Cuscuta reflexa Possess Potent Inhibitory Activity Against Human Malaria Parasite: An In Vitro and In Vivo Study.

Drug resistance to practically all antimalarial drugs in use necessitate the development of new chemotherapeutics against malaria. In this aspect, traditionally used plants with folklore reputation are the pillar for drug discovery. Cuscuta reflexa being traditionally used in the treatment of malaria in Odisha, India we aimed to experimentally validate its antimalarial potential. Different solvent extracts of C. reflexa or column fractions from a promising solvent extract were evaluated for in vitro anti-plasmodial activity against Plasmodium falciparum strain Pf3D7. Potent fractions were further evaluated for inhibition of parasite growth against different drug resistant strains. Safety of these fractions was determined by in vitro cyto-toxicity, and therapeutic effectiveness was evaluated by suppression of parasitemia and improvement in survival of experimental mice. Besides, their immunomodulatory effect was investigated in Pf-antigen stimulated RAW cells. GCMS fingerprints of active fractions was determined. Column separation of methanol extract which showed the highest in vitro antiplasmodial activity (IC50 = 14.48 µg/ml) resulted in eleven fractions, three of which (F2, F3, and F4) had anti-plasmodial IC50 ranging from ≤ 10 to 2.2 µg/ml against various P. falciparum strains with no demonstration of in vitro cytotoxicity. F4 displayed the highest in vivo parasite suppression, and had a mean survival time similar to artesunate (19.3 vs. 20.6 days). These fractions significantly modulated expression of inflammatory cytokines in Pf-antigen stimulated RAW cells. The findings of the study confirm the antimalarial potential of C. reflexa. Exploration of phyto-molecules in GCMS fingerprints of active fractions is warranted for possible identification of lead anti-malarial phyto-drugs.

Rapid diagnosis of Plasmodium falciparum malaria using a point-of-care loop-mediated isothermal amplification device.

LAMP diagnosis of malaria is simple and cost-effective with acceptable sensitivity and specificity as compared to standard diagnostic modules such as microscopy, RDTs and nested PCR, and thus its deployment for onsite screening of malaria in resource-limited regions is under consideration. However, the requirement of an electricity-operated dry bath and bulky read-out unit is still a major concern. In an effort to simplify this limitation, we have developed a portable LAMP device and fluorescence readout unit which can be used in the rapid point-of-care diagnosis of malaria. We have developed a point-of-care diagnostic LAMP device that is easy to operate by a mobile application, and the results can be quantified with a fluorescent readout unit. The diagnostic performance of the device was evaluated in 90 P. falciparum-infected clinical isolates stored at 4°C for 6-7 years and 10 freshly collected isolates from healthy volunteers. The LOD and quantitative ability of LAMP in estimating parasitemia levels were revealed with laboratory-grown P. falciparum strain (3D7). The LAMP assay performed in our device was exclusive for P. falciparum detection with sensitivity and specificity determined to be 98.89% and 100%, respectively, in clinical isolates. The LOD was documented to be 1 parasite/µl at the cut-off ADC value of 20. Parasite density estimated from ADC values showed concordance with microscopically determined parasite density of the cultured P. falciparum 3D7 strain. The LAMP assay performed in our device provides a possible portable platform for its deployment in the point-of-care diagnosis of malaria. Further validation of the quantitative ability of the assay with freshly collected or properly stored clinical samples of known parasitemia is necessary for field applicability.

Utility of Fine Needle Aspiration Cytology (FNAC) in the diagnosis of tuberculous lymphadenitis compared to GeneXpert in a tertiary health care center in Northern Odisha, India.

