Human serum elements' levels and leukemia: A first pilot study from an adult Greek cohort.

BACKGROUND: The present study focuses on the evaluation of potential relationships between trace elements and acute and chronic types of leukemia, via the determination of their levels in human blood serum. METHODS: A total of 199 serum samples from a Greek cohort were examined, including both leukemia cases and controls. Elements' analysis was carried out using inductively coupled plasma mass spectrometry (ICP-MS) and demographic features such as age, gender, smoking habits and area of residence were recorded and statistically treated applying Shapiro-Wilk, Kolmogorov-Smirnov, Mann Whitney and Kruskal Wallis tests (p < 0.05). Spearman correlation and principal component analysis (PCA) were also performed to investigate possible associations. RESULTS: The results demonstrated significantly higher (p < 0.05) trace elements concentrations in cases' serum compared to that of controls excluding Ba, with Cu (median concentration 1295 µg L-1) being the most abundant in cases. Additionally, concentration of toxic Pb and Cd were found at seven and four fold higher concentrations in cases, respectively. Among the trace elements examined, only Rb (164 µg L-1) was detected in higher concentrations in controls. Ba, Cd and Co presented the lowest concentrations (lower than 1 µg L-1). PCA was performed for overall and classified data, indicating a stronger relation among the toxic As, Cd, Ni and Pb in cases than controls, particularly referring to smokers and industrial sites' residents. Hematological parameters and factors such as age and gender did not present any significant outcome or correlation. CONCLUSIONS: The findings from this pilot study suggest a potential relationship between metals and leukemia, especially concerning the toxic ones. Results from the employed source apportionment tools imply that smoking and atmospheric degradation may be positively related with higher metal serum levels in leukemia patients.

25-hydroxyvitamin D in malignant pleural disease: a prospective cohort study.

INTRODUCTION: Growing evidence suggests a role of vitamin D in various cancers but the significance of vitamin D in malignant pleural disease remains unexplored. We sought to investigate the concentration and diagnostic role of 25-hydroxyvitamin D (25(OH)D) in malignant pleural effusions. MATERIALS AND METHODS: Prospective study of consecutive treatment-naïve patients with a new diagnosis of pleural effusion. RESULTS: Seventy-eight patients were studied, 45 of whom had malignant pleural effusions. Concentration of 25(OH)D in pleural fluid was significantly higher than serum in both malignant (15.2 ng/mL (9.7, 25.6) versus 10.2 ng/mL (6.4, 17.7), P < .001) and benign (11.4 ng/mL (8.4, 23.6) versus 7.9 (5.9, 16.1), P < .001) pleural disease. Pleural fluid 25(OH)D was almost significantly higher in exudates compared to transudates (P = .050) but it did not differ significantly between malignant and benign effusions (P = .217) and it was not diagnostic for malignant pleural disease (area under the ROC curve .58, 95% CI .45-.71). CONCLUSIONS: In subjects with unselected pleural effusions, 25(OH)D in pleural fluid was not diagnostic for malignant pleural disease. The novel finding of convincingly and consistently higher 25(OH)D in pleural fluid than serum suggests a role for vitamin D in pleural disease and merits further research.

Gestational diabetes exhibits lack of carnitine deficiency despite relatively low carnitine levels and alterations in ketogenesis.

OBJECTIVE: Previous studies have underlined the importance of the carnitine shuttle system and its dysfunction both in normal pregnancy and in type 1 and 2 diabetes. The objective of this paper was to delineate more systematically the role of the carnitine shuttle system in normal pregnancy and in gestational diabetes. METHODS: A total of 119 women matched for age comprised three groups: 40 normal adult non-pregnant women (NNP), 46 normal pregnant women with uncomplicated pregnancy (NP) and 33 women with gestational diabetes (GDM). The latter group was further subdivided into those being managed either by diet alone (25 women, GDM-D) or by insulin (8 women,GDM-I). The following biochemical parameters were assayed: fasting plasma total, free and acyl-carnitine, FFA and beta-OH-butyrate, together with several essential anthropometric parameters. RESULTS: Women with GDM, in contrast to the control groups, displayed the biochemical features characteristic of insulin resistance: higher body weight, higher BMI, higher skinfold and higher HbAlc levels. No differences on any parameters were found between the two GDM subgroups. Both NP and GDM groups had low levels of total carnitine compared to NNP control group, but surprisingly, the GDM group did not exhibit any further decrease of carnitine levels, as would have been expected by the combination of pregnancy and diabetes. Both groups, despite these low carnitine levels, had no clinical symptoms of carnitine deficiency. Furthermore, the GDM group displayed higher levels of FFA and beta-hydroxybutyrate, which were statistically significant compared to the other two control groups. CONCLUSIONS: The data corroborate the negative effect of normal gestation on the carnitine shuttle system, while they document for the first time that GDM does not further affect the efficiency of the carnitine system. The mild effect of GDMon carnitine status could be explained by the concurrent increased gluconeogenesis, a process which does not affect directly carnitine metabolism.

