Exploring the therapeutic potential of tetrahydrobiopterin for heart failure with preserved ejection fraction: A path forward.

A large number of patients are affected by classical heart failure (HF) symptomatology with preserved ejection fraction (HFpEF) and multiorgan syndrome. Due to high morbidity and mortality rate, hospitalization and mortality remain serious socioeconomic problems, while the lack of effective pharmacological or device treatment means that HFpEF presents a major unmet medical need. Evidence from clinical and basic studies demonstrates that systemic inflammation, increased oxidative stress, and impaired mitochondrial function are the common pathological mechanisms in HFpEF. Tetrahydrobiopterin (BH4), beyond being an endogenous co-factor for catalyzing the conversion of some essential biomolecules, has the capacity to prevent systemic inflammation, enhance antioxidant resistance, and modulate mitochondrial energy production. Therefore, BH4 has emerged in the last decade as a promising agent to prevent or reverse the progression of disorders such as cardiovascular disease. In this review, we cover the clinical progress and limitations of using downstream targets of nitric oxide (NO) through NO donors, soluble guanylate cyclase activators, phosphodiesterase inhibitors, and sodium-glucose co-transporter 2 inhibitors in treating cardiovascular diseases, including HFpEF. We discuss the use of BH4 in association with HFpEF, providing new evidence for its potential use as a pharmacological option for treating HFpEF.

Mechanisms underlying the efficacy and limitation of dopa and tetrahydrobiopterin therapies for the deficiency of GTP cyclohydrolase 1 revealed in a novel mouse model.

Dopa and tetrahydrobiopterin (BH4) supplementation are recommended therapies for the dopa-responsive dystonia caused by GTP cyclohydrolase 1 (GCH1, also known as GTPCH) deficits. However, the efficacy and mechanisms of these therapies have not been intensively studied yet. In this study, we tested the efficacy of dopa and BH4 therapies by using a novel GTPCH deficiency mouse model, Gch1KI/KI, which manifested infancy-onset motor deficits and growth retardation similar to the patients. First, dopa supplementation supported Gch1KI/KI mouse survival to adulthood, but residual motor deficits and dwarfism remained. Interestingly, RNAseq analysis indicated that while the genes participating in BH4 biosynthesis and regeneration were significantly increased in the liver, no significant changes were observed in the brain. Second, BH4 supplementation alone restored the growth of Gch1KI/KI pups only in early postnatal developmental stage. High doses of BH4 supplementation indeed restored the total brain BH4 levels, but brain dopamine deficiency remained. While total brain TH levels were relatively increased in the BH4 treated Gch1KI/KI mice, the TH in the striatum were still almost undetectable, suggesting differential BH4 requirements among brain regions. Last, the growth of Gch1KI/KI mice under combined therapy outperformed dopa or BH4 therapy alone. Notably, dopamine was abnormally high in more than half, but not all, of the treated Gch1KI/KI mice, suggesting the existence of variable synergetic effects of dopa and BH4 supplementation. Our results provide not only experimental evidence but also novel mechanistic insights into the efficacy and limitations of dopa and BH4 therapies for GTPCH deficiency.

Serum Neopterin, Biopterin, Tryptophan, and Kynurenine Levels in Patients with Fabry Disease

Background: Fabry disease is characterized by the accumulation of globotriaosylceramide. Substrate accumulation in lysosomes is thought to trigger an inflammatory response and is responsible for progressive organ damage through the induction of autoimmunity. The levels of pteridine and kynurenine pathway metabolites increase when immune activation is observed and are employed to monitor several diseases and determine prognosis. Aims: To elucidate the effects of immune activation on the pathophysiology of Fabry disease and to investigate the potential utility of pteridine and kynurenine metabolites. Study Design: A prospective case-control study. Methods: In this study, 33 patients with Fabry disease and 33 age-and sex-matched healthy controls were included. Blood pteridine and kynurenine metabolites were studied in both groups. Organ involvement in Fabry disease and its correlation with the pteridine and kynurenine pathways were also investigated. Results: The patients' neopterin and biopterin levels and the tryptophan/kynurenine ratio were statistically higher than those of the healthy control group (p < 0.05). A statistically significant association was found between neopterin levels and hypertrophic cardiomyopathy, cardiac arrhythmias, and GFR values (p = 0.044, p = 0.021, and p = 0.030, respectively), tryptophan and corneal verticillate, hearing loss and tinnitus (p = 0.010, p = 0.009 and p = 0.046, respectively), and kynurenine levels and valvular heart disease (p = 0.020). Conclusion: From the onset of the disease, patients with Fabry disease exhibited elevated levels of inflammation and immune activation. Furthermore, inflammation and immune activation markers can be used as early disease biomarkers.

Photo-Induced Disproportionation-Mediated Photodynamic Therapy: Simultaneous Oxidation of Tetrahydrobiopterin and Generation of Superoxide Radicals.

