Antiretroviral treatment leading to secondary trimethylaminuria: Genetic associations and successful management with riboflavin.

WHAT IS KNOWN AND OBJECTIVE: Trimethylaminuria is a metabolic disorder characterized by excessive excretion of trimethylamine in body fluids following FMO3 gene mutations. Secondary forms of the disease may be due to consumption of trimethylamine precursor-rich foods or metabolism of some xenobiotics. CASE SUMMARY: A HIV patient developed secondary trimethylaminuria following antiretroviral treatment. Riboflavin supplementation ameliorated his phenotype. 1 H-NMR confirmed increased urine level of TMA. Several genes involved in choline catabolism harboured missense mutations. Riboflavin supplement improved enzymatic activity of mutated enzymes promoting TMA clearance. WHAT IS NEW AND CONCLUSION: Antiretrovirals may increase the concentration of TMA precursors. The present study reports antiretroviral treatment as risk factor for such secondary trimethylaminuria. Riboflavin is an effective treatment.

Clinical Model for Predicting Warfarin Sensitivity.

Warfarin is a widely used anticoagulant with a narrow therapeutic index and large interpatient variability in the therapeutic dose. Complications from inappropriate warfarin dosing are one of the most common reasons for emergency room visits. Approximately one third of warfarin dose variability results from common genetic variants. Therefore, it is very necessary to recognize warfarin sensitivity in individuals caused by genetic variants. Based on combined polymorphisms in CYP2C9 and VKORC1, we established a clinical classification for warfarin sensitivity. In the International Warfarin Pharmacogenetic Consortium (IWPC) with 5542 patients, we found that 95.1% of the Black in the IWPC cohort were normal warfarin responders, while 74.8% of the Asian were warfarin sensitive (P < 0.001). Moreover, we created a clinical algorithm to predict warfarin sensitivity in individual patients using logistic regression. Compared to a fixed-dose approach, the clinical algorithm provided significantly better performance. In addition, we validated the derived clinical algorithm using the external Easton cohort with 106 chronic warfarin users. The AUC was 0.836 vs. 0.867 for the Easton cohort and the IWPC cohort, respectively. With the use of this algorithm, it is very likely to facilitate patient care regarding warfarin therapy, thereby improving clinical outcomes.

Evaluate the effects of long-term valproic acid treatment on metabolic profiles in newly diagnosed or untreated female epileptic patients: A prospective study.

PURPOSE: Excessive weight gain associated with sodium valproate (VPA) may predispose patients with epilepsy to other health problems such as insulin resistance. We prospectively evaluated the long-term impact of VPA monotherapy compared with lamotrigine (LTG) monotherapy on anthropometric and metabolic parameters in women with epilepsy. Our primary objective is to understand the underlying mechanism responsible for VPA-induced obesity. METHODS: Sixty-six female patients with newly diagnosed or untreated epilepsy were included in the study. Thirty-four patients with VPA and thirty-two patients with LTG were treated for a period of one year in our center. Anthropometric and clinical data were collected at 5 time points: before, at 6th week, 3rd month, 6th month, 9th month and 12th month (last visit). Biochemical and hormonal data were collected 2 time points: before and last visit. RESULTS: Subjects in the VPA group had significantly higher body weight than LTG-treated subjects (64.88±3.25 vs. 58.28±2.43, P<0.001). HOMA-IR level was significantly increased (2.76 vs. 1.35, P<0.05), and adiponectin levels were significantly lower in the VPA group (3.46 vs. 6.22, P<0.05). Triglycerides levels were significantly increased (118 vs. 96, P<0.05), and HDL-C levels were significantly lower in the VPA group. Both the VPA-treated group and the LTG-treated group showed no significant difference in term of total cholesterol, LDL-C, fasting blood glucose and serum leptin levels. CONCLUSIONS: Based on the findings of this study, we proposed that VPA induced hypoadiponectinemia which correlates significantly with insulin resistance. These two factors may be responsible for weight gain, possible by stimulating appetite. Valproic acid appears to be use cautionally in obese females with epilepsy.

Prenatal SSRI alters the hormonal and behavioral responses to stress in female mice: Possible role for glucocorticoid resistance.

Life time prevalence of major depression disorder (MDD) is higher in women compared to men especially during the period surrounding childbirth. Women suffering from MDD during pregnancy use antidepressant medications, particularly Selective Serotonin Reuptake Inhibitors (SSRI). These drugs readily cross the placental barrier and impact the developing fetal brain. The present study assessed the effects of prenatal exposure to fluoxetine (FLX), an SSRI antidepressant drug, on corticosterone and behavioral responses to stress in female mice. In young females, prenatal FLX significantly elevated corticosterone response to continuous stress. In adults, prenatal FLX augmented corticosterone response to acute stress and suppressed the response to continuous stress. Additionally, prenatal FLX significantly augmented stress-induced increase in locomotion and reduced anxiety- and depressive-like behaviors in adult, but not young mice. The dexamethasone suppression test revealed that prenatal FLX induced a state of glucocorticoid resistance in adult females, indicating that the negative feedback control of the hypothalamic-pituitary-adrenal axis response to stress was disrupted. These findings provide the first indication of altered hormonal and behavioral responses to continuous stress and suggest a role for the development of glucocorticoid resistance in these effects. According to these findings, prenatal environment may have implications for stress sensitivity and responsiveness to life challenges. Furthermore, this study may assist in understanding the limitations and precautions that should be taken in the use of SSRIs during pregnancy.

Newborn hypocarnitinemia due to long-term transplacental pivalic acid passage.

