Lactiplantibacillus plantarum PGB02 Improved Serum Cholesterol Profile by Tweaking Genes Involved in Cholesterol Homeostasis in Male Swiss Albino Mice.

The effect of Lactiplantibacillus plantarum PGB02 isolated from buttermilk on serum cholesterol profile of normal and hypercholesterolemic mice was evaluated. Further changes in the expression of mice genes were determined. The hypercholesterolemia was induced in experimental mice by feeding high cholesterol and fat diet. Serum cholesterol parameters, physical parameters, cholic acid excretion, and cholesterol metabolism related gene expression analysis was carried out. L. plantarum PGB02 efficiently reduced total cholesterol, triglycerides, and LDL-cholesterol and improved HDL-cholesterol in hypercholesterolaemic mice. Body weight was reduced and fecal cholic acid increased in probiotic treatment groups. Gene expression analysis revealed that L. plantarum PGB02 up-regulated the expression of LDL receptors, CYP7A1, ABCA1, ABCG5, ABCG8, and down-regulated the expression of FXR and NPC1L1 genes. Summarizing the mechanism, L. plantarum PGB02 improved hypercholesterolemia by increasing bile acid synthesis and excretion, reducing exogeneous cholesterol absorption from the intestine, and increased LDL clearance through upregulation of LDL-receptors. The present study has given insight into the mechanism of serum cholesterol reduction by bile salt hydrolase positive L. plantarum PGB02 in mice. L. plantarum PGB02 reduced the serum cholesterol level through increased bile acid synthesis and deconjugation and reduced absorption of cholesterol in the intestine. Isolate PGB02 shown cholesterol removal potential as good as statin.

Improved live-cell PCR method for detection of organophosphates degrading opd genes and applications.

Organophosphates are becoming an emerging pollutant due to their various applications, particularly as pesticides. In this study, an improved Colony (Live-cell) PCR method was developed for the detection of opd genes from bacteria encoding the organophosphate hydrolase enzymes capable of degrading various organophosphates. The improved method does not require pre-heating or pre-lysis of bacterial cells as essential in the conventional colony PCR. The reaction volume was scaled down to 10 µl by optimizing the PCR buffer and amplification conditions. The improved method was used for Gram positive and negative bacteria, glycerol stocks, liquid cultures, recombinant and mutant strains. Also, 16S rRNA gene was amplified from unknown environmental isolates and known E. coli strains. The amplified opd and 16S rRNA genes from the improved colony PCR method and by conventional PCR were sequenced, and similar results were obtained from both techniques. Thus, the improved method can be further explored in molecular biology or during biomarker studies. KEY POINTS: • Improved colony PCR method was developed for screening of opd genes from bacteria. • Method was validated for Gram positive/negative bacteria from solid as well as liquid media. • The improved method was rapid, efficient, and can be applied under various conditions.