We herein present an approach of photo-induced disproportionation for preparation of Type-I photodynamic agents. As a proof of concept, BODIPY-based photosensitizers were rationally designed and prepared. The photo-induced intermolecular electron transfer between homotypic chromophores leads to the disproportionation reaction, resulting in the formation of charged intermediates, cationic and anionic radicals. The cationic radicals efficiently oxidize the cellularimportant coenzyme, tetrahydrobiopterin (BH4 ), and the anionic radicals transfer electrons to oxygen to produce superoxide radicals (O2 - ⋅). One of our Type-I photodynamic agents not only self-assembles in water but also effectively targets the endoplasmic reticulum. It displayed excellent photocytotoxicity even in highly hypoxic environments (2 % O2 ), with a half-maximal inhibitory concentration (IC50 ) of 0.96 µM, and demonstrated outstanding antitumor efficacy in murine models bearing HeLa tumors.

Relative Oral Bioavailability and Food Effects of Two Sepiapterin Formulations in Healthy Participants.

Sepiapterin is an orally administered drug in development for the treatment of phenylketonuria, an inborn error of metabolism characterized by the deficiency of the phenylalanine-metabolizing enzyme phenylalanine hydroxylase. This study characterized the pharmacokinetics, safety, and tolerability of 2 clinical sepiapterin formulations (Phase 1/2, Phase 3) and the effects of food on the pharmacokinetics of the Phase 3 formulation in healthy participants. In Part A, 18 participants were randomized to one of 2 treatment sequences, each with 4 dosing periods comprising a single dose (20 or 60 mg/kg) of the Phase 1/2 or the Phase 3 formulation with a low-fat diet. In Part B, 14 participants were randomized to one of 2 sequences, each comprising 4 dosing periods of a single dose (20 or 60 mg/kg) of the Phase 3 formulation under fed (high-fat) or fasted conditions. Following oral administration, sepiapterin was quickly absorbed and rapidly and extensively converted to tetrahydrobiopterin (BH4). BH4 was the major circulating active moiety. Under low-fat conditions, the Phase 3 formulation was bioequivalent to the Phase 1/2 formulation at 20 mg/kg, while slightly lower BH4 exposure (approximately 0.81×) for the Phase 3 formulation was observed at 60 mg/kg. BH4 exposure increased to approximately 1.7× under the low-fat condition and approximately 2.8× under the high-fat condition at a dose of either 20 or 60 mg/kg for the Phase 3 formulation, compared with the fasted condition. Both sepiapterin formulations were well tolerated, with no serious or severe adverse events reported. All treatment-emergent adverse events were mild or moderate in severity.

Long-term comparative effectiveness of pegvaliase versus medical nutrition therapy with and without sapropterin in adults with phenylketonuria.

Phenylketonuria is characterized by intellectual disability and behavioral, psychiatric, and movement disorders resulting from phenylalanine (Phe) accumulation. Standard-of-care treatment involves a Phe-restricted diet plus medical nutrition therapy (MNT), with or without sapropterin dihydrochloride, to reduce blood Phe levels. Pegvaliase is an injectable enzyme substitution treatment approved for adult patients with blood Phe >600 µmol/L despite ongoing management. A previous comparative effectiveness analysis using data from the Phase 3 PRISM trials of pegvaliase (NCT01819727 and NCT01889862) and the Phenylketonuria Demographics, Outcomes and Safety Registry (PKUDOS; NCT00778206) suggested that pegvaliase was more effective at lowering mean blood Phe levels than sapropterin + MNT or MNT alone at 1 and 2 years of treatment. The current work augments and complements the previous analysis by including additional follow-up from the completed studies, robust methods reflecting careful consideration of issues with the distribution of Phe, and alternative methods for adjustment that are important for control of potential confounding in comparative effectiveness. Median blood Phe levels were lower, and median intact protein intakes were higher, in the pegvaliase group (n = 183) than in the sapropterin + MNT (n = 82) and MNT (n = 67) groups at Years 1, 2, and 3. In the pegvaliase group, median blood Phe levels decreased from baseline (1244 µmol/L) to Year 1 (535 µmol/L), Year 2 (142 µmol/L), and Year 3 (167 µmol/L). In the sapropterin + MNT group, median blood Phe levels decreased from baseline (900 µmol/L) to Year 1 (588 µmol/L) and Year 2 (592 µmol/L), and increased at Year 3 (660 µmol/L). In the MNT group, median blood Phe levels decreased slightly from baseline (984 µmol/L) to Year 1 (939 µmol/L) and Year 2 (941 µmol/L), and exceeded baseline levels at Year 3 (1157 µmol/L). The model-estimated proportions of participants achieving blood Phe ≤600 µmol/L were 41%, 100%, and 100% in the pegvaliase group at Years 1, 2, and 3, respectively, compared with 55%, 58%, and 38% in the sapropterin + MNT group and 5%, 16%, and 0% in the MNT group. The estimated proportions of participants achieving more stringent blood Phe targets of ≤360 µmol/L and ≤120 µmol/L were also higher in the pegvaliase group than in the other groups at Years 2 and 3. Overall, our results indicate that, compared with standard therapy, pegvaliase induces a substantial, progressive, and sustained decrease in blood Phe levels - to a much greater extent than sapropterin + MNT or MNT alone - which is expected to improve long-term outcomes in patients with phenylketonuria.

Tetrahydrobiopterin inhibitor-based antioxidant metabolic strategy for enhanced cancer ferroptosis-immunotherapy.