Mutational spectrum of the succinate semialdehyde dehydrogenase (ALDH5A1) gene and functional analysis of 27 novel disease-causing mutations in patients with SSADH deficiency.

Succinate semialdehyde dehydrogenase (SSADH; ALDH5A1) deficiency, a rare metabolic disorder that disrupts the normal degradation of GABA, gives rise to a highly heterogeneous neurological phenotype ranging from mild to very severe. The nature of the mutation has so far been reported in patients from six families world wide and eight different mutations were described. Here we report the mutational spectrum in 48 additional unrelated families of different geographic origin. We detected 27 novel mutations at the cDNA level, of which 26 could be attributed to changes at the genomic level. Furthermore, six mutations were detected that did not strongly affect SSADH activity when expressed in HEK 293 cells and are considered nonpathogenic allelic variants. Twenty of the mutations were only found in one family. The spectrum of disease-causing mutations from all patients sequenced thus far consists of 25 point mutations, four small insertions, and five small deletions. Seven of these mutations affect splice junctions, seven are nonsense mutations, and 12 are missense mutations. Although there were no mutational hotspots or prevalent mutations responsible for a significant number of cases, 14 out of 37 (38%) of the missense alleles were present in exon 4 or 5. With one exception, the missense mutations we consider to be causative of SSADH deficiency reduced the SSADH activity to less than 5% of the normal activity in our in vitro expression system. This indicates that residual expression is not likely to be an important factor contributing to the large phenotypic differences observed among different families and even among siblings, suggesting that other modifying factors are of great importance in disease pathology.

Late onset ornithine transcarbamylase deficiency: a case report.

Ornithine transcarbamylase deficiency, an X-linked disorder, is the most common inherited urea cycle defect. Previous reports have documented the existence of several different mutations that can, partly at least, explain the phenotypic variability of the disorder. We describe the only male with T343K mutation, which also is present in his mother. We underline the disorientation of the beginning of clinical presentation; the patient became ill when fruits were added to his diet.

Novel disease-causing mutations in the dihydropyrimidine dehydrogenase gene interpreted by analysis of the three-dimensional protein structure.

Dihydropyrimidine dehydrogenase (DPD) deficiency is an autosomal recessive disease characterized by thymine-uraciluria in homozygous deficient patients. Cancer patients with a partial deficiency of DPD are at risk of developing severe life-threatening toxicities after the administration of 5-fluorouracil. Thus, identification of novel disease-causing mutations is of the utmost importance to allow screening of patients at risk. In eight patients presenting with a complete DPD deficiency, a considerable variation in the clinical presentation was noted. Whereas motor retardation was observed in all patients, no patients presented with convulsive disorders. In this group of patients, nine novel mutations were identified including one deletion of two nucleotides [1039-1042delTG] and eight missense mutations. Analysis of the crystal structure of pig DPD suggested that five out of eight amino acid exchanges present in these patients with a complete DPD deficiency, Pro86Leu, Ser201Arg, Ser492Leu, Asp949Val and His978Arg, interfered directly or indirectly with cofactor binding or electron transport. Furthermore, the mutations Ile560Ser and Tyr211Cys most likely affected the structural integrity of the DPD protein. Only the effect of the Ile370Val and a previously identified Cys29Arg mutation could not be readily explained by analysis of the three-dimensional structure of the DPD enzyme, suggesting that at least the latter might be a common polymorphism. Our data demonstrate for the first time the possible consequences of missense mutations in the DPD gene on the function and stability of the DPD enzyme.