BACKGROUND: Diagnosis of extrapulmonary tuberculosis including tuberculous lymphadenitis (TBLN) is challenging because of its atypical clinical presentation, paucibacillary nature of mycobacteria at the infected sites, variation in sensitivity of a test to specimens collected by different methods and from different infected tissues. METHODS: In the present study, suspected individuals for lymph node tuberculosis irrespective of age were enrolled prospectively and specimens were collected aseptically by fine needle aspiration (FNA). After the implementation of exclusion criteria, FNA specimens from a total of 278 cases of suspected TBLN were evaluated for cytomorphology (FNAC), presence of acid-fast bacillus (AFB) in smear microscopy and specific detection of mycobacterial DNA in cartridge-based nucleic acid amplification test (CBNAAT). RESULTS: The results showed high prevalence of Type II (59.71%), followed by Type I (34.53%) and Type III (5.75%) pattern in FNAC. Non-type II patterns were significantly high in regions outside of the head and neck region (P = 0.031; OR = 2.125) and had an increasing trend of their occurrences with progression of age. The most affected age group was between 16 and 30 years with female preponderance documented in individuals below 45 years, whereas male preponderance was observed in higher age group patients, majority of whom had infected lymph nodes outside of HAN region (P = 0.063, OR = 1.998). The results also showed high sensitivity of CBNAAT (83.04%) method followed by FNAC (72.17%) with AFB smear exhibiting the disappointing results (sensitivity of 10.86%) compared to the CRS. High percentage of positivity was observed in Type III (AFB:25% vs CBNAAT: 100%) followed by Type II (AFB:10.2 vs CBNAAT: 76.5), while low detection was observed from samples with Type I (AFB:4.2 vs CBNAAT: 50). Interestingly, CBNAAT detection of TB was shown to be unaffected by gender, age and site of infection. CONCLUSION: The study suggests a possible contributary role of age and gender for cytomorphological pattern distribution of TBLN at various body parts. Although FNAC detected TB in 77.1% of cases which were identified positive by CBNAAT and/or AFB, it is being solely based on cytomorphology cannot be used alone as a reliable diagnostic method for TBLN detection. Further, the negative results in CBNAAT for FNAC positive cases may not necessarily be non-TB cases and must be evaluated by other diagnostic modalities. We recommend for both cytomorphological investigation and CBNNAT for the fine needle aspirates from suspected TBLN and subsequent treatment to reduce the disease burden.

Malaria link of hypertension: a hidden syndicate of angiotensin II, bradykinin and sphingosine 1-phosphate.

In malaria-endemic countries, the burden of hypertension is on the rise. Although malaria and hypertension seem to have no direct link, several studies in recent years support their possible link. Three bioactive molecules such as angiotensin II (Ang II), bradykinin (BK) and sphingosine 1-phosphate (S1P) are crucial in regulating blood pressure. While the increased level of Ang II and S1P are responsible for inducing hypertension, BK is arthero-protective and anti-hypertensive. Therefore, in the present review, based on available literatures we highlight the present knowledge on the production and bioavailability of these molecules, the mechanism of their regulation of hypertension, and patho-physiological role in malaria. Further, a possible link between malaria and hypertension is hypothesized through various arguments based on experimental evidence. Understanding of their mechanisms of blood pressure regulation during malaria infection may open up avenues for drug therapeutics and management of malaria in co-morbidity with hypertension.

Sphingosine 1-Phosphate in Malaria Pathogenesis and Its Implication in Therapeutic Opportunities.

Sphingosine 1-Phosphate (S1P) is a bioactive lipid intermediate in the sphingolipid metabolism, which exist in two pools, intracellular and extracellular, and each pool has a different function. The circulating extracellular pool, specifically the plasma S1P is shown to be important in regulating various physiological processes related to malaria pathogenesis in recent years. Although blood cells (red blood cells and platelets), vascular endothelial cells and hepatocytes are considered as the important sources of plasma S1P, their extent of contribution is still debated. The red blood cells (RBCs) and platelets serve as a major repository of intracellular S1P due to lack, or low activity of S1P degrading enzymes, however, contribution of platelets toward maintaining plasma S1P is shown negligible under normal condition. Substantial evidences suggest platelets loss during falciparum infection as a contributing factor for severe malaria. However, platelets function as a source for plasma S1P in malaria needs to be examined experimentally. RBC being the preferential site for parasite seclusion, and having the ability of trans-cellular S1P transportation to EC upon tight cell-cell contact, might play critical role in differential S1P distribution and parasite growth. In the present review, we have summarized the significance of both the S1P pools in the context of malaria, and how the RBC content of S1P can be channelized in better ways for its possible implication in therapeutic opportunities to control malaria.

Effect of Plasmodium falciparum infection on blood parameters and their association with clinical severity in adults of Odisha, India.

