-hexosaminidases subunits or the GM2 activator protein. Three GM2 gangliosidoses have been described: Tay-Sachs disease, Sandhoff disease, and the AB variant. Central nervous system dysfunction is the main characteristic of GM2 gangliosidoses patients that include neurodevelopment alterations, neuroinflammation, and neuronal apoptosis. Currently, there is not approved therapy for GM2 gangliosidoses, but different therapeutic strategies have been studied including hematopoietic stem cell transplantation, enzyme replacement therapy, substrate reduction therapy, pharmacological chaperones, and gene therapy. The blood-brain barrier represents a challenge for the development of therapeutic agents for these disorders. In this sense, alternative routes of administration (e.g., intrathecal or intracerebroventricular) have been evaluated, as well as the design of fusion peptides that allow the protein transport from the brain capillaries to the central nervous system. In this review, we outline the current knowledge about clinical and physiopathological findings of GM2 gangliosidoses, as well as the ongoing proposals to overcome some limitations of the traditional alternatives by using novel strategies such as molecular Trojan horses or advanced tools of genome editing.

Implementación de un método para la cuantificación de cistina intraleucocitaria como apoyo diagnóstico para la cistinosis / Implementation of an intraleukocitary cystine quantification method for diagnosis of cystinosis

ANTECEDENTES Y OBJETIVOS: La cistinosis es un error innato del metabolismo cuyas características clínicas incluyen compromiso renal severo y formación de cristales de cistina en la córnea, especialmente en la presentación adulta de la enfermedad. Es una enfermedad tratable, por lo cual establecer el diagnóstico de forma oportuna es fundamental para iniciar la terapia. Para la confirmación bioquímica de la enfermedad se requiere determinar las concentraciones intracelulares de cistina, para lo cual se han reportado diferentes métodos tanto para el aislamiento de las células como para la cuantificación del aminoácido. Con el objetivo de mejorar el diagnóstico bioquímico confirmatorio en nuestro medio establecimos un protocolo de cuantificación intraleucocitaria de cistina. MÉTODOS: Se implementó un método de cuantificación de cistina en polimorfonucleares por cromatografía líquida de alta resolución, evaluando el mejor anticoagulante a utilizar, la estabilidad de la muestra a 4̊ C y estableciendo valores de referencia para nuestra población. RESULTADOS: Se determinó que la muestra para cuantificación intraleucocitaria de cistina debe ser anticoagulada mediante la adición de ácido cítrico-dextrosa como anticoagulante. La muestra debe ser procesada inmediatamente, dada su baja estabilidad incluso en refrigeración. Con 50 individuos sanos se estableció como punto de corte para nuestra población 0,34 nmol 1/2 cistina/mg. CONCLUSIÓN: La adaptación realizada del método de cuantificación de cistina utiliza el número más alto de muestras control hasta ahora reportado en la literatura. Nuestros resultados dan cuenta de la necesidad de implementar el método a nivel local y reafirman la conveniencia de que cada laboratorio establezca sus propios valores de referencia para proporcionar una mayor confiabilidad a la hora de interpretar los resultados

Background and aims: Cystinosis is an inborn error of metabolism, clinically characterised by severe renal involvement and development of corneal cystine deposits, especially in the adult form of the disease. Cystinosis is a treatable condition. Therefore, an early diagnosis is necessary to start therapy. For biochemical confirmation of the condition it is necessary to quantify intracellular cystine concentrations. For this, different methods have been described with variations in cell isolation strategies and the amino acid quantification techniques used. In order to improve confirmatory biochemical diagnosis in our setting, a protocol for intraleukocitary cystine quantification was established. METHODS: A high performance liquid chromatography based method for cystine quantification in polymorphonuclear cells was implemented. Evaluation of the best anticoagulant to use and temperature stability of the sample at 4̊C were performed. In addition, we established reference values for our population. RESULTS: It was determined that intraleukocitary cystine quantification must be performed in blood samples containing acid-citrate-dextrose as anticoagulant. Samples must be processed immediately due to their poor stability even when refrigerated. Based on the results from 50 healthy individuals, the cut-off point established for our population was 0.34 nmol 1/2 cystine/mg. CONCLUSION: The adaptation performed to the cystine quantification method here presented the highest control population that has been reported in the literature so far. Our results highlight the need for making available a cystine quantification method locally and confirm the convenience for each laboratory to establish its own reference values to provide greater reliability for interpreting results

Implementation of an intraleukocitary cystine quantification method for diagnosis of cystinosis. / Implementación de un método para la cuantificación de cistina intraleucocitaria como apoyo diagnóstico para la cistinosis.