The induction of immunogenic ferroptosis in cancer cell is limited by the complex and delicate antioxidant system in the organism. Synergistic induction of oxidative damage and inhibition of the defensive redox system in tumor cells is critical to promote lethal accumulation of lipid peroxides and activate immunogenic death (ICD). To address this challenge, we present a multifunctional and dual-responsive layered double hydroxide (LDH) nanosheet to enhance immunogenic ferroptosis. The MTX-LDH@MnO2 nanoplatform is constructed by intercalating methotrexate (MTX) into LDH interlayers and electrostatically absorbing biomineralized ovalbumin (OVA)-MnO2 onto the LDH surface. Specifically, the released Mn2+ from the incorporated MnO2 triggers a Fenton-like reaction, leading to reactive oxygen species (ROS) accumulation, while the depletion of reduced glutathione (GSH) further intensifies oxidative stress, resulting in the induction of ferroptosis. MTX is released in response to the acidic environment of tumor cells and inhibits the regeneration of tetrahydrobiopterin (BH4), modulating the GTP cyclic hydrolase 1 (GCH1)/BH4 axis. MTX disrupts the antioxidant metabolic activity regulated by GCH1/BH4 axis and inhibits ROS consumption, further boosting the ferroptosis effect, which promoted the release of damage-associated molecular patterns (DAMPs) and triggered ICD in the tumor. This activation subsequently leads to significant antitumor immune reactions, including DCs maturation, infiltration of CD4+/CD8+ T cells and cytokines release. The redox-controllable nanoplatform demonstrates promising anticancer efficacy in a mouse breast model providing a novel strategy for cancer immunotherapy.

Fenilcetonuria de diagnóstico precoz: Bases fisiopatológicas del daño neuronal y opciones terapéuticas / Early diagnosis of phenylketonuria. Physiopathology of the neuronal damage and therapeutic options

La fenilcetonuria, también conocida como PKU, es el error congénito más frecuente del metabolismo de los aminoácidos. La forma grave o PKU clásica no tratada, causa una discapacidad intelectual, aunque los programas de detección en el período neonatal, el diagnóstico y el tratamiento evitan la aparición de los síntomas. A pesar de un diagnóstico y tratamiento temprano hemos observado cierta neurotoxicidad en los pacientes con PKU tratados. Analizamos los demás factores implicados, aparte de la toxicidad por las elevadas concentraciones cerebrales de fenilalanina (Phe), se revisan los defectos de síntesis de neurotransmisores, las alteración de la mielinización cerebral, el efecto de la elevación de Phe en los procesos de transporte y distribución de los aminoácidos neutros con una síntesis anómala de proteínas cerebrales, la deficiencia plasmática y cerebral de tirosina, la neurotoxicidad de los metabolitos de Phe, el defecto de la biosíntesis del colesterol o el aumento del estrés oxidativo. Las alteraciones de la sustancia blanca en los pacientes con PKU tienen un papel importante en las manifestaciones neurológicas. El tratamiento de la PKU es para toda la vida y se basa en la reducción del aporte de alimentos que contienen Phe combinado con la administración de una fórmula especial, o en el tratamiento con tetrahidrobiopterina (BH4). Se analizan nuevas opciones terapéuticas.

Phenylketonuria, also known as PKU, is the most frequent congenital inborn error of metabolism. The severe form or classic PKU untreated causes intellectual disability, although with the early detection programs in the neonatal period, diagnosis and treatment prevent the appearance of the symptoms. Despite early diagnosis and treatment we have observed some neurotoxicity in treated PKU patients. We analyzed the factors involved apart from the toxicity due to the high cerebral concentrations of phenylalanine (Phe), the defects of synthesis of neurotransmitters, the alteration of cerebral myelination, the effect of the elevation of Phe in the processes of transport and distribution of neutral amino acids with an abnormal synthesis of brain proteins, plasma and cerebral tyrosine deficiency, the neurotoxicity of Phe metabolites, the defect of cholesterol biosynthesis or the increase of oxidative stress. White matter alterations in early treated PKU patients have an important role in neurological manifestations. The treatment of PKU is for life and is based on the reduction of foods containing Phe combined with the administration of a special formula or tetrahydrobiopterin (BH4) treatment. New therapeutic options will be analyzed.

Combining Human and Rodent Genetics to Identify New Analgesics / 神经科学通报·英文版

Most attempts at rational development of new analgesics have failed, in part because chronic pain involves multiple processes that remain poorly understood. To improve translational success, one strategy is to select novel targets for which there is proof of clinical relevance, either genetically through heritable traits, or pharmacologically. Such an approach by definition yields targets with high clinical validity. The biology of these targets can be elucidated in animal models before returning to the patients with a refined therapeutic. For optimal treatment, having biomarkers of drug action available is also a plus. Here we describe a case study in rational drug design: the use of controlled inhibition of peripheral tetrahydrobiopterin (BH4) synthesis to reduce abnormal chronic pain states without altering nociceptive-protective pain. Initially identified in a population of patients with low back pain, the association between BH4 production and chronic pain has been confirmed in more than 12 independent cohorts, through a common haplotype (present in 25% of Caucasians) of the rate-limiting enzyme for BH4 synthesis, GTP cyclohydrolase 1 (GCH1). Genetic tools in mice have demonstrated that both injured sensory neurons and activated macrophages engage increased BH4 synthesis to cause chronic pain. GCH1 is an obligate enzyme for de novo BH4 production. Therefore, inhibiting GCH1 activity eliminates all BH4 production, affecting the synthesis of multiple neurotransmitters and signaling molecules and interfering with physiological function. In contrast, targeting the last enzyme of the BH4 synthesis pathway, sepiapterin reductase (SPR), allows reduction of pathological BH4 production without completely blocking physiological BH4 synthesis. Systemic SPR inhibition in mice has not revealed any safety concerns to date, and available genetic and pharmacologic data suggest similar responses in humans. Finally, because it is present in vivo only when SPR is inhibited, sepiapterin serves as a reliable biomarker of target engagement, allowing potential quantification of drug efficacy. The emerging development of therapeutics that target BH4 synthesis to treat chronic pain illustrates the power of combining human and mouse genetics: human genetic studies for clinical selection of relevant targets, coupled with causality studies in mice, allowing the rational engineering of new analgesics.