The extent of abnormalities in blood indices and their subsequent effects on clinical severity in malaria differ among populations of different endemicity. However, these alterations have not been well investigated in Odisha, India and their prognostic implications in the context of multi-organ dysfunction (MODS) in severe malaria (SM) are not identified so far. The present study was carried out in 200 adult patients each from uncomplicated malaria and severe malaria groups to examine whether host haematological and biochemical parameters in Plasmodium falciparum infection can act as diagnostic marker for SM in adults patients of Odisha. The results showed thrombocytopenia as a potential risk factor for SM irrespective of disease features with least median platelet counts observed in patients with MODS (Platelet count: 144.5, P = < 0.0001) compared to mild malaria. Logistic regression analysis identified anemia (<10 mg/dl) as independent predictor of MODS (OR = 12.78, 95% CI = 4.93-33.2). The prognostic utility of thrombocytopenia (platelet count: ≤100,000/µl) as marker of MODS was largely modulated by hemoglobin and blood glucose level. Co-existence of hypoglycemia and thrombocytopenia was also observed. Our study revealed changes in blood indices such as low platelet, hemoglobin and blood glucose during falciparum infection in adults can be used as diagnostic criteria for predicting SM in combinations. The study also provides important clue for plausible hypoglycemia mediated platelet necrosis and clearance. Further studies in different endemic regions need to be conducted for validation of these findings and their implication as criteria for diagnosing SM in adults.

High proportions of pfhrp2 gene deletion and performance of HRP2-based rapid diagnostic test in Plasmodium falciparum field isolates of Odisha.

BACKGROUND: With the documentation of cases of falciparum malaria negative by rapid diagnostic tests (RDT), though at low frequency from natural isolates in a small pocket of Odisha, it became absolutely necessary to investigate the status of HRP-2 based RDT throughout the state and in different seasons of the year. METHODS: Suspected individuals were screened for malaria infection by microscopy and RDT in 25/30 districts of Odisha, India. Discrepancies in results were confirmed by PCR. False negative RDT samples for Plasmodium falciparum mono-infection were evaluated for detection of HRP2 antigen in ELISA and genotyped for pfhrp2, pfhrp3 and their flanking genes. Multiplicity of infection was ascertained based on msp1 and msp2 genotyping and parasitaemia level was determined by microscopy. RESULTS: Of the total 1058 patients suspected for malaria, 384 were microscopically confirmed for P. falciparum mono-infection and RDT failure was observed in 58 samples at varying proportion in different regions of the state. The failure in detection was due to undetectable level of HRP-2. Although most of these samples were screened during rainy season (45/345), significantly high proportion (9/17) of RDT negative samples were obtained during the summer compared to rainy season (P = 0.0002; OR = 7.5). PCR genotyping of pfhrp2 and pfhrp3 in RDT negative samples showed 38/58 (65.5) samples to be pfhrp2 negative and 24/58 (41.4) to be pfhrp3 negative including dual negative in 17/58 (29.3). Most of the RDT negative samples (39/58) were with single genotype infection and high proportions of pfhrp2 deletion (7/9) was observed in summer. No difference in parasitaemia level was observed between RDT positive and RDT negative patients. CONCLUSION: High prevalence of parasites with pfhrp2 deletion including dual deletions (pfhrp2 and pfhrp3) is a serious cause of concern, as these patients could not be given a correct diagnosis and treatment. Therefore, HRP2-based RDT for diagnosing P. falciparum infection in Odisha is non-reliable and must be performed in addition to or replaced by other appropriate diagnostic tools for clinical management of the disease.

A meta-analysis of TLR4 and TLR9 SNPs implicated in severe malaria.

