Genetic diversity in merozoite surface protein-1 and 2 among Plasmodium falciparum isolates from malarious districts of tribal dominant state of Jharkhand, India.

INTRODUCTION: The genetic make-up of malaria parasite is potent for understanding the parasite virulence, designing antimalarial vaccine and evaluating the impact of malaria control measures. There is a paucity of information on genetic structure of Plasmodium falciparum in Jharkhand, India where malaria is rampant and this study aimed to establish molecular characterization of P. falciparum field isolates from Jharkhand measured with two highly polymorphic genetic markers, i.e. the merozoite surface proteins (MSPs) 1 and 2. METHODS: The genetic diversity of P. falciparum population from low transmission area, Ranchi, Bokaro and Hazaribagh and highly malarious area, Latehar and Palamau districts of Jharkhand were evaluated by polymerase chain reaction-sequencing analyzing msp-1 and msp-2 genes to explore the genetic structure of parasite from this understudied region. RESULTS: A total of 134 P. falciparum isolates were analyzed by polymorphic regions of msp-1 and msp-2 and classified according to prevalence of allelic families. The majority of patients from all the five sites had mean monoclonal infections of 67·1 and 60·4% of P. falciparum for msp-1 and msp-2, respectively, whereas, mean multiple genotypes of 32·8 and 39·5% for msp-1 and msp-2, respectively. Interestingly, we observed higher multiclonal infection in low transmission area as compared to highly malarious area in the case of msp-1 genotypes, whereas in msp-2 higher multiclonal infection was observed in highly malarious area compared to low transmission area. The overall multiplicities of infection of msp-1 and msp-2 were 1·38 and 1·39, respectively. CONCLUSION: This is the first report on molecular characterization of P. falciparum field isolates from Jharkhand. The genetic diversity and allelic distribution found in this study is somewhat similar to other reports from India and Southeast Asian countries. However, P. falciparum infection can be highly complex and diverse in these disease-endemic regions of Jharkhand, suggesting continual genetic mixing that could have significant implications for the use of antimalarial drugs and vaccines.

Sample complexity reduction aids efficient detection of low-abundant proteins from human amniotic fluid.

Working with biological fluids poses a challenge of visualizing proteins present in lower concentrations. This study describes a batch-mode chromatographic method for the fractionation of human amniotic fluid (AF). This method is easy to use with minimal sample quantity, resin volume and sample processing time. For albumin depletion, two methods were evaluated. The results demonstrated that specific depletion of albumin, using affinity-ligand-based resin, is more efficient than the conventional dye-based method. The albumin-depleted human AF was fractionated by strong anion-exchange resin in spin devices, for sample, complexity reduction and enrichment of low-abundant proteins. Analysis of four eluate fractions generated after this step shows enrichment of few low-abundant proteins. Two novel low-abundant proteins, Rab GDP dissociation inhibitor beta and peptide methionine sulfoxide reductase, were identified from human AF. Alpha-1-B glycoprotein was successfully identified by this strategy, whereas the published literature reports that it was not identified by strong anion-exchange FPLC followed by SDS-PAGE. Therefore, the current method has distinct advantages over the conventional column-based chromatography. This study also reports altered expression of some proteins in Rh-isoimmunized AF samples in comparison with normal AF.

Proteomics-based approach for identification and purification of human phosphate binding apolipoprotein from amniotic fluid.

Human amniotic fluid is of both maternal and fetal origin; it protects the fetus and provides the environment for growth and development of the fetus. We used a proteomics-based approach for targeting and purifying human phosphate binding protein, a member of the DING family of proteins from amniotic fluid, using Blue Sepharose CL-6B, DEAE-Sephacel and gel filtration chromatography. The protein had earlier been reported to be serendipitously purified along with PON1 (paraoxonase 1). It was identified using electro-spray-ionization-time-of-flight mass spectrometry and was found to be human phosphate binding protein. Human phosphate binding proteins have been reported to play a role as phosphate scavengers and may have a protective function against phosphate-related disorders, such as atherosclerosis, diabetes and kidney stones.

Alleles -308A and -1031C in the TNF-alpha gene promoter do not increase the risk but associated with circulating levels of TNF-alpha and clinical features of vivax malaria in Indian patients.

The biological significance of TNF promoter polymorphism and infectious disease association prompted us to investigate whether TNF-alpha -308 G/A and -1031 T/C promoter polymorphisms are associated with Plasmodium vivax infection, cellular TNF-alpha level and possibly with clinical symptoms by employing PCR-RFLP methods. An overall significant elevation of serum TNF-alpha, IL-6 content (p=0.0002, p=0.002, respectively), whereas highly significant depletion of IL-10 content (p=0.0001) was observed in vivax patients. In addition, TNF-alpha concentration in patients with and without fever were found to be significant (p=0.0001, p=0.0004, respectively). The genotypic distribution for -308 G/A and -1031 T/C positions were found non significant, but it was clinically potent to observe statistically significant distribution of genotypes (p=0.032) in patients with and without fever. Furthermore, the TNF-alpha level in TNF1 and TNF2 genotype for -308 position was significantly higher (p=0.010, p=0.006 respectively). In case of -1031 position TNF-alpha level was significant in ancestral (TT) genotype (p=0.0007) in patients compared to healthy subjects and significantly higher in rare (CC) genotype (p=0.021) as compared to ancestral genotype. In addition, the two polymorphisms 308G/A and -1031T/C were in highly significant LD (D'=0.7992, r(2)=0.6005, p=0.0001) in the patients as well as it is interesting to report that the distribution of novel 308A: 1031C alleles associated haplotypes are nearly the same in patients (0.2610) and in healthy subjects (0.2636). In view of present observation of promoter polymorphism with TNF-alpha level and other clinical parameters of vivax infection, we suggest that evaluation of TNF level and its polymorphisms in the promoter region may be considered to be reliable molecular and immunological markers, possess promising rational for diagnostic potential and immunotherapeutic interventions in clinical vivax malaria. Genetic variation in the promoter region is of biological significance and may play important roles in host defense mechanisms against vivax infection by enhancing cell-mediated immunity and stimulating the protective immunological cascade.

Decreased glutathione-S-transferase activity: diagnostic and protective role in vivax malaria.

OBJECTIVES: The study was undertaken to establish data on the comparative status of antioxidant enzyme GST activity, levels of lipid peroxidation and catalase activity during pathology of Plasmodium vivax malaria in Indian population. We investigated whether serum and plasma glutathione-S-transferase activity in vivax patients are unique to the disease or act as one of the important antioxidant marker for diagnostic potential and candidate for chemoprevention. METHODS: We measured activity of antioxidant enzyme GST, levels of lipid peroxidation and catalase activity during vivax infection. RESULTS: Mean activity of antioxidant enzyme GST in patients serum and plasma were less (6.43 and 5.65 IU/L respectively) than healthy subjects (11.65 and 10.09 IU/L respectively). Lipid peroxidation level and catalase activity of patients (1.77 micromol/L and 29.64 U/mL) with vivax malaria were higher than those of healthy subjects (1.03 micromol/L and 10.87 U/mL). GST activity in serum and plasma was inversely correlated with age in case of vivax patient and were found significant (R2=0.1907 and 0.1605 and p<0.0007 and p<0.01). CONCLUSIONS: In view of the present findings we suggest that GST, lipid peroxidation and catalase evaluation may be considered to be reliable biochemical markers and possess promising rational for diagnostic and therapeutic potential in vivax malaria. Decreasing GST activity and elevated activity of lipid peroxidation and catalase may play important roles in host defence mechanisms against vivax infection by up-regulating oxidative defence mechanisms.