Niveles de neopterina y síndrome de respuesta inflamatoria sistémica en pacientes críticos pediátricos / Neopterin levels and systemic inflammatory response syndrome in pediatric critically ill patients

Introducción: La neopterina y biopterina, subproductos de reacciones redox, son cofactores en la producción de óxido nítrico. Hipótesis: La neopterina y biopterina plasmáticas sufren evolución diferente durante los primeros días de una enfermedad crítica en pediatría. Métodos: Estudio prospectivo observacional monocéntrico en pacientes de 7 días-14 años ingresados en UCIP con criterios de SRIS. Se recogieron, al ingreso y a las 24 h, los niveles de neopterina y biopterina, otros reactantes de fase aguda y datos clínicos. Resultados: Se analizó a 28 pacientes, el 78,9% varones, de 5,04 años (RIQ 1,47-10,26), con PRISM II 2,0% (RIQ 1,1-5,0), ventilación mecánica (VM) en 90% (36,8% >24 h), duración de VM de 6,0 h (RIQ 3,7-102,0), ingreso en UCIP de 5,0 días (RIQ 2,7-18,7), media de VIS máximo de 0 (RIQ 0-14). La neopterina inicial fue de 2,3 ± 1,2 nmol/l y a las 24 h de 2,3 ± 1,4 nmol/l. La biopterina basal fue 1,3 ± 0,5 nmol/l y a las 24h 1,4 ± 0,4 nmol/l. La neopterina fue significativamente mayor en estancia > 6 días (p = 0,02), VM > 24h (p = 0,023) y con complicaciones (p = 0,05). La neopterina se correlaciona de forma directa con la duración de VM (rho = 0,6; p = 0,011), la estancia en UCIP (rho = 0,75; p < 0,0001) y el VIS (rho = 0,73; p = 0,001). Adicionalmente, la biopterina se correlaciona directamente con el PRISM (rho = 0,61; p = 0,008) y la cifra de leucocitos (rho = 0,88; p = 0,002). Discusión: Existe un ascenso de neopterina con mayor estancia, mayor VIS, VM más duradera y aparición de complicaciones, lo que refleja una activación del sistema inmune celular en los más graves (AU)

Introduction: Neopterin and biopterin are sub-products of redox reactions, which act as cofactors of enzymes responsible for nitric oxide production. The hypothesis is presented that plasma neopterin and biopterin evolve differently during the first days in a critically ill child. Methods: A single-centre prospective observational study was conducted on patients 7 days to 14 years admitted to our Paediatric Intensive Care Unit (PICU) and that met Systemic inflammatory response syndrome (SIRS) criteria. Neopterin and biopterin levels, as well as other acute phase reactants, were collected at admission and at 24 h. Results: A total of 28 patients were included, of which 78.9% were male, The median age was 5.04 years (interquartile range [IQR] 1.47-10.26), and PRISM II 2.0% (IQR 1.1-5.0). Mechanical ventilation (MV) was used in 90% of patients, with a median duration of 6.0 hrs (IQR 3.7-102.0). The median length of stay in PICU was 5.0 days (IQR 2.7-18.7), maximum VIS mean of 0 (IQR 0-14). Baseline neopterin level was 2.3±1.2 nmol/l and at 24 h it was 2.3±1.4 nmol/l. Baseline biopterin was 1.3±0.5 nmol/l and 1.4±0.4 nmol/l at 24 h. Neopterin levels were significantly higher in patients with PICU length of stay > 6 days (P=.02), patients who needed MV >24 h (P=.023), and those who developed complications (P=.05). Neopterin correlates directly and is statistically significant with the duration of MV (rho=.6, P=.011), PICU length of stay (rho=.75, P<.0001), and VIS (rho=.73, P=.001). Additionally, biopterin directly correlates with the PRISM (rho=.61, P=.008). Discussion: There is a higher neopterin level when there is a longer PICU stay, higher VIS score, longer time on MV, and occurrence of complications, indicating the involvement of an activation of the cellular immune system (AU)

Tetrahydrobiopterin Protects against Radiation-induced Growth Inhibition in H9c2 Cardiomyocytes / 中华医学杂志(英文版)