Toll-like receptors (TLRs) are critical mediators of the inflammatory response to malarial infection, and gene polymorphisms affecting TLR function may be partially responsible for inter-individual variation in disease manifestation. However, there are inconsistencies in the associations of common genetic variants of TLR4 (D299G) and TLR9 (T-1237C and T-1486C) with malaria outcome. A comprehensive search was conducted to identify relevant and independent Plasmodium falciparum-infected case-control studies, and meta-analysis including six studies for each SNP was performed to obtain more precise estimates of the pooled effects of these variants. The results showed significant associations of the -1486C allele with the risk of severe malaria in allele contrast (T vs. C, p = 0.004, OR = 1.26) and homozygous (TT vs. CC, p = 0.03, OR = 1.51) genetic models. There was no association between the D299G or T-1237C variants and uncomplicated or severe malaria using any of the genetic models tested. However, in stratified analysis, -1237C was associated with the risk of severe malaria in Indian adults (TT vs. TC, p = 0.06, OR = 2.13; TT vs. TC+CC, p <0.00001, OR = 2.65), suggesting that our results must be considered preliminary. The robustness of -1486C as a risk factor warrants investigation into its functionality in malaria pathogenesis. Further, the lack of an association with the T-1237C variant was weak, and future studies examining more detailed individual data from different ethnic groups are essential for confirmation of its genetic contribution to malaria.

A meta-analysis of TLR4 and TLR9 SNPs implicated in severe malaria

Abstract Toll-like receptors (TLRs) are critical mediators of the inflammatory response to malarial infection, and gene polymorphisms affecting TLR function may be partially responsible for inter-individual variation in disease manifestation. However, there are inconsistencies in the associations of common genetic variants of TLR4 (D299G) and TLR9 (T-1237C and T-1486C) with malaria outcome. A comprehensive search was conducted to identify relevant and independent Plasmodium falciparum-infected case-control studies, and meta-analysis including six studies for each SNP was performed to obtain more precise estimates of the pooled effects of these variants. The results showed significant associations of the -1486C allele with the risk of severe malaria in allele contrast (T vs. C, p = 0.004, OR = 1.26) and homozygous (TT vs. CC, p = 0.03, OR = 1.51) genetic models. There was no association between the D299G or T-1237C variants and uncomplicated or severe malaria using any of the genetic models tested. However, in stratified analysis, -1237C was associated with the risk of severe malaria in Indian adults (TT vs. TC, p = 0.06, OR = 2.13; TT vs. TC+CC, p <0.00001, OR = 2.65), suggesting that our results must be considered preliminary. The robustness of -1486C as a risk factor warrants investigation into its functionality in malaria pathogenesis. Further, the lack of an association with the T-1237C variant was weak, and future studies examining more detailed individual data from different ethnic groups are essential for confirmation of its genetic contribution to malaria.

Genetic predisposition of variants in TLR2 and its co-receptors to severe malaria in Odisha, India.

Although the role of TLRs signalling in malaria pathogenesis is well established, contribution of individual TLR to clinical outcome of malaria still remains inconclusive. Given the importance of TLR2 and its co-receptors in recognising distinct structural forms of key malaria toxins and mediating innate immune response, it is essential to delineate their genetic contribution. Variants in TLR1 (I602S) and TLR6 (P249S) were genotyped by PCR-RFLP methods, and TLR2 (I/D) was genotyped by PCR in 200 samples each from uncomplicated malaria (UM) and severe malaria (SM). Further, SM was categorised into its sub-clinical groups (CM and NCSM or SOD and MODS) and analysed. The results showed the PP genotype of TLR6 (P249S) to be significantly more common in UM (P < 0.0001), whereas the 'SS' genotype was the risk factor for SM including its sub-clinical categories. The TLR1 (602S) and TLR2 (D) variants were significantly high in patients with CM; however, negative LD was observed between TLR2 and TLR6 in NCSM and MODS. Haplotype analysis showed significantly high frequency of I-I-S haplotype in all forms of subclinical SM and was associated with low parasite load in SM (P = 0.013). The haplotypes I-D-S and S-I-P were significantly high in SOD and CM, respectively. The TLR6 '249S' variant appeared to be the dominant determinant for genetic predisposition to SM and that its association with either TLR2 'D' or TLR1 '602S' modulates for CM development. The present study opens up several new avenues for their exploration and validation in future studies in different global settings for malaria.

Influence of common variants of TLR4 and TLR9 on clinical outcomes of Plasmodium falciparum malaria in Odisha, India.

