Assessment and characterization of Ca2+-ATPase expression in selected isolates and clones of Plasmodium falciparum.

Ca2+-ATPase expression in 15 selected isolates from malaria patients at the University College Hospital (UCH) Ibadan and two cloned strains (W2-chloroquine resistant, D6-chloroquine sensitive) of P.falciparum was assessed using spectrophotometric assay method. The kinetics of activity of Ca2+- ATPase in three isolates (NCP 14, NCP5, NCP1) and two clones (W2, D6) also assessed. 12% SDS-PAGE analysis of total proteins in one isolate (NCP14) and two clones (W2, D6) was also investigated. All the selected isolates and the two cloned strains exhibited measurable Ca2+-ATPase activity. The Ca2+-ATPase activity in cloned strain D6 (6.50 + 0.74mmolPi/min/mg protein) was higher than in cloned strain W2 (3.93 + 0.61mmolPi/min/mg protein. The Ca2+-ATPase activity in isolates from malaria patients varied widely (1.95 + 0.74 - 21.56 +1.43mmolPi/min/mg protein). The kinetic constants obtained for the two cloned strains showed that clone W2 had a higher Vmax (Vmax = 363mmolPi/min/mg protein) than clone D6 (Vmax = 74mmolPi/min/mg protein). All the isolates and the two cloned strains showed similar affinity for ATP (Km ~ 10mM). Scan of SDS-PAGE gel of total proteins in the isolate and cloned strains showed the presence of oligopeptide bands of molecular weights range of 148-176 kDa; 116-123 kDa respectively. These suggest the presence of predicted polypeptide of Ca2+-ATPase nature of molecular weight estimate of 139 kDa. The study agrees with previous findings that Ca2+-ATPase is functionally expressed in P.falciparum, The study also indicates that Ca2+-ATPase functional expression may vary with isolate or clone but the ATP binding mechanism to the enzyme is similar in all isolates and clones of P. falciparum. The study further suggests a possible association between acquisition of chloroquine resistance and Ca2+-ATPase functional expression in P. falciparum.

Therapeutic effects of various solvent fractions of Alstonia boonei (apocynaceae) stem bark on Plasmodium berghei-induced malaria.

Malaria, the most important parasitic disease afflicting man is the leading cause of mortality and morbidity in the world. Chemotherapy remains the mainstay for the treatment and prevention of the disease in the absence of an effective vaccine. The incidence of resistance of malaria parasites to chemotherapy is increasing and complicated. This study was therefore undertaken in order to evaluate the therapeutic effects of fractions of the stem bark of A. boonei on P. berghei-induced malaria using chloroquine as control. Different doses (200 mg/kg and 400 mg/kg body weight) of methanolic extract (ME), n-hexane (HF), chloroform (CF), ethylacetate(EF) and aqueous (AF) fractions of the stem bark of A. boonei were administered orally to albino mice. Five milligrammes chloroquine base per kilogramme body weight (5 mg/kg bw) was used as positive control while the negative control mice received only the vehicle (5% v/v tween 80). The results obtained showed that the 400 mg/kg bw dose was more effective with respect to the parasite clearance than the 200 mg/kg bw dose. The 400 mg/kg bw dose of ME gave 68.1% percent parasite clearance. The CF gave the highest clearance of 98.4% at 400 mg/kg bw after 7 days treatment while chloroquine at 5 mg/kg bw gave 100% parasite clearance. The order of increasing potency of the fractions (parasite clearance) was (EF 50.0% < AF 60.3% < HF 63.1%, < CF 98.4%) indicating that the active principle in the stem bark was highest in the CF. Percentage parasitemia following exposure to these fractions also decreased in all groups in the same order and was only significant (p < 0.05) in CF (0.11%) compared to the untreated control group. The ME of A. boonei also caused increase in PCV by 15.5%. Purification enhanced PCV value as the HF and CF fractions gave 19.0% and 24.5% increases, respectively. However, 31.5% increase in PCV was obtained in the albino mice treated with chloroquine. The EF and AF gave increase of 10.0% and 11.0% increase relative to the negative control treated mice. The high bioactivity of CF and HF indicate that the putative compound(s) in A. boonei are lipophillic and further purification could enhance greater activity. Further work is required to isolate the bioactive compound for a promising antimalarial drug from the chloroform fraction.

Effect of chloroquine phosphate and toxic concentrations of lead acetate on Ca2+-ATPase activity in isolates and clones of Plasmodium falciparum.

The basal activity of Ca2+-ATPase in two isolates (NL56, UNC) and two clones (D6, W2) of P.falciparum was assessed. The effects of various concentrations of chloroquine phosphate and toxic concentrations of lead acetate were also evaluated in the clones and strains of P.falciparum. The Ca2+-ATPase activity was measured by monitoring the rate of release of inorganic phosphate from the gamma-position of ATP on spectrophotometer at 820nm wavelength. The various concentrations of chloroquine (3, 6, 9, 12, 18µg/ml) and lead acetate (5, 10, 20, 30, 40µg/ml) on Ca2+-ATPase activity were measured respectively. Chloroquine phosphate inhibited Ca2+-ATPase activity in both the isolates and the cloned strains of P.falciparum in concentration dependent manner. Median Inhibitory concentration of chloroquine (MIC50) estimated from the plot of activity against chloroquine concentration was found to be 2.6mg/ml at pH 7.4 for both the isolates and cloned strains examined. Lead acetate at concentrations 5-20µg/ml inhibited Ca2+-ATPase activity in concentration dependent manner in clone W2 (Chloroquine resistant strain) while the same range of concentrations of lead acetate stimulated the activity of the enzyme in clone D6 (Chloroquine sensitive strain).The inhibitory effect of lead acetate on the enzyme in clone D6 was observed at concentrations above 20µg/ml. The result also suggests that lead ions could modulate and moderate calcium ion homeostasis in P. falciparum via its effect on Ca2+-ATPase activity. Also sufficient influx of lead ions into P. falciparum may transform the biochemical or bioenergetics nature of chloroquine sensitive strain of P. falciparum (D6) to that similar to chloroquine resistant strain (W2). In conclusion, inhibition of Ca2+-ATPase activity of P.falciparum may be part of the mechanism of action of chloroquine in its use as chemotherapy for malaria. The study implies that populations simultaneously exposed to lead pollution and malaria infection may experience failure in chloroquine therapy.

Modulating effect of aqueous extract of Telfairia occidentalis on induced cyanide toxicity in rats.

The effect of lyophilised aqueous extract of Telfairia occidentalis (TO) on induced cyanide toxicity in rats was investigated. Twenty 3-week old male wistar albino rats were randomly distributed into one control and three treatment groups of five rats each: control group (group1), group treated with 3mg/kg body wt of cyanide only (group2), group treated with 3mg/kg body wt. each of cyanide and extract (group3), and a group treated with 3mg/kg Body wt of extract only (group4) were used for the investigation. Cyanide toxicity reduced both food and water intake (p<0.05), while the food intake was improved in group3, this effect of the extract on food was not observed on water intake. Cyanide reduced average body weight of rats significantly (p<0.05). The reduction effect of cyanide on body weight was countered by Telfairia occidentalis extract. The extract did not have an observable effect on rats' body weight. Ocular lesion was observed in 67% of rats in group2 . This ocular effect of cyanide was mitigated significantly by Telfairia occidentalis as only 17% of the rats in group3 had ocular lesion. Cyanide toxicity produced nasal discharge in 39% of the rat population in group2 while there was a partial but considerable reduction (21%) in the severity of nasal discharge in group 3. There was no significant difference (p>0.05) in the organ/body wt.ratio between the treatments and the control groups for all the organs examined in the study. Biochemical analysis of liver enzymes showed that cyanide (group2) damaged the liver as there was significantly elevated presence (p<0.05) of Aspartate aminotransferase (AST) and Alanine aminotransferase (ALP) above those of the control group. The damaging effect of cyanide on the liver was ameliorated by Telfairia occidentalis considerably.Histopathological effect of cyanide toxicity on the organs examined included multifocal degeneration and necrosis of the liver, mild kidney congestion and congestion of the brain. These effects were moderated mildly by Telfairia occidentalis. Group 4, treated with the vegetable alone had none of the observed histopathology in the organs examined. We concluded that lyophilised aqueous extracts of Telfairia occidentalis showed good potential as a safe antidote for cyanide poisoning when administered concomitantly or very shortly after ingestion of sub-lethal dose of cyanide. However, further bioassay guided fractionation and analytical studies are needed to identify the actual chemical compound or molecule in the vegetable responsible for or associated with the observed effects.

Linkage disequilibrium between two distinct loci in chromosomes 5 and 7 of Plasmodium falciparum and in vivo chloroquine resistance in Southwest Nigeria.

Chloroquine (CQ) resistance in Plasmodium falciparum is associated with polymorphisms in loci on pfcrt and pfmdr1 genes. In this study, we determined the association and linkage disequilibrium between in vivo CQ resistance and P. falciparum polymorphisms in pfcrt gene at codon 76 and pfmdr1 gene at codon 86 in isolates obtained from 111 children with acute uncomplicated falciparum malaria in Nigeria. Patients were treated with standard dosage of CQ and followed up for 28 days. Filter paper samples were collected at enrollment and during follow-up for parasites genotypes and identification of pfcrt and pfmdr1 mutations. Association and linkage disequilibrium between mutant pfcrtT76 and pfmdr1Y86 alleles in pretreatment isolates of P. falciparum was determined. Fifty-five out of the 111 patients (49.5%) failed treatment. Single mutant pfcrtT76 or pfmdr1Y86 alleles were found in 55 out of 111 P. falciparum isolates screened at enrollment. Of these 55 isolates, the mutant pfcrtT76 and pfmdr1Y86 alleles were found in 84%. Both mutant pfcrtT76 (p=0.0196) and pfmdr1Y86 (p=0.000042) alleles were associated with in vivo CQ resistance. In addition, the mutant pfcrtT76 (p=0.047) and pfmdr1Y86 (p=0.006) alleles were significantly selected by CQ in patients who failed treatment. Association analysis between paired single alleles at pfcrt and pfmdr1 loci showed a significant association (p=0.0349 and chi(2)=4.45) between the pfcrt T76 allele on chromosome 7 and the pfmdr1Y86 allele on chromosome 5 and that these two mutant alleles were in linkage disequilibrium (p=0.000, D'=0.64, and r(2)=0.28). Considering the high level of CQ resistance and drug use in the study area, the observed linkage disequilibrium between the mutant pfcrtT76 and pfmdr1Y86 alleles is maintained epistatically through directional CQ selective pressure.

Association between mutations in Plasmodium falciparum chloroquine resistance transporter and P. falciparum multidrug resistance 1 genes and in vivo amodiaquine resistance in P. falciparum malaria-infected children in Nigeria.

This study investigated the association between Plasmodium falciparum chloroquine resistance transporter (pfcrt) T76 and P. falciparum multidrug resistance gene 1 (pfmdr1) Y86 alleles and in vivo amodiaquine (AQ) resistance, as well as the clearance of parasites harboring these two alleles in children treated with AQ in southwest Nigeria. One hundred one children with acute uncomplicated P. falciparum malaria infections were treated with the standard dosage of AQ and followed-up for 28 days. Blood samples were collected on filter paper samples at enrollment and during follow-up for identification of parasite genotypes and pfcrt and pfmdr1 mutations using polymerase chain reaction and restriction fragment length polymorphism approaches. Parasitologic assessment of response to treatment showed that 87% and 13% (RI) of patients were cured and failed treatment, respectively. Although infections in patients were polyclonal (as determined by merozoite surface protein 2 genotyping), the presence of both mutants pfcrtT76 and pfmdr1Y86 alleles in parasites is associated with in vivo AQ resistance (odds ratio = 7.58, 95% confidence interval = 1.58-36.25, P = 0.006) and is selected by the drug in children who failed AQ treatment. Treatment failure with the combination of mutant pfcrtT76 and pfmdr1Y86 alleles as well as the ability of patients to clear these resistant parasites is dependent on age, suggesting a critical role of host immunity in clearing AQ-resistant P. falciparum. The combination of mutant pfcrtT76 and pfmdr1Y86 alleles may be useful markers for monitoring the development and spread of AQ resistance, when combining this drug with other antimalarials for treatment of malaria in Africa.

Predictors of the failure of treatment with pyrimethamine-sulfadoxine in children with uncomplicated falciparum malaria.

The prevalence of pyrimethamine-sulfadoxine (PS)-resistant Plasmodium falciparum malaria has been increasing in sub-Saharan Africa or other parts of the world in the last one or two decades. The factors that identify children at risk of treatment failure after being given PS were evaluated in 291 children with acute, symptomatic, uncomplicated, P. falciparum malaria. The children took part in four antimalarial drug trials between July 1996 and July 2004 in a hyperendemic area of southwestern Nigeria. Following treatment, 64 (22%) of 291 children failed treatment by day 7 or 14. In a multivariate analysis, an age < or = 1.5 years (AOR=2.9, 95% CI 1.3-6.4, P = 0.009) and presence of fever (AOR = 3.3, 95% CI 1.28-7.14, P = 0.01) were independent predictors of the failure of treatment with PS at presentation. Following treatment, delay in parasite clearance >3 days (AOR = 2.56, CI 1.19-5.56, P = 0.016) was an independent predictor of the failure of treatment with PS. In addition, compared with the children who had no fever then, children with fever three or more days after starting treatment were more likely to be treatment failures. These findings may have implications for malaria control efforts in some sub-Saharan African countries where treatment of malaria disease depends almost entirely on PS monotherapy, and for programmes employing PS or PS-based combination therapy.

