Red blood cell glutathione peroxidase activity in female nulligravid and pregnant rats

<p>Abstract</p> <p>Background</p> <p>The alterations of the glutathione peroxidase enzyme complex system occur in physiological conditions such as aging and oxidative stress consequent to strenuous exercise.</p> <p>Methods</p> <p>Authors optimize the spectrophotometric method to measure glutathione peroxidase activity in rat red blood cell membranes.</p> <p>Results</p> <p>The optimization, when applied to age paired rats, both nulligravid and pregnant, shows that pregnancy induces, at seventeen d of pregnancy, an increase of both reactive oxygen substance concentration in red blood cells and membrane glutathione peroxidase activity.</p> <p>Conclusion</p> <p>The glutathione peroxidase increase in erythrocyte membranes is induced by systemic oxidative stress long lasting rat pregnancy.</p

Higher Infection of Dengue Virus Serotype 2 in Human Monocytes of Patients with G6PD Deficiency

The prevalence of glucose-6-phosphate dehydrogenase (G6PD) deficiency is high in Asia. An ex vivo study was conducted to elucidate the association of G6PD deficiency and dengue virus (DENV) infection when many Asian countries are hyper-endemic. Human monocytes from peripheral mononuclear cells collected from 12 G6PD-deficient patients and 24 age-matched controls were infected with one of two DENV serotype 2 (DENV-2) strains–the New Guinea C strain (from a case of dengue fever) or the 16681 strain (from a case of dengue hemorrhagic fever) with a multiplicity of infection of 0.1. The infectivity of DENV-2 in human monocytes was analyzed by flow cytometry. Experimental results indicated that the monocytes of G6PD-deficient patients exhibited a greater levels of infection with DENV-2 New Guinea C strain than did those in healthy controls [mean±SD:33.6%±3.5 (27.2%∼39.2%) vs 20.3%±6.2 (8.0%∼30.4%), P<0.01]. Similar observations were made of infection with the DENV-2 16681 strain [40.9%±3.9 (35.1%∼48.9%) vs 27.4%±7.1 (12.3%∼37.1%), P<0.01]. To our knowledge, this study demonstrates for the first time higher infection of human monocytes in G6PD patients with the dengue virus, which may be important in increasing epidemiological transmission and perhaps with the potential to develop more severe cases pathogenically

Evaluation of alpha hemoglobin stabilizing protein (AHSP) as a genetic modifier in patients with beta thalassemia.

Although beta thalassemia is considered to be a classic monogenic disease, it is clear that there is considerable clinical variability between patients who inherit identical beta globin gene mutations, suggesting that there may be a variety of genetic determinants influencing different clinical phenotypes. It has been suggested that variations in the structure or amounts of a highly expressed red cell protein (alpha hemoglobin stabilizing protein [AHSP]), which can stabilize free alpha globin chains in vitro, could influence disease severity in patients with beta thalassemia. To address this hypothesis, we studied 120 patients with Hb E-beta thalassemia with mild, moderate, or severe clinical phenotypes. Using gene mapping, direct genomic sequencing, and extended haplotype analysis, we found no mutation or specific association between haplotypes of AHSP and disease severity in these patients, suggesting that AHSP is not a disease modifier in Hb E-beta thalassemia. It remains to be seen if any association between AHSP and clinical severity is present in other population groups with a high frequency of beta thalassemia

Co-inheritance of Hb Pak Num Po, a novel alpha1 gene mutation, and alpha0 thalassemia associated with transfusion-dependent Hb H disease.

Hb H disease is generally associated with moderate to severe anemia but rarely requires regular blood transfusion. We recently studied two apparently unrelated patients with transfusion-dependent Hb H disease. Hemoglobin studies demonstrated Hb H and Hb Bart's without other detectable abnormal globin species. Extensive molecular analyses of the alpha globin genes and their regulatory sequence (HS-40) revealed that both patients are compound heterozygotes for alpha0 thalassemia (--(SEA)) and a novel point mutation, a thymidine insertion after codon 131 of the alpha1 gene. The resulting frameshift gives rise to a highly unstable alpha globin chain, which we refer to as "Hb Pak Num Po," containing an additional 34 amino acids. This unusual alpha1 globin variant clearly causes alpha thalassemia, but the unexpectedly severe phenotype suggests that this mutation may have additional effects on red cell physiology. A PCR-based (ARMS) assay was developed for rapid detection of this novel mutation, and this might be useful to study the prevalence of this novel mutation which poses potentially significant clinical consequences in populations of Southeast Asia. Detecting carriers of this mutation using the molecular diagnostic procedures described will provide the means to screen and prevent a potentially severe form of alpha thalassemia in Thailand

Clinical phenotypes and molecular characterization of Hb H-Pakse disease.

BACKGROUND AND OBJECTIVES: Hemoglobin Constant Spring (Hb CS), caused by a termination codon mutation (TAA--&gt;CAA) in the a2 gene, is the most common non-deletional type of a thalassemia in Southeast Asia. This mutation can most easily be detected by loss of an MseI-restriction site (T/TAA) spanning the termination codon. Recently, we sequenced the a globin genes from patients with a thalassemia in whom this MseI site was absent. This revealed, a previously described termination codon mutation (TAA--&gt;TAT) associated with Hb Paksé. This prompted us to re-evaluate the molecular basis of a thalassaemia in other Thai patients with non-deletional types of Hb H disease. DESIGN AND METHODS: DNA samples from 30 patients, previously diagnosed as having Hb H-CS disease, were characterized by direct genomic sequencing and by using a mismatched polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP). Clinical and hematologic data were assessed. RESULTS: Hemoglobin electrophoresis in almost all 30 unrelated patients with non-deletional a thalassemia revealed a slow migrating band resembling Hb CS. Five of these patients were found to have Hb H-Paksé disease and the remainder had Hb H-CS disease. Comparing the hematology in patients with these two genotypes, no significant differences were found except that the proportion of Hb H was higher in patients with Hb H-Paksé disease. INTERPRETATION AND CONCLUSIONS: These results suggest that termination codon mutations may have been previously misidentified in many cases of non-deletional Hb H disease. Findings from six unrelated families described in this study suggest that the proportion of patients with the Hb Paksé mutation might be underestimated and that this mutation could be prevalent in Southeast Asia. Analysis of mismatched-PCR-RFLP, described here, was shown to provide an unequivocal diagnosis and will be applicable in population screening programs