BACKGROUND: In malaria, the toll-like receptors (TLRs) have recently emerged as major player of innate immunity. However, implication of TLR variants on clinical manifestations of malaria is conflicting. The present study aims to provide relevant information of growing interest in understanding the role of TLR4D299G, TLR9T-1237C and TLR9T-1486C polymorphisms on clinical outcomes of malaria. METHODS: We genotyped TLR4D299G, TLR9T-1237C and TLR9T-1486C polymorphisms by PCR-RFLP methods and subsequently analyzed in 200 uncomplicated patients and 200 severe patients. Further, the severe malaria categorized into sub-clinical groups such as cerebral malaria (CM), non-cerebral severe malaria (NCSM), single organ dysfunction (SOD) and multi-organ dysfunctions (MODS) are analyzed. RESULT: The TLR9-1237CC genotype was observed at significantly low frequency in MODS (p=0.0008), while in heterozygous state (TC) it was proportionately more frequent in SOD (p=0.087) as compared to mild malaria. The TLR9T-1486C heterozygote was more common in all categories of severe malaria. However, pair wise LD analysis revealed significant linkage between T-1237C and T-1486C, whereas haplotype analysis showed significantly low frequency of C-T haplotype in CM (p=0.005, pc=0.02) and high frequency of T-C haplotype in NCSM as compared to mild malaria. CONCLUSION: Although TLR9-1237C could be a risk factor for severe malaria in heterozygous state, negative association of CC genotype with MODS warrants caution of segregating severe malaria into its sub-clinical groups while interpreting data. Further, clinical outcome in malaria was observed to be apparently modulated by LD between TLR9 promoter variants.

Molecular monitoring of antimalarial drug resistance among Plasmodium falciparum field isolates from Odisha, India.

In the absence of definite marker for artemisinin (ART) resistance, molecular monitoring of its partner drug sulfadoxine pyrimethamine (SP) in artemisinin based combination therapy (ACTs) together with chloroquine (CQ) for which ART is negatively correlated, may predict the effectiveness of ACT. We analyzed 201 Plasmodium falciparum field isolates for drug resistance markers for CQ (pfcrt and pfmdr1), pyrimethamine (pfdhfr) and sulfadoxine (pfdhps). Our study reveals high prevalence and non-random association of resistant mutants (K76T and N86Y) of CQ markers (pfcrt and pfmdr1). The predominance of highly resistant pfdhfr genotypes for SP with intragenic and intergenic pair-wise linkage disequilibrium between single nucleotide polymorphisms of resistant mutants of pfdhfr (C59R and S108N) and pfdhps (S436A, A437G, K540E) warn on further inclusion of SP in ACT. These findings suggest the replacement of SP in ACT with alternative partner drug for better efficacy.

Blood group phenotypes A and B are risk factors for cerebral malaria in Odisha, India.

There is increasing evidence that the ABO blood group phenotypes modulates Plasmodium falciparum rosetting and may influence the clinical manifestation of severe malaria. Whether blood group phenotypes are associated with risk of severe falciparum malaria in Odisha, we analyzed 343 adult malaria patients. The results showed high prevalence of blood group B in both mild (n=110) and severe malaria (cerebral malaria [CM]; n=130 and non-cerebral severe malaria [NCSM]; n=103) categories among the non-O group and while type O is significantly associated with protection against CM, patients with type A and B group had increased risk for developing CM. Further, the strength of association for B group (p=< 0.0001) was high and has double the risk of (OR=5.0) of developing CM compared to blood group A (OR=2.5). Such findings may probably be due to strain specific blood group preferences of P. falciparum and high prevalence of B group. However, the ABO blood group distribution of mild malaria was comparable with that of the NCSM group of patients. The lack of association of ABO phenotypes with NCSM is evidence for the hypothesis that the underlying pathogenesis cascades are different in CM and NCSM clinical presentations.

High CR1 level and related polymorphic variants are associated with cerebral malaria in eastern-India.

