scholarly journals An Evolution From a Predominant K1 Allelic Variant to MAD20 of msp1 Gene Between 2015 to 2019 in Metehara, Southeast Ethiopia

2021 ◽  
Author(s):  
Abeba Reda ◽  
Alebachew Messele ◽  
Hussein Mohammed ◽  
Ashenafi Assefa ◽  
Lemu Golassa ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Target Genes ◽  
Temporal Dynamics ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Cross Sectional Study ◽  
Cross Sectional ◽  
Southeast Ethiopia ◽  
Parasite Populations ◽  
Msp1 Gene

Abstract Background: The complexity and quantity of parasite populations circulating in a specific location are reflected in the genetic diversity of malaria parasites (s). Between 2015 and 2019, this study in Metehara, South east, Ethiopia. set out to investigate the temporal dynamics of genetic diversity and multiplicity as a result of evolutionary change in the genes that contribute to Plasmodium falciparum infection elimination. Method: Between 2015 and 2019, a cross-sectional study was carried out. from eighty-three dry blood spots from malaria patients who were screened for P. falciparum mono-infection by QPCR. From this seventy confirmed P. falciparum were genotyping to merozoite surface protein 1,2 and glutamate-rich protein using nested PCR.Result: Between 2015 and 2019, seventy (84.3%) of the isolates were successfully genotyped for all three target genes in both years. In 2015 and 2019, the allelic distributions of the three genes differed significantly (P= 0.001). Overall, the most common allelic families for msp1 and msp2 were K1 and FC27 respectively. For glurp, eight distinct genotypes were identified. In 2015, the genotyping of msp1, msp2 and glurp was 25 (86.2%), 25 (86.2%) and 24 (82.2%) respectively. K1, MAD20 and RO33 all have 19(65.5%), 3(10.3%) and 3(10.3%) msp1 allelic families respectively. In 2019 the genes were 30 (73.2%), 39 (95.1%) and 30 (73.2%). K1, MAD20, and RO33 were genotyped for 6 (14.6 percent), 18 (43.9 percent) and 6 (14.6 percent) genotyping respectively. Over all the multiplicity of infection was 1.67 (95 percent CI 1.54-1.74) and the heterozygosity index for msp1, msp2, and glurp was 0.48, 0.70, and 0.55 respectively.Conclusion: This study provides current information on the genetic diversity of P. falciparum populations in Metehara over five-year intervals, The progression of the dominant K1 variant from 2015 to MAD20 variant in 2019 was observed in this study.

scholarly journals Genetic Diversity of Merozoite Surface Protein 2 (MSP2) Plasmodium falciparum Clinical Isolate in Wamena General Hospital

2020 ◽  
Vol 12 (2) ◽  
pp. 123-132
Author(s):  
Dirk Y.P. Runtuboi ◽  
Rosye H.R. Tanjung ◽  
Yulius Sarungu ◽  
Meidy J. Imbiri ◽  
Irma A. Resmol ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Plasmodium Falciparum ◽  
General Hospital ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Dominant Frequency ◽  
Asexual Parasite ◽  
Cross Sectional ◽  
Single Allele ◽  
Msp2 Gene

The genetic diversity of typical clinical isolated Plasmodium falciparum in the malaria population varies greatly, especially at the location where malaria disease were recorded at high incidence rate. MSP2 is known as glycoprotein expressed on the surface of merozoites, which is an antigenic protein and has a potential to act as vaccine candidate for malaria. The MSP2 gene has two main allelic groups called FC27 and 3D7/IC. Block 3 from MSP2 gene is the most polymorphic to describe the diversity of parasite populations. The P. falciparum parasite population is often characterized by wide genetic diversity in areas of high transmission intensity. Therefore, the study on P. falciparum diversity is useful to describe the level of malaria transmission. The study of genetic diversity focused on clinical isolated species at Wamena General Hospital was aimed to determine the presence of the MSP2 gene, variety of MSP2 gene allele  and the dominant frequency of the MSP2 gene allele. This research has been carried out from March 2018 to February 2019 using a cross sectional approach. The research sample was taken and prepared from Wamena Regional Hospital and followed by the analyzing of DNA isolation, PCR, electrophoresis of the research samples was done at the genetic science laboratory in Jakarta, Indonesia. The samples studied were patients who met the inclusion criteria, namely a single P. falciparum infection with an asexual parasite density >1000 parasites/µl or >3+ (1-10 P/Lp), and were agreed to become respondents by signing an informed consent. A total of 26 clinical isolates of P. falciparum were isolated with the MSP2 gene distribution on the FC27 allele with the highest as many as 25 samples (96.2%), 22 samples (84.6%) of the 3D7 / IC allele while the mixture of the two alleles was 22 samples (84.6%). From a total of 26 samples, there were samples with the male gender category counted for 77.3% and female 41%. The results of the identification of clinical isolated P. falciparum at Wamena Hospital with a total of 26 samples were found in productive age, between 15-34 years with a single allele (95.8%), while 23 cases and mix (both alleles 87.5%) about 21 cases, meanwhile in cases of before-productive age, in which ages were 12 and 14 years of age with a single allele 100% (FC27) 2 cases and 50% (3D7/IC) found to be 1 case, The mixture of the two alleles is 50% was only 1 case and there was no sample at non-productive age observed. Key words: Malaria; MSP-2; P. falciparum; Wamena

