Background: Plasma lipids are affected not only by dietary intake and life style but also by genetic factor. Objective: To discover the relationship between plasma lipids and the presence of LPL S447X and PAF-AH V279F in the bodies of rural Vietnamese population. Subject and Method: One hundred and ninety three subjects were randomly selected from rural areas in Ho Chi Minh city. The presence of LPL S447X and PAF-AHV279F polymorphism was determined using an Invader assay, and the plasma lipid levels were measured by an enzymatic method. A profile regarding the dietary intake was also made for each subject. Result and Conclusion: The frequency of LPL 447SX/XX (12.2%) polymorphism, PAF-AH Val279Phe mutation allele frequency (5.4%) in the Vietnamese was closely similar to that of other Asian populations. LPL447X polymorphism was found to be significantly associated with a higher HDL-C level in comparison to LPL 447S. LPL S447X affects plasma HDL-C and TG concentration in Vietnamese rural population.
Genetic factors ; plasma lipids ; rural area

Objective To isolate α-mangostin (AMG) from the peels of mangosteen (Garcinia mangostana L.), grown in Vietnam, and to investigate antibiofilm activity of this compound against three Staphylococcus aureus (S. aureus) strains, one of which was methicillin-resistant S. aureus (MRSA) and the other two strains were methicillin-sensitive S. aureus (MSSA). Methods AMG in n-hexane fraction was isolated on a silica gel column and chemically analyzed by HPLC and NMR. The antibiofilm activity of this compound was investigated by using a 96-well plate model for the formation of biofilms. Biofilm biomass was quantified using crystal violet. The viability of cells was observed under confocal microscopy using LIVE/DEAD BacLight stains. Biofilm composition was determined using specific chemical and enzyme tests for polysaccharide, protein and DNA. Membrane-damaging activity was assayed by measuring the hemolysis of human red blood cells in presence of AMG. Results The results indicated that the isolated AMG, with a purity that exceeded 98%, had minimal inhibitory concentrations in the range of 4.6–9.2 μmol/L for the three strains tested. Interestingly, the MSSA strains were more sensitive to AMG than the MRSA strain. Minimal bactericidal concentrations were 2-fold higher than the minimal inhibitory concentration values for the three strains, indicating that AMG was a bactericidal compound. AMG also prevented biofilm formation effectively, albeit that again the MRSA strain was the most resistant. Interestingly, biofilms of the MRSA strain contained protein as a main component of the extracellular matrix, whereas this was polysaccharide in the MSSA strains. This might relate to the resistance of the MRSA 252 strain to AMG. Assays using human red blood cells indicated that AMG caused significant membrane damage with 50% of cell lysis occurred at concentration of about 36 μmol/L. Conclusions Our results provide evidence that the isolated AMG has inhibitory activity against biofilm formation by S. aureus, including MRSA. Thus, isolated AMG proposes a high potential to develop a novel phytopharmaceutical for the treatment of MRSA.