The complement receptor 1 (CR1/CD35) protein acts as the major rosetting receptor in Plasmodium falciparum infection and several genetic variants of CR1 gene have been shown to be associated with quantitative expression of erythrocyte CR1 (E-CR1) level. However, CR1 level and gene polymorphisms exhibit differences in clinical manifestation of malaria in regions of varying disease endemicity. The result of the present study which analyzed three SNPs (intron 27 HindIIIA>T, exon 22 3650 A>G, and exon 33 5507 C>G) of the CR1 gene in Orissa, a hyperendemic state in eastern-India showed that a significantly increased risk for cerebral malaria (CM) was associated with AA genotype of both intron 27 and exon 22 when compared with mild, severe malaria anemia (SMA) and CM+SMA group respectively. Further, the overall haplotype analysis for all the three loci showed predominantly two major haplotypes 'AAC' coding for higher expression of CR1 and 'TGG' haplotype coding for low expression of CR1 level with the former haplotype being significantly associated with CM (P value<0.00619 after Bonferroni correction) compared to mild malaria. The 'TGG' haplotype was proportionately more in SMA cases compared to mild malaria though statistically not significant. These findings suggest that the mild malaria group had an intermediate level of E-CR1 and extremely low or high levels of CR1 can cause severity in malaria. Further large scale studies in different endemic regions are needed to explain the epidemiological differences between E-CR1 expression and clinical manifestation of malaria which may contribute to the understanding of malaria pathogenesis.

Gene polymorphisms in angiotensin I converting enzyme (ACE I/D) and angiotensin II converting enzyme (ACE2 C-->T) protect against cerebral malaria in Indian adults.

To explore the hypothesis that angiotensin II may play a role in the susceptibility to cerebral malaria (CM), we performed a genetic association study of malaria patients in Orissa, India analyzing three SNPs (ACE2 C-->T, iNOS C-->T, eNOS Glu-->Asp) and two I/D polymorphisms (ACE I/D and IL-4 B1/B2). Our results showed that the 'D' allele of ACE I/D polymorphism, responsible for increased Ang II production had a significant association with mild malaria and the ACE2 C-->T substitution had gender specific effect of possibly reduced expression of ACE2 in presence of 'T' allele in women leading to increased level of Ang II and hence protection against CM. Combined genotype analysis of eNOS Glu-->Asp substitution responsible for increased NO production in Plasmodium falciparum infected individuals and ACE I/D polymorphism also showed stronger association of (Glu-Asp+Asp-Asp/ID+DD) genotypes with mild malaria (P<0.0001). Whether by its antiplasmodial activity and/or by some unknown mechanisms, Ang II protects from susceptibility to cerebral malaria remains to be investigated. These genetic findings may contribute to the understanding of malaria pathogenesis.

The survival strategies of malaria parasite in the red blood cell and host cell polymorphisms.

Parasite growth within the erythrocyte causes dramatic alterations of host cell which on one hand facilitates nutrients acquisition from extracellular environment and on other hand contributes to the symptoms of severe malaria. The current paper focuses on interactions between the Plasmodium parasite and its metabolically highly reduced host cell, the natural selection of numerous polymorphisms in the genes encoding hemoglobin and other erythrocyte proteins.

Genetic variation in neuronal nitric oxide synthase (nNOS) gene and susceptibility to cerebral malaria in Indian adults.

The role of nitric oxide (NO) in the pathogenesis of cerebral malaria is controversial. Of the three isoforms of nitric oxide synthases (NOS), though iNOS expression is the major source of NO level in vivo, nNOS is the main isoform constitutively expressed in the neural tissues. However, there has been no investigation of the role of polymorphisms of the nNOS gene in the etiology of cerebral malaria. We have analyzed two single nucleotide polymorphisms (SNPs) of nNOS gene (-84G-->A and 276C-->T), responsible for decreased basal transcriptional activity, in 200 patients with mild Plasmodium falciparum malaria and 170 patients with cerebral malaria. Our results showed a significant association of AG genotype (OR=1.83, 95%CI=1.19-2.78, P=0.007) and AA genotype (OR=3.86, 95%CI=1.42-10.5, P=0.007) of nNOS -84G-->A substitution with cerebral malaria. Interestingly, when the nNOS variant genotypes were combined together for analysis, a significantly increased risk of cerebral malaria was associated with -84(AG+AA)/276(CT+TT) genotype (OR=2.59, 95%CI=1.46-4.60, P=0.0016) and -84(AG+AA)/276(CC) genotype (OR=1.89, 95%CI=1.08-3.32, P=0.0334). The -84A seems to be a putative risk allele on the susceptibility to cerebral malaria and low nitric oxide production might have contributed to the development of cerebral malaria.