<p><b>BACKGROUND</b>Tetrahydrobiopterin (BH4) is an essential cofactor of nitric oxide synthases (NOSs) for the synthesis of nitric oxide (NO). BH4 therapy can reverse the disease-related redox disequilibrium observed with BH4 deficiency. However, whether BH4 exerts a protective effect against radiation-induced damage to cardiomyocytes remains unknown.</p><p><b>METHODS</b>Clonogenic assays were performed to determine the effects of X-ray on H9c2 cells with or without BH4 treatment. The contents of lactate dehydrogenase (LDH), superoxide dismutase (SOD), and malondialdehyde (MDA) in H9c2 cells were measured to investigate oxidative stress levels. The cell cycle undergoing radiation with or without BH4 treatment was detected using flow cytometry. The expression levels of proteins in the phosphatidylinositol 3 kinase (PI3K)/protein kinase B (AKT)/P53 signaling pathway, inducible NOS (iNOS), and endothelial NOS (eNOS) were examined using Western blotting.</p><p><b>RESULTS</b>X-ray radiation significantly inhibited the growth of H9c2 cells in a dose-dependent manner, whereas BH4 treatment significantly reduced the X-ray radiation-induced growth inhibition (control group vs. X-ray groups, respectively, P< 0.01). X-ray radiation induced LDH release, apoptosis, and G0/G1 peak accumulation, significantly increasing the level of MDA and the production of NO, and decreased the level of SOD (control group vs. X-ray groups, respectively, P < 0.05 or P < 0.01). By contrast, BH4 treatment can significantly reverse these processes (BH4 treatment groups vs. X-ray groups, P < 0.05 or P < 0.01). BH4 reversed the X-ray radiation-induced expression alterations of apoptosis-related molecules, including B-cell lymphoma-2 (Bcl-2), Bcl-2 associated X protein, and caspase-3, and molecules of the PI3K/Akt/P53 signaling pathway. BH4 enhanced the production of NO in 2 Gy and 4 Gy radiated groups by upregulating eNOS protein expression and downregulating iNOS protein expression.</p><p><b>CONCLUSIONS</b>BH4 treatment can protect against X-ray-induced cardiomyocyte injury, possibly by recoupling eNOS rather than iNOS. BH4 treatment also decreased oxidative stress in radiated H9c2 cells.</p>

Relationship between Tetrahydrobiopterin and Portal Hypertension in Patients with Chronic Liver Disease

Tetrahydrobiopterin (BH4) is an essential cofactor in NO synthesis by endothelial nitric oxide synthase (eNOS) enzymes. It has been previously suggested that reduced intrahepatic BH4 results in a decrease in intrahepatic NO and contributes to increased hepatic vascular resistance and portal pressure in animal models of cirrhosis. The main aim of the present study was to evaluate the relationship between BH4 and portal hypertension (PHT). One hundred ninety-three consecutive patients with chronic liver disease were included in the study. Liver biopsy, measurement of BH4 and hepatic venous pressure gradient (HVPG) were performed. Hepatic fibrosis was classified using the Laennec fibrosis scoring system. BH4 levels were determined in homogenized liver tissues of patients using a high performance liquid chromatography (HPLC) system. Statistical analysis was performed to evaluate the relationship between BH4 and HVPG, grade of hepatic fibrosis, clinical stage of cirrhosis, Child-Pugh class. A positive relationship between HVPG and hepatic fibrosis grade, clinical stage of cirrhosis and Child-Pugh class was observed. However, the BH4 level showed no significant correlation with HVPG or clinical features of cirrhosis. BH4 concentration in liver tissue has little relation to the severity of portal hypertension in patients with chronic liver disease.

Sapropterina no tratamento da hiperfenilalaninemia com deficiência de BH4 / Sapropterin in the treatment of hyperphenylalaninemia with BH4 deficiency