scholarly journals Genetic polymorphism of the N-terminal region in circumsporozoite surface protein of Plasmodium falciparum field isolates from Sudan

2019 ◽  
Vol 18 (1) ◽  
Author(s):  
Nouh S. Mohamed ◽  
Musab M. Ali Albsheer ◽  
Hanadi Abdelbagi ◽  
Emanuel E. Siddig ◽  
Mona A. Mohamed ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Plasmodium Falciparum ◽  
Balancing Selection ◽  
Pcr Amplification ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Molecular Study ◽  
Terminal Region ◽  
Sub Saharan Africa ◽  
Cross Sectional

Abstract Background Malaria caused by Plasmodium falciparum parasite is still known to be one of the most significant public health problems in sub-Saharan Africa. Genetic diversity of the Sudanese P. falciparum based on the diversity in the circumsporozoite surface protein (PfCSP) has not been previously studied. Therefore, this study aimed to investigate the genetic diversity of the N-terminal region of the pfcsp gene. Methods A cross-sectional molecular study was conducted; 50 blood samples have been analysed from different regions in Sudan. Patients were recruited from the health facilities of Khartoum, New Halfa, Red Sea, White Nile, Al Qadarif, Gezira, River Nile, and Ad Damazin during malaria transmission seasons between June to October and December to February 2017–2018. Microscopic and nested PCR was performed for detection of P. falciparum. Merozoite surface protein-1 was performed to differentiate single and multiple clonal infections. The N-terminal of the pfcsp gene has been sequenced using PCR-Sanger dideoxy method and analysed to sequences polymorphism including the numbers of haplotypes (H), segregating sites (S), haplotypes diversity (Hd) and the average number of nucleotide differences between two sequences (Pi) were obtained using the software DnaSP v5.10. As well as neutrality testing, Tajima’s D test, Fu and Li’s D and F statistics. Results PCR amplification resulted in 1200 bp of the pfcsp gene. Only 21 PCR products were successfully sequenced while 29 were presenting multiple clonal P. falciparum parasite were not sequenced. The analysis of the N-terminal region of the PfCSP amino acids sequence compared to the reference strains showed five different haplotypes. H1 consisted of 3D7, NF54, HB3 and 13 isolates of the Sudanese pfcsp. H2 comprised of 7G8, Dd2, MAD20, RO33, Wellcome strain, and 5 isolates of the Sudanese pfcsp. H3, H4, and H5 were found in 3 distinct isolates. Hd was 0.594 ± 0.065, and S was 12. The most common polymorphic site was A98G; other sites were D82Y, N83H, N83M, K85L, L86F, R87L, R87F, and A98S. Fu and Li’s D* test value was − 2.70818, Fu and Li’s F* test value was − 2.83907, indicating a role of negative balancing selection in the pfcsp N-terminal region. Analysis with the global pfcsp N-terminal regions showed the presence of 13 haplotypes. Haplotypes frequencies were 79.4%, 17.0%, 1.6% and 1.0% for H1, H2, H3 and H4, respectively. Remaining haplotypes frequency was 0.1% for each. Hd was 0.340 ± 0.017 with a Pi of 0.00485, S was 18 sites, and Pi was 0.00030. Amino acid polymorphisms identified in the N-terminal region of global pfcsp were present at eight positions (D82Y, N83H/M, K85L/T/N, L86F, R87L/F, A98G/V/S, D99G, and G100D). Conclusions Sudanese pfcsp N-terminal region was well-conserved with only a few polymorphic sites. Geographical distribution of genetic diversity showed high similarity to the African isolates, and this will help and contribute in the deployment of RTS,S, a PfCSP-based vaccine, in Sudan.