Infants often develop hypocarnitinemia and resultant hypoglycemia during long-term treatment with antibiotics that contain pivalic acid, but it is unknown whether maternal treatment with such agents during pregnancy induces hypocarnitinemia in fetuses or neonates. A woman at week 28 of pregnancy was prescribed cefcapene pivoxil for 84 consecutive days for treatment and prophylaxis of pyelonephritis. Using tandem mass spectrometry, both the mother and newborn were found to have hypocarnitinemia soon after delivery. It was concluded that the baby suffered from secondary hypocarnitinemia due to long-term prenatal treatment with antibiotics containing pivalic acid. Long-term treatment with antibiotics containing pivalic acid in pregnant women can induce hypocarnitinemia in both the mother and neonate; reported herein is the first case observed in humans.

Cocaine induces a reversible stomatocytosis of red blood cells and increases blood viscosity.

Severe side effects of cocaine consumption are vasoocclusive events such as myocardial infarction and stroke. We have hypothesized that cocaine could affect red blood cells (RBCs) and alter the rheological behaviour of blood. Heparinized blood from healthy volunteers was incubated with a final hematocrit of 45% with increasing cocaine concentrations: 0, 10, 100, 1000, and 10'000 µmol/L plasma. Time dependence of the shape change was tested in phosphate buffered saline containing cocaine. RBCs were fixed in 1% glutaraldehyde for morphological analysis. Blood viscosity was measured with a Couette Viscometer (Contraves LS 30) at 37°C and a shear rate of 69.5 s⁻¹. RBC aggregation was assessed with a Myrenne aggregometer. Cocaine induced a dose-dependent stomatocytic shape transformation of RBCs, which was more pronounced in buffer than in plasma (plasma protein binding of the drug). Stomatocytosis occurs when a drug intercalates preferentially in the inner half of the membrane lipid bilayer. It was a time-dependent process with two components, an almost instant shape change occurring within 1 s, followed by a gradual further shape change during 10 min. Stomatocytosis was reversible by resuspension of the RBCs in cocaine-free buffer. This stomatocytic shape change increased whole blood viscosity at high shear rate from 5.69±0.31 mPa.s to 6.39±0.34 mPa.s for control and 10'000 µmol/L cocaine, respectively (p<0.01). RBC aggregation was not affected by the shape change. These effects occurred at a cocaine concentration, which is several-fold above those measured in vivo. Therefore, it is unlikely that hemorheological factors are involved in vascular events after cocaine consumption.

[L-carnitine treatment and fish odor syndrome: an unwaited adverse effect]. / Traitement par L-carnitine et mauvaise odeur corporelle: un effet secondaire à connaître.

INTRODUCTION: Levocarnitine treatment is usually well tolerated, with essentially dose-dependent diarrhea as the main induced adverse effect. CASE REPORT: We report a case of fish odor syndrome during levocarnitine treatment which resolved after levocarnitine discontinuation. CONCLUSION: This adverse effect seems to be correlated with excedent carnitine intake and might be expressed when the elimination pathway becomes saturated or in a situation of deficiency enzymatic metabolism.

Ganglioside alterations in the central nervous system of rats chronically injected with methylmalonic and propionic acids.

Neurological dysfunction and structural cerebral abnormalities are commonly found in patients with methylmalonic and propionic acidemia. However, the mechanisms underlying the neuropathology of these disorders are poorly understood. We have previously demonstrated that methylmalonic and propionic acids induce a significant reduction of ganglioside N-acetylneuraminic acid in the brain of rats subjected to chronic administration of these metabolites. In the present study, we investigated the in vivo effects of chronic administration of methylmalonic (MMA) and propionic (PA) acids (from the 6th to the 28th day of life) on the distribution and composition of gangliosides in the cerebellum and cerebral cortex of rats. Control rats were treated with the same volumes of saline. It was first verified that MMA and PA treatment did not modify body, cerebellum, or cortical weight, nor the ganglioside concentration in the cerebral cortex of the animals. In contrast, a significant reduction in total ganglioside content in the cerebellum of approximately 20-30% and 50% of control levels occurred in rats injected with MMA and PA, respectively. Moreover, chronic MMA and PA administration did not interfere with the ganglioside pattern in the cerebral cortex, whereas the distribution of individual gangliosides was altered in the cerebellum of MMA- and PA-treated animals. Rats injected with MMA demonstrated a marked decrease in GM1 and GD3, whereas chronic PA treatment provoked a significant reduction of all ganglioside species, with the exception of an increase in GM2. Since gangliosides are closely related to the dendritic surface and other neural membranes, indirectly reflecting synaptogenesis, these ganglioside abnormalities may be associated with the brain damage found in methylmalonic and propionic acidemias.

Metabolic defects caused by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and by HPTP (the tetrahydropyridinyl analog of haloperidol), in rats.

The results of previous studies in the baboon have suggested that HPTP, the tetrahydropyridinyl analog of haloperidol causes a urinary biochemical marker profile similar to those seen in humans suffering from inborn errors of mitochondrial respiration. In order to identify a possible relationship between compromised cellular energy production and neuronal damage we now have compared the urinary profiles of rats treated with the pro-neurotoxin, MPTP as well as with HPTP. Significantly increased urinary excretion of lactic acid and 2-ethylhydracrylic acid in MPTP and HPTP treated rats was observed, indicating that both MPTP and HPTP and/or their respective metabolites cause mitochondrial inhibition in the rat.

Biochemical individuality: the next generation.

This paper provides an historical assessment of the development of the concepts of pharmaco- and ecogenetics, including their relationship to major developments in the areas of pharmacology, industrial hygiene, and cancer research in animal models as well as the assessment of inborn metabolic disorders. How this information may be used to evaluate the range of human genetic diversity and its relationship to differential responses to environmental toxins is also considered. The paper concludes by providing a brief summary of several specific conditions in which human genetics traits affect susceptibility to toxic substances.