Fenilcetonúria (FNC) é uma doença genética, autossômica recessiva, causada por mutações no gene localizado no cromossomo 12q22-q24, o qual codifica a enzima hepática fenilalanina-hidroxilase (FAH). Sua ausência ou deficiência impede a conversão hepática de fenilalanina (FAL), um dos aminoácidos essenciais e mais comuns do organismo, em tirosina, causando acúmulo de FAL no sangue e em outros tecidos. O aumento de fenilalanina no sangue em 98% dos casos é devido a mutações na codificação genética para a enzima fenilalanina-hidroxilase, enquanto 2% são devidos a defeitos no metabolismo da tetrahidrobiopterina (BH4), que é um cofator essencial para a atividade da fenilalanina-hidroxilase. A principal característica da doença não tratada é retardo mental, com piora durante a fase de desenvolvimento do cérebro e que se estabilizaria com a maturação completa deste órgão. O quociente de inteligência (QI) mede a extensão deste retardo e varia de leve a gravemente prejudicado. A HFA não tratada resulta em progressivo retardo mental, com QI < 50. A piora está relacionada aos níveis sanguíneos de FAL. Caso a doença seja diagnosticada logo após o nascimento e o paciente for mantido em dieta restrita em FAL, os sintomas podem ser prevenidos e a criança pode ter desenvolvimento e expectativa de vidas normais. Nesse sentido, o rastreamento no Brasil é realizado pelo teste do pezinho, cuja necessidade consta no Estatuto da Criança e do Adolescente, e está regulamentado pela portaria que estabeleceu o Programa Nacional de Triagem Neonatal para diagnóstico precoce de fenilcetonúria. No Protocolo Clínico e Diretrizes Terapêuticas do Ministério da Saúde para Fenilcetonúria foram incluídos os pacientes com níveis de FAL≥ 10mg/dl (600 µmol/l) em dieta normal 1,14 e todos os que apresentarem níveis de FAL entre 8 e 10 mg/dl persistentes (pelo menos em 3 dosagens consecutivas, semanais, em dieta normal). Dieta restrita em FAL é eficaz em reduzir os níveis sanguíneos de FAL e melhorar o QI e o prognóstico neuropsicológico dos pacientes com HFA. O tratamento deve ser iniciado tão cedo quanto possível, idealmente até o 10º dia de vida. O aleitamento materno deve ser encorajado e associado ao uso de fórmula isenta de FAL. Os níveis de FAL devem ser diminuídos rapidamente. Além da dieta, o tratamento clínico recomendado pelo PCDT do Ministério da Saúde para o controle metabólico dos pacientes é a utilização de fórmulas alimentares especiais. As fórmulas são medicamentos que devem conter as quantidades recomendadas de vitaminas e sais minerais adequadas à faixa etária do paciente. Sapropterina é uma forma sintética oral de BH4 (BH4 supplementation sapropterin dihydrochloride). Há relatos de casos de pessoas com FCN que apresentaram boa resposta após o uso de doses farmacológicas de BH4, com redução dos níveis de FAL. Todos tinham mutação no gene FAH. Pessoas com resposta ao BH4 são identificadas inicialmente por um teste com teste de tolerância a BH4. Resposta positiva é considerada como uma redução de 30% ou mais na concentração de FAL, 24 horas após a administração de BH4. A variação na intensidade da resposta é independente da gravidade da FCN, da dose de BH4 empregada no teste de tolerância, duração do teste e genótipo. Pessoas com mesmo genótipo mostram respostas diferentes. Há poucos resultados de uso de longa duração de BH4 que mostram que pode haver relaxamento da restrição dietética sem efeitos adversos. A maioria dos indivíduos dos estudos apresentava doença moderada ou leve. A Secretaria-Executiva da CONITEC realizou busca na literatura por artigos científicos, com o objetivo de localizar a melhor evidência científica disponível sobre o tema. A CONITEC em sua 14ª reunião ordinária realizada no dia 04 de abril de 2013, recomendou a não incorporação no SUS da sapropterina para o tratamento de hiperfenilalaninemia (HFA) com deficiência em tetrahidrobiopterina (BH4). Considerou-se que os estudos, a maioria de baixa qualidade metodológica, não conseguiram comprovar a superioridade do tratamento, principalmente no que diz respeito à ausência de dados específicos para o subgrupo com deficiência de BH4. Os membros da CONITEC presentes na 15ª reunião do plenário do dia 09/05/2013 deliberaram, por unanimidade, por não recomendar a sapropterina para o tratamento de hiperfenilalaninemia (HFA) com deficiência em tetrahidrobiopterina (BH4). A Portaria nº 34, de 6 de agosto de 2013 - Torna pública a decisão de não incorporar o medicamento sapropterina no tratamento da hiperfenilalaninemia com deficiência de BH4 no Sistema Único de Saúde (SUS).

Effect of tetrahydrobiopterin and exercise training on endothelium-dependent vasorelaxation in SHR

We examined whether the improvement of impaired NO-dependent vasorelaxation by exercise training could be mediated through a BH4-dependent mechanism. Male spontaneously hypertensive rats (SHR, n = 20) and Wistar-Kyoto rats (WKY, n = 20) were trained (Tr) for 9 weeks on a treadmill and compared to age-matched sedentary animals (Sed). Endothelium-dependent vasorelaxation (EDV) was assessed with acetylcholine by measuring isometric tension in rings of femoral artery precontracted with 10−5 M phenylephrine. EDV was impaired in SHR-Sed as compared to WKY-Sed (p = 0.02). Training alone improved EDV in both WKY (p = 0.01) and SHR (p = 0.0001). Moreover, EDV was not different in trained SHR than in trained WKY (p = 0.934). Pretreatment of rings with L-NAME (50 ìM) cancelled the difference in ACh-induced relaxation between all groups, suggesting that NO pathway is involved in these differences. The presence of 10−5 M BH4 in the organ bath significantly improved EDV for sedentary SHR (p = 0.030) but not WKY group (p = 0.815). Exercise training turned the beneficial effect of BH4 on SHR to impairment of ACh-induced vasorelaxation in both SHR-Tr (p = 0.01) and WKY-Tr groups (p = 0.04). These results suggest that beneficial effect of exercise training on endothelial function is due partly to a BH4-dependent mechanism in established hypertension (AU)

Differential Effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine on Motor Behavior and Dopamine Levels at Brain Regions in Three Different Mouse Strains

Developing an animal model for a specific disease is very important in the understanding of the underlying mechanism of the disease and allows testing of newly developed new drugs before human application. However, which of the plethora of experimental animal species to use in model development can be perplexing. Administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is a very well known method to induce the symptoms of Parkinson's disease in mice. But, there is very limited information about the different sensitivities to MPTP among mouse strains. Here, we tested three different mouse strains (C57BL/6, Balb-C, and ICR) as a Parkinsonian model by repeated MPTP injections. In addition to behavioral analysis, endogenous levels of dopamine and tetrahydrobiopterin in mice brain regions, such as striatum, substantia nigra, and hippocampus were directly quantified by liquid chromatography-tandem mass spectrometry. Repeated administrations of MPTP significantly affected the moving distances and rearing frequencies in all three mouse strains. The endogenous dopamine concentrations and expression levels of tyrosine hydroxylase were significantly decreased after the repeated injections, but tetrahydrobiopterin did not change in analyzed brain regions. However, susceptibilities of the mice to MPTP were differed based on the degree of behavioral change, dopamine concentration in brain regions, and expression levels of tyrosine hydroxylase, with C57BL/6 and Balb-C mice being more sensitive to the dopaminergic neuronal toxicity of MPTP than ICR mice.