scholarly journals Low levels of Plasmodium falciparum genetic diversity in two Nigerian communities bordering the Niger River

2018 ◽  
Vol 1 (1) ◽  
Author(s):  
Joshua Idakwo ◽  
Emmanuel T. Idowu ◽  
Kolapo M. Oyebola ◽  
Olubunmi A. Otubanjo
Keyword(s):  
Genetic Diversity ◽  
Plasmodium Falciparum ◽  
Surface Protein ◽  
River Basins ◽  
Merozoite Surface Protein ◽  
North Central ◽  
Significant Difference ◽  
Polymerase Chain ◽  
Niger River ◽  
Parasite Populations

Introduction: Extensive genetic diversity of malaria parasites is a major draw back to ongoing control efforts. Population-specific investigation of genetic structure of the parasite is important for effective malaria intervention in endemic populations such as Nigeria where about one-third of the global burden of the disease is borne. This study describes the genetic diversity of Plasmodium falciparum isolates in the Niger River basins, North-Central Nigeria. Methodology: Parasite DNA w as extracted fr om finger -prick blood samples collected from eighty P. falciparum positive individuals. Polymerase Chain Reaction (PCR) genotyping was carried out to target K1, MAD20 and R033 allelic families of Merozoite Surface Protein (MSP) -1 gene and FC27 and 3D7 allelic families of MSP-2 gene. Results: Proportion of isolates with K1 family w as 28(70%) with two alleles in Idah and 16(40%) with two alleles in Ibaji. Proportion of isolates with MAD20 family was 8 (20%) and a total of two alleles were observed in Idah and 4(10%) with two alleles in Ibaji. RO33 proportion was 16 (40%) in Idah one allele and 8(20%) in Ibaji where the allelic family was also observed to be monomorphic. K1 was the most predominant MSP1 allele in the two parasite populations and the frequency of FC27 genotype was higher than 3D7 in both populations. Multiplicity of infection (Mol) with MSP-1 loci was higher in Ibaji (1.30) than Idah (1.05) while MoI with MSP-2 loci was lower in Ibaji (2.00) than Idah (2.13). However, there is no significant difference in the mean Mol between Idah and Ibaji (P > 0.05). The expected heterozygosity (HE) value was 0.56 for MSP-1 and 0.84 for MSP-2. Conclusion: Our findings revealed high levels of monoclonal infections with P. falciparum, suggesting low parasite diversity. This may be a pointer to a reduction in malaria transmission in the river basins.

scholarly journals Genetic diversity of Plasmodium falciparum in Grande Comore Island

2020 ◽  
Author(s):  
Nasserdine Papa Mze ◽  
Hervé Bogreau ◽  
Cyrille K. Diedhiou ◽  
Vendela Herdell ◽  
Silai Rahamatou ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Plasmodium Falciparum ◽  
Public Health Problem ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Malaria Prevalence ◽  
Grande Comore ◽  
Union Of The Comoros ◽  
Msp2 Gene ◽  
Msp1 Gene

Abstract Background Despite several control interventions resulting in a considerable decrease in malaria prevalence in the Union of the Comoros, the disease remains a public health problem with high transmission in Grand Comore compared to neighboring islands. In this country, only a few studies investigating the genetic diversity of Plasmodium falciparum have been performed so far. For this reason, this study aims to examine the genetic diversity of P. falciparum by studying samples collected in Grande Comore in 2012 and 2013, using merozoite surface protein 1 ( msp1 ), merozoite surface protein 2 ( msp2 ) and single nucleotide polymorphism (SNP) genetic markers. Methods A total of 151 positive rapid diagnostic test (RDT) samples from Grande Comore were used to extract parasite DNA. Allelic families K1, Mad20 and RO33 of the msp1 gene as well as allelic families IC3D7 and FC37 of the msp2 gene were determined by using nested PCR. Additionally, 50 out of 151 samples were genotyped to study 24 SNPs by using high resolution melting (HRM). Results Two allelic families were predominant, the K1 family of msp1 gene (55%) and the FC27 family of msp2 gene (47.4%). Among 50 samples genotyped for 24 SNPs, 42 (84%) yielded interpretable results. Out of these isolates, 36 (85%) were genetically unique and 6 (15%) grouped into two clusters. The genetic diversity of Plasmodium falciparum calculated from msp gene ( msp1 and msp 2) and SNPs was 0.82 and 0.6 respectively. Conclusion In summary, a large genetic diversity of P. falciparum was observed in Grande Comore. This may favor persistence of malaria, and might be one of the reasons for the high malaria transmission compared to neighboring islands. Further surveillance of P. falciparum isolates, mainly through environmental management / vector control, is warranted until complete elimination is attained.