BACKGROUND AND AIMS: Cystinosis is an inborn error of metabolism, clinically characterised by severe renal involvement and development of corneal cystine deposits, especially in the adult form of the disease. Cystinosis is a treatable condition. Therefore, an early diagnosis is necessary to start therapy. For biochemical confirmation of the condition it is necessary to quantify intracellular cystine concentrations. For this, different methods have been described with variations in cell isolation strategies and the amino acid quantification techniques used. In order to improve confirmatory biochemical diagnosis in our setting, a protocol for intraleukocitary cystine quantification was established. METHODS: A high performance liquid chromatography based method for cystine quantification in polymorphonuclear cells was implemented. Evaluation of the best anticoagulant to use and temperature stability of the sample at 4̊C were performed. In addition, we established reference values for our population. RESULTS: It was determined that intraleukocitary cystine quantification must be performed in blood samples containing acid-citrate-dextrose as anticoagulant. Samples must be processed immediately due to their poor stability even when refrigerated. Based on the results from 50 healthy individuals, the cut-off point established for our population was 0.34nmol 1/2 cystine/mg. CONCLUSION: The adaptation performed to the cystine quantification method here presented the highest control population that has been reported in the literature so far. Our results highlight the need for making available a cystine quantification method locally and confirm the convenience for each laboratory to establish its own reference values to provide greater reliability for interpreting results.

Acute air pollution exposure alters neutrophils in never-smokers and at-risk humans.

Outdoor air pollution exposure increases chronic obstructive pulmonary disease (COPD) hospitalisations, and may contribute to COPD development. The mechanisms of harm, and the extent to which at-risk populations are more susceptible are not fully understood. Neutrophils are recruited to the lung following diesel exhaust exposure, a model of traffic-related air pollution (TRAP), but their functional role in this response is unknown. The purpose of this controlled human-exposure crossover study was to assess the effects of acute diesel exhaust exposure on neutrophil function in never-smokers and at-risk populations, with support from additional in vitro studies.18 participants, including never-smokers (n=7), ex-smokers (n=4) and mild-moderate COPD patients (n=7), were exposed to diesel exhaust and filtered air for 2 h on separate occasions, and neutrophil function in blood (0 h and 24 h post-exposure) and bronchoalveolar lavage (24 h post-exposure) was assessed.Compared to filtered air, diesel exhaust exposure reduced the proportion of circulating band cells at 0 h, which was exaggerated in COPD patients. Diesel exhaust exposure increased the amount of neutrophil extracellular traps (NETs) in the lung across participants. COPD patients had increased peripheral neutrophil activation following diesel exhaust exposure. In vitro, suspended diesel exhaust particles increased the amount of NETs measured in isolated neutrophils. We propose NET formation as a possible mechanism through which TRAP exposure affects airway pathophysiology. In addition, COPD patients may be more prone to an activated inflammatory state following exposure.This is the first controlled human TRAP exposure study directly comparing at-risk phenotypes (COPD and ex-smokers) with lower-risk (never-smokers) participants, elucidating the human susceptibility spectrum.

Hiperlisinemia Como Hallazgo Sugestivo De Acidemia Propiónica. Reporte De Caso / Hyperlisinemia As A Suggestive Finding Of Propionic Acidemia. Case Report

RESUMEN Introducción: La acidemia propiónica (AP) es una acidemia orgánica (AO) con presentación clínica de inicio neonatal o de forma tardía. Causada por deficiencia de la enzima propionil-CoA carboxilasa que ocasiona acumulación de ácido propiónico y metabolitos relacionados con propionil-CoA en los tejidos. Es característica la hiperglicinemia, pero puede presentarse hiperlisinemia. Este trabajo describe un caso clínico de AP de inicio neonatal con desenlace fatal y alteración llamativa de los aminoácidos. Caso clínico: Recién nacido (RN) femenina ingresa a unidad neonatal al tercer día de vida por hipoactividad, vómito y letargia. Posterior dificultad respiratoria y realiza paros cardiacos, falleciendo antes de establecer un diagnóstico bioquímico. Paraclínicos iniciales evidenciaron acidosis metabólica, leucopenia, hipoglicemia, posteriormente se documenta hiperglicininemia, hipercistinemia y severa hiperlisininemia. La cromatografía de ácidos orgánicos en orina identificó ácido 3-hidroxi-propionico, metilcitrato y propionilglicina entre otros metabolitos tóxicos, confirmando el diagnóstico. Conclusiones: La AP es un error innato del metabolismo autosómico recesivo de baja incidencia. La presencia de acidosis metabólica severa, pancitopenia, hipoglicemia y antecedentes familiares deben alertar sobre este diagnóstico. Adicionalmente, aunque el diagnóstico bioquímico definitivo son los ácidos orgánicos en orina, la presencia de hiperamonemia, hiperglicinemia e hiperlisinemia pueden ser altamente sugestivas de este trastorno.

ABSTRACT Introduction: Propionic acidemia (AP) is an organic acidemia (AO) with clinical presentation of neonatal onset or late. Caused by deficiency of the enzyme propionil-CoA carboxilasa that causes accumulation of propionic acid and metabolites related to propionyl-CoA in tissues. Hyperglycinemia is characteristic, but hyperlysinemia may occur. This work describes a clinical case of AP of neonatal onset with fatal outcome and striking alteration of amino acids. Clinical case: Female newborn (RN) admitted in the neonatal unit on the third day of life due to hypoactivity, vomiting and lethargy. Subsequent respiratory distress and cardiac arrest occurred, dying before a biochemical diagnosis was established. Initial paraclinics evidenced metabolic acidosis, leukopenia, hypoglycemia, later documented hyperglycinemia, hypercystinemia and severe hyperlysinemia. The organic acid chromatography in urine identified 3-hydroxy-propionic acid, methyl citrate and propionylglycine among other toxic metabolites, confirming the diagnosis. Conclusions: AP is an inborn error of autosomal recessive metabolism of low incidence. The presence of severe metabolic acidosis, pancytopenia, hypoglycemia and family history should alert about this diagnosis. Additionally, although the definitive biochemical diagnosis is organic acids in urine, the presence of hyperammonemia, hyperglycinemia and hyperlysinemia can be highly suggestive of this disorder.

Importancia de la semiología y la bioquímica en el abordaje diagnóstico de un trastorno de la biogénesis peroxisómica / The importance of semiology and biochemistry in the diagnostic management of a peroxisomal biogenesis disorder

Introducción. Los trastornos de la biogénesis de los peroxisomas se deben a mutaciones en los genes PEX, que codifican peroxinas requeridas para la biogénesis peroxisómica. Clínicamente se expresan como un espectro del síndrome de Zellweger, y hay una amplia variedad fenotípica. Su diagnóstico se realiza bioquímicamente y la confirmación es molecular. El objetivo de este caso ilustrativo es resaltar la importancia de la clínica y de las pruebas bioquímicas en el abordaje de una enfermedad peroxisómica. Caso clínico. Niño de 3 años con hipotonía neonatal, retraso global del desarrollo y fallo de medro, con un patrón en resonancia cerebral de leucodistrofia hipomielinizante, en quien se había sospechado un trastorno de la biogénesis de los peroxisomas por encontrarse una variante de significado incierto en PEX5, pero su clínica, los estudios bioquímicos y el análisis crítico de las pruebas moleculares hacían improbable este diagnóstico. Se hace énfasis en el abordaje que debería tenerse cuando se sospecha un trastorno del espectro del síndrome de Zellweger. Conclusión. En el caso descrito se sospechó un trastorno de la biogénesis de los peroxisomas por una secuenciación exómica que, al analizarse críticamente junto con la clínica y los hallazgos bioquímicos, hacía muy poco probable una enfermedad peroxisómica. Cuando se tiene sospecha clínica y por neuroimágenes, el abordaje diagnóstico principal debe partir del análisis bioquímico. Aunque la confirmación es molecular, estas pruebas deben interpretarse con precaución

Introduction. Peroxisomal biogenesis disorders are due to mutations in the PEX genes, which code for peroxins that are required for peroxisomal biogenesis. Clinically, they are expressed as a Zellweger syndrome spectrum, and there is a wide phenotypic variety. They are diagnosed biochemically, and confirmation is molecular. The aim of this illustrative case is to highlight the importance of the clinical features and biochemical testing in the management of a peroxisomal disease. Case report. A 3-year-old boy with neonatal hypotonia, overall developmental delay and failure to thrive and a pattern of hypomyelinating leukodystrophy in brain resonance. The suspected diagnosis was a disorder affecting the biogenesis of the peroxisomes due to having found a variant with an uncertain meaning in PEX5. The clinical features, the biochemical studies and critical analysis, however, made this diagnosis unlikely. Emphasis is placed on the management that must be applied when a Zellweger syndrome spectrum is suspected. Conclusion. In the case reported here, a peroxisomal biogenesis disorder was suspected owing to an exome sequencing which, on being critically analysed together with the clinical features and the biochemical findings, made a peroxisomal disease very unlikely. In cases of clinical suspicion, backed up by neuroimaging, the main diagnostic management must be based on the biochemistry analysis. Although confirmation is molecular, these tests must be interpreted with caution

Dibutyl phthalate modulates phenotype of granulocytes in human blood in response to inflammatory stimuli.

BACKGROUND: Phthalates are plasticizers used in many common commercial products. They are ubiquitous environmental contaminants and epidemiological studies suggest that phthalate exposure is associated with development or worsening of airway diseases. Dibutyl phthalate (DBP) is a type of phthalate, found in high concentrations in indoor air, which appears to have a high inflammatory potential. In vitro studies on innate immune cells like macrophages have shown a reduction in phagocytic and antigen-presenting capacity and decreased production of stimuli-induced cytokines after DBP exposure. OBJECTIVE: We aimed to assess how DBP may alter the in vitro cellular and humoral innate immune response to inflammatory stimuli in blood innate immune cells. METHODS: Human whole blood was stimulated with inflammatory stimuli (lipopolysaccharide (LPS), resiquimod (R848) and phorbol 12-myristate 13-acetate (PMA)) in the presence or absence of DBP. The expression of surface markers CD16, CD24, CD69 and CD14 on granulocytes and monocytes was quantified by flow cytometry analysis. The release of TNFα, IFNγ, IL8 and IL10 cytokines was measured by ELISA. RESULTS: The presence of DBP reduced the inflammatory stimuli-induced expression of CD24 on neutrophils and eosinophils and CD69 on activated eosinophils, whereas expression of CD16 on neutrophils was increased. DBP also had a dampening effect on the release of pro-inflammatory mediators TNFα and IFNγ in response to the inflammatory stimuli. CONCLUSIONS: These responses may reflect an immunosuppressive effect of DBP through impairment of immune cell function.

Diagnóstico clínico y bioquímico del síndrome de leigh en cinco pacientes colombianos / Clinical and biochemical diagnosis of leigh syndrome in five colombian patients / Diagnóstico clínico e bioquímico da síndrome de leigh em cinco pacientes colombianos

Resumen El síndrome de Leigh (SL) es una enfermedad neurodegenerativa, descrita como una encefalomielopatía necrotizante subaguda, y es una de las enfermedades de origen mitocondrial más frecuentes. El SL es causado por el déficit en la producción de energía, originada en defectos en los genes que codifican alguno de los complejos mitocondriales; el gen afectado puede ser de codificación tanto nuclear como mitocondrial, lo que explica que se encuentren diferentes mecanismos de herencia, incluyendo autosómica recesiva y herencia materna, lo que, a su vez, hace más difícil su diagnóstico molecular. Clínicamente se presenta con regresión del desarrollo cognitivo y pérdida de habilidades motoras con trastorno de movimiento, de rápida progresión. El diagnóstico se basa en la demostración bioquímica de la elevación del ácido láctico y de la relación lactato/piruvato, así como hallazgos en las neuroimágenes por resonancia magnética que muestran lesiones focales, bilaterales y simétricas en ganglios basales o tallo cerebral asociadas a leucoencefalopatía y atrofia cerebral. Se reportan cinco casos con diagnóstico clínico y bioquímico del SL que ejemplifican la variabilidad clínica y gravedad encontrada en este grupo de pacientes.

Summary Leigh syndrome (LS) is a neurodegenerative disease, described as a subacute necrotizing encephalomyelopathy and is one of the most frequent diseases of mitochondrial origin. LS is caused by a deficit in the energy production due to defects in the genes that encode some of the mitochondrial complexes. The affected gene can be due to either nuclear and/or mitochondrial coding, which explains why there are different ways of inheriting the disease, including autosomal recessive and maternal inheritance, which makes its molecular diagnosis even more difficult. Clinically, LS is characterized by regression in cognitive development and motor abilities, as well as movement disorders of rapid progression. Its diagnosis is based on the biochemical demonstration of an increase in lactic acid and lactate / pyruvate ratio, as well as magnetic resonance neuroimaging findings showing focal, bilateral and symmetric lesions in basal ganglia or brainstem associated with leukoencephalopathy and cerebral atrophy. Five cases are reported with clinical and biochemical diagnosis of LS that exemplify the clinical variability and severity found in this group of patients.

Resumo A síndrome de Leigh (SL) é uma doença neurodegenerativa, descrita como uma encefalomielopatia necrotizante subaguda e é uma das doenças de origem mitocondrial mais frequente. A SL é causada pelo déficit na produção de energia originada em defeitos nos genes que codificam algum dos complexos mitocondriais; o gene afetado pode ser de codificação tanto nuclear como mitocondrial, o que explica que se encontrem diferentes mecanismos de herança, incluindo autossômica recessiva e herança materna, o que torna mais difícil seu diagnóstico molecular. Clinicamente se apresenta com regressão do desenvolvimento do desenvolvimento cognitivo e perda de habilidades motoras com transtorno de movimento, de rápida progressão. O diagnóstico se baseia na demonstração bioquímica da elevação do ácido láctico e da relação lactato/piruvato, assim como descobertas nas neuro imagens por ressonância magnética que mostram lesões focais, bilaterais e simétricas em gânglios basais ou talo cerebral associadas a leucoencefalopatia e atrofia cerebral. Reportam-se cinco casos com diagnóstico clínico e bioquímico da SL que exemplificam a variabilidade clínica e gravidade encontrada neste grupo de pacientes.

Airway cells from protracted bacterial bronchitis and bronchiectasis share similar gene expression profiles.

AIM: Protracted bacterial bronchitis (PBB) is a common cause of prolonged cough in young children, and may be a precursor of bronchiectasis. Bacteria are often present in the lower airways in both PBB and bronchiectasis and may cause persistent infections. However, there is a paucity of information available on the pathogenesis of PBB and the factors associated with persistent bacterial infection and progression to bronchiectasis. This study hypothesised that lung immune cells in recurrent PBB and bronchiectasis differentially express genes related to immune cell dysfunction compared to lung immune cells from control subjects. METHOD: Cells isolated from bronchoalveolar lavage (adult-control and PBB BAL cells) were stimulated with nontypeable Haemophilus influenzae (NTHi), and expression of genes involved in various inflammatory pathways was assessed. RESULT: NTHi induced production of large amounts of IL-1ß, IL-6, and IL-8 in adult-control BAL cells, however BAL cells from PBB airways appeared refractory to NTHi stimulation. BAL cells from PBB and bronchiectasis showed differential expression of several genes relative to control cells, including CCL20, MARCO, CCL24, IL-10, PPAR-γ, CD200R, TREM2, RelB. Expression of genes involved in resolution of inflammation and anti-inflammation response, such as CD200R and IL-10, was associated with the number of pathogenic bacteria found in the airways. CONCLUSION: In summary, we have shown that the expression of genes related to macrophage function and resolution of inflammation are similar in PBB and bronchiectasis. Lung immune cell dysfunction in PBB and bronchiectasis may contribute to poor bacterial clearance and prolonged resolution of inflammation.