A Pilot Study of Fluorodeoxyglucose Positron Emission Tomography Findings in Patients with Phenylketonuria before and during Sapropterin Supplementation

BACKGROUND AND PURPOSE: PET scanning with fluorodeoxyglucose (FDG-PET) is a non-invasive method that measures regional glucose metabolic rate. Phenylalanine (Phe) and its metabolites appear to impair several aspects of brain energy metabolism. 1) To evaluate brain glucose metabolism with FDG-PET imaging in phenylketonuria (PKU) patients before and 4 months after sapropterin therapy; 2) to evaluate neurodevelopmental changes, blood Phe levels and dietary Phe tolerance before and after sapropterin therapy; 3) to generate pilot data to assess the feasibility of evaluating brain glucose metabolism with FDG-PET imaging and to explore potential trends resulting from the administration of sapropterin therapy. METHODS: We enrolled 5 subjects, ranged in age from 22 years to 51 years, with PKU. Subjects underwent FDG-PET brain imaging, blood tests for Phe and tyrosine levels, and neurocognitive evaluations before and 4 months after sapropterin therapy (20 mg/kg/day). All subjects' Phe and tyrosine levels were monitored once a week during the study. Subjects kept 3 day diet records that allow calculation of Phe intake. RESULTS: None of the subjects responded to sapropterin therapy based on 30% decrease in blood Phe level. The data show that glucose metabolism appeared depressed in the cerebellum and left parietal cortex while it was increased in the frontal and anterior cingulate cortices in all five subjects. In response to sapropterin therapy, relative glucose metabolism showed significant increases in left Broca's and right superior lateral temporal cortices. Interestingly, there was corresponding enhanced performance in a phonemic fluency test performed during pre- and postneurocognitive evaluation. CONCLUSIONS: Further studies with a larger sample size are needed to confirm the above changes in both sapropterin non-responsive and responsive PKU patients.

Effect of low density lipoprotein oxidizing in hyperlipidemia rats after treating with tetrahydrobiopterin / 中国应用生理学杂志

<p><b>OBJECTIVE</b>To explore the oxidative modification effect and its mechanism of low density lipoprotein (LDL) in hyperlipidemia (HL) rats after treating with tetrahydrobiopterin (BH4).</p><p><b>METHODS</b>Fifty four 8-week-old male Wistar rats were used, these 54 rats were randomly divided into control group, high fat diet group (HL group), high fat diet and injected BH4 group (HL + BH4 group), and 18 in each group. The BH4 levels of blood fats and blood serum and its metabolites, the aortic reactive oxygen species, the end product malondialdehyde (MDA) and the LDL oxidation level were all determined by killing 6 experimental rats in each group at the first 8, 16, and 24 weeks of age respectively.</p><p><b>RESULTS</b>Treating with BH4 after 8 and 16 weeks, there was no significant difference in serum lipids among three groups (P > 0. 05); but ROS and MDA decreased significantly (P < 0.01); compared with control and HL groups, the BH4 level of HL + BH4 group increased a lot (P < 0.01); compared with control group, the BH4 content reduced obviously in aortic homogenate of HL group (P < 0.01), but the total petrin levels (TB = BH4 + BH2 + B) had no significant difference (P > 0.05); the serum TBARS formation increased gradually with the increase of week-ages, but compared with HL group, the serum TBARS formation of HL + BH4 group reduced significantly (P < 0. 01).</p><p><b>CONCLUSION</b>Treating with BH4 can reduced the LDL oxidation, the mechanism may be related to the correct of NOS uncoupling, the reduce of ROS generation and the decrease of LDL lipid peroxidation.</p>

Responsividade à tetrahidrobiopterina em pacientes com deficiência de fenilalanina hidroxilase / Tetrahydrobiopterin responsiveness of patients with phenylalanine hydroxylase deficiency

OBJETIVO: Identificar indivíduos responsivos à tetrahibrobiopterina (BH4) em uma amostra de pacientes brasileiros com hiperfenilalaninemia por deficiência de fenilalanina-hidroxilase (HPA-PAH). MÉTODOS: Estudo intervencional, amostragem por conveniência. Para serem incluídos no estudo, os pacientes deveriam: possuir diagnóstico bioquímico de HPA-PAH; ter idade > 7 anos; estar em tratamento dietético; e apresentar níveis de fenilalanina (Phe) > 6 mg/dL em todas as medidas realizadas no ano anterior à inclusão no estudo. Os níveis de Phe foram determinados por meio de espectrometria de massas in tandem no dia anterior (dia 1) e nos pontos de hora 0, 4 e 8 h (dia 2) e 24 h (dia 3) após ingestão de BH4. Os critérios utilizados para definir responsividade ao BH4 foram: critério 1-redução > 30 por cento de Phe após 8 h da administração de BH4; e critério 2-redução > 30 por cento de Phe após 24 h da administração. RESULTADOS: Dezoito pacientes foram incluídos no estudo (mediana de idade = 14 anos, sexo masculino = 12). Cinco pacientes foram responsivos ao BH4, sendo três (forma clássica: um; forma leve: dois) de acordo com ambos os critérios, e dois (forma clássica: um; forma não definida: um) de acordo com o critério 2. Os níveis de Phe plasmáticos do dia 1 não demonstraram variação nos pontos de hora (p = 0,523). Entretanto, quando comparamos os níveis de Phe nos pontos de hora dos dias 1 e 2, encontramos uma variação significativa (p = 0,006). A análise da associação genótipo-fenótipo confirmou o caráter multifatorial da responsividade ao BH4. CONCLUSÃO: Os nossos achados estão de acordo com a literatura e indicam que um número relevante de pacientes brasileiros com HPA-PAH é responsivo à BH4.

OBJECTIVE: To identify patients responsive to tetrahydrobiopterin (BH4) in a sample of Brazilians with hyperphenylalaninemia due to phenylalanine hydroxylase deficiency (HPA-PAH). METHODS: Interventional study, convenience sampling. The inclusion criteria were: diagnosis of HPA-PAH; age > 7 years; phenylalanine-restricted diet and phenylalanine (Phe) levels > 6 mg/dL in all blood tests 1 year before inclusion. Blood samples were obtained the day before (day 1) and at 0, 4, 8 (day 2) and 24 h (day 3) after BH4 intake. Phe levels were measured using tandem mass spectrometry. The criteria used to define responsiveness to BH4 were: criterion 1- Phe reduction > 30 percent 8 h after BH4 administration; criterion 2 - Phe reduction > 30 percent 24 h after BH4 administration. RESULTS: Eighteen patients were enrolled (median age, 14 years; 12 boys). Five patients were responsive to BH4, 3 according to both criteria (one classical PKU, two mild PKU); and two according to criterion 2 (one classical PKU; one indefinite PKU type). There were no differences between Phe serum levels on day 1 and at the other time points (p = 0.523). However, Phe levels on days 1 and 2 were significantly different (p = 0.006). The analysis of the phenotype-genotype association confirmed its multifactorial character. CONCLUSION: A relevant number of Brazilian patients with HPA-PAH are responsive to BH4, in agreement with other studies in the literature.

Lipid peroxidation and biomechanical properties of artery in hyperlipemia rats after treating with tetrahydrobiopterin / 中国应用生理学杂志

<p><b>OBJECTIVE</b>To explore the effect of the level of lipid peroxidation and biomechanical properties after chronic treating with tetrahydrobiopterin (BH4) in thoracic aorta of hyperlipemia (HL) rats.</p><p><b>METHODS</b>HL rats were given BH4 chronically. The opening angle in the zero-stress state and the relationship between pressure and diameter (P-D) of mesenteric artery were measured by computer image 8, 16, and 24 week-old respectively.</p><p><b>RESULTS</b>Treating with BH4 chronically from 8 week-old in HL rats, there was a significant increase in the zero-stress state of opening angle of thoracic aorta. The P-D curve of mesenteric artery moved upward.</p><p><b>CONCLUSION</b>Treating with BH4 prevented the structure and function of artery from abnormal changing, and attenuated lipid peroxidation in HL rats.</p>

Tetrahydrobiopterin Inhibits PDGF-stimulated Migration and Proliferation in Rat Aortic Smooth Muscle Cells via the Nitric Oxide Synthase-independent Pathway

Tetrahydrobiopterin (BH4), an essential cofactor for nitric oxide synthase (NOS) activity, is known to play important roles in modulating both NO and superoxide production during vascular diseases such as atherosclerosis. However, the role of BH4 in functions of vascular smooth muscle cells is not fully known. In this study, we tested the effects of BH4 and dihydrobiopterin (BH2), a BH4 precursor, on migration and proliferation in response to platelet-derived growth factor-BB (PDGF-BB) in rat aortic smooth muscle cells (RASMCs). Cell migration and proliferation were measured using a Boyden chamber and a 5-bromo-2'-deoxyuridine incorporation assay, respectively, and these results were confirmed with an ex vivo aortic sprout assay. Cell viability was examined by 2,3-bis [2-methoxy-4-nitro-5-sulfophenyl]-2H-tetrazolium-5-carboxanilide assays. BH4 and BH2 decreased PDGF-BB-induced cell migration and proliferation in a dose-dependent manner. The inhibition of cell migration and proliferation by BH4 and BH2 was not affected by pretreatment with N G-nitro-L-arginine methyl ester, a NOS inhibitor. Moreover, the sprout outgrowth formation of aortic rings induced by PDGF-BB was inhibited by BH4 and BH2. Cell viability was not inhibited by BH4 and BH2 treatment. The present results suggest that BH4 and BH2 may inhibit PDGF-stimulated RASMC migration and proliferation via the NOS-independent pathway. Therefore, BH4 and its derivative could be useful for the development of a candidate molecule with an NO-independent anti-atherosclerotic function.