scholarly journals Allelic diversity of MSP1 and MSP2 repeat loci correlate with levels of malaria endemicity in Senegal and Nigerian populations

2021 ◽  
Vol 20 (1) ◽  
Author(s):  
Mary A. Oboh ◽  
Tolla Ndiaye ◽  
Khadim Diongue ◽  
Yaye D. Ndiaye ◽  
Mouhamad Sy ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Allelic Diversity ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Population Diversity ◽  
Allelic Polymorphism ◽  
Low Genetic Diversity ◽  
Study Sites ◽  
Infection Types ◽  
Parasite Populations

Abstract Background Characterizing the genetic diversity of malaria parasite populations in different endemic settings (from low to high) could be helpful in determining the effectiveness of malaria interventions. This study compared Plasmodium falciparum parasite population diversity from two sites with low (pre-elimination) and high transmission in Senegal and Nigeria, respectively. Methods Parasite genomic DNA was extracted from 187 dried blood spot collected from confirmed uncomplicated P. falciparum malaria infected patients in Senegal (94) and Nigeria (93). Allelic polymorphism at merozoite surface protein 1 (msp1) and merozoite surface protein- 2 (msp2) genes were assessed by nested PCR. Results The most frequent msp1 and msp2 allelic families are the K1 and IC3D7 allelotypes in both Senegal and Nigeria. Multiplicity of infection (MOI) of greater that 1 and thus complex infections was common in both study sites in Senegal (Thies:1.51/2.53; Kedougou:2.2/2.0 for msp1/2) than in Nigeria (Gbagada: 1.39/1.96; Oredo: 1.35/1.75]). The heterozygosity of msp1 gene was higher in P. falciparum isolates from Senegal (Thies: 0.62; Kedougou: 0.53) than isolates from Nigeria (Gbagada: 0.55; Oredo: 0.50). In Senegal, K1 alleles was associated with heavy than with moderate parasite density. Meanwhile, equal proportions of K1 were observed in both heavy and moderate infection types in Nigeria. The IC3D7 subtype allele of the msp2 family was the most frequent in heavily parasitaemic individuals from both countries than in the moderately infected participants. Conclusion The unexpectedly low genetic diversity of infections high endemic Nigerian setting compared to the low endemic settings in Senegal is suggestive of possible epidemic outbreak in Nigeria.

scholarly journals PvMSP8 as a Novel Plasmodium vivax Malaria Sero-Marker for the Peruvian Amazon

Pathogens ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 282
Author(s):  
Elizabeth Villasis ◽  
Katherine Garro ◽  
Angel Rosas-Aguirre ◽  
Pamela Rodriguez ◽  
Jason Rosado ◽  
...  
Keyword(s):  
Plasmodium Vivax ◽  
Area Under The Curve ◽  
Surface Protein ◽  
Merozoite Surface Protein ◽  
Population Based ◽  
Peruvian Amazon ◽  
Cross Sectional Survey ◽  
Cross Sectional ◽  
Malaria Exposure ◽  
Plasmodium Vivax Malaria

The measurement of recent malaria exposure can support malaria control efforts. This study evaluated serological responses to an in-house Plasmodium vivax Merozoite Surface Protein 8 (PvMSP8) expressed in a Baculovirus system as sero-marker of recent exposure to P. vivax (Pv) in the Peruvian Amazon. In a first evaluation, IgGs against PvMSP8 and PvMSP10 proteins were measured by Luminex in a cohort of 422 Amazonian individuals with known history of Pv exposure (monthly data of infection status by qPCR and/or microscopy over five months). Both serological responses were able to discriminate between exposed and non-exposed individuals in a good manner, with slightly higher performance of anti-PvMSP10 IgGs (area under the curve AUC = 0.78 [95% CI = 0.72–0.83]) than anti-PvMSP8 IgGs (AUC = 0.72 [95% CI = 0.67–0.78]) (p = 0.01). In a second evaluation, the analysis by ELISA of 1251 plasma samples, collected during a population-based cross-sectional survey, confirmed the good performance of anti-PvMSP8 IgGs for discriminating between individuals with Pv infection at the time of survey and/or with antecedent of Pv in the past month (AUC = 0.79 [95% CI = 0.74–0.83]). Anti-PvMSP8 IgG antibodies can be considered as a good biomarker of recent Pv exposure in low-moderate transmission settings of the Peruvian Amazon.

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