Efficacy of herbal remedies used by herbalists in Oyo State Nigeria for treatment of Plasmodium falciparum infections--a survey and an observation.

In the course of evaluating the contribution of phytomedicine to possible drug discovery of antimalarial drugs, an ethnomedical survey of specialized children traditional clinics was done. In the observational multi center study, efficacy of eight different herbal remedies, each consisting of 3-8 ingredients and administered by herbalists were investigated in clients enrolled in the six traditional clinics in Oyo (urban center) and Otu (rural center) of Oyo State, Nigeria. The clients, aged between six months and fifteen years with clinical symptoms of malaria were enrolled in the clinics of the herbalists, as their usual practice. Oral informed consents were obtained from their parents or guardians. Microscopic diagnosis of malaria infection was used to evaluate parasitaemia and validate efficacy of herbal remedies. Results of the analysis showed that, of the 163 clients of the herbalists, only 62 (30 from Oyo, 32 from Otu) had microscopically confirmed P. falciparum infection. Only results from 54 clients (29/30 (Oyo) and 25/32 (Otu) with P. falciparum infection could be evaluated. Plasmodium falciparum infection in 88% (23/29) of clients from Oyo responded to treatment with the herbal remedies while cure rate in clients from Otu was 42% (13/25). Parasite densities ranged from 171 to 53,613 parasites/microl blood and 87 to 36,209 parasites/microl blood in patients from Oyo and Otu respectively. The herbalists administered the remedies and Gossypium arboreum, Anarcadium occidentalis, Citrus medica, Phyllanthus amarus and Lippia multiflora were the main ingredients in the efficacious remedies. The herbalists gave detailed descriptions of each of the 8 herbal remedies proffered. The results confirm the efficacy of two of the eight herbal remedies, thereby validating the role of ethnomedicine as a possible source for the discovery of new chemotherapeutic agents in the treatment of P. falciparum malaria.

Cultural categorization of febrile illnesses in correlation with herbal remedies used for treatment in Southwestern Nigeria.

The ethnographic study was conducted in two communities in Oyo State in Southwestern Nigeria. The study sites consisted of a rural and an urban local government area located in the tropical rain forest zone of Nigeria. The study was designed to obtain information on febrile illnesses and herbal remedies for treatment with the aim of identifying potential antimalarial drugs. The study revealed that fever is a general term for describing illnesses associated with elevated body temperature. The indigenous Yoruba ethnic population has categorized fever based on symptoms and causes. The present communication is the result of focus group discussion and semi-structured questionnaire administered to traditional healers, herb sellers, elders and mothers. This was on types of fevers, symptoms and causes of febrile illnesses. The investigation also included use of traditional herbs in the prevention and treatment of the illnesses in the two communities.A total of 514 respondents were interviewed. This was made up of 266 (51.8%) from Atiba local government area (LGA), an urban centre while 248 (48.2%) respondents were interviewed from Itesiwaju LGA, a rural community. The LGAs are located in Oyo State of Nigeria. The respondents proffered 12 types of febrile illnesses in a multiple response answering system in Yoruba language. The most common ones (direct translation into English) were: yellow fever (39.1%), typhoid (34.8%), ordinary (28.8%), rainy season (20.8%) and headache (10.5%) fevers, respectively. Perceived causes of each of the febrile illnesses included stress, mosquito bites, unclean water, rains and over exposure to the sun. Methods of fever prevention were mainly with the use of herbal decoctions, powdered herbs, orthodox medications and maintenance of proper hygiene. Of a total of 112 different herbal remedies used in the treatment of the febrile illnesses compiled from the study, 25 recipes are presented. Recipes consisted of 2-7 ingredients. Oral decoctions (84%), oral powders (63%), use as soaps and creams (40%) in a multiple response system, were the most prevalent routes of administration of prepared herbs used in the treatment of the fevers. Boiling in water or alcohol was the most common method used in the preparation of the remedies. The four most frequently mentioned (multiple response system) plants in the Southwest ethnobotany for fevers were Azadirachta indica (87.5%), Mangifera indica (75.0%), Morinda lucida (68.8%) and Citrus medica (68.8%).