Oral artesunate prevents Plasmodium berghei Anka infection in mice

Artesunate, a semi-synthetic derivative of a naturally occurring anti-malarial artemisinin was compared with chloroquine in C57BL/6 mice infected with Plasmodium berghei Anka (PbA). A 7-day oral administration of artesunate prevented parasitaemia at 10 mg/kg/day. However, recrudescence of parasitaemia and cerebral malaria occurred upon cessation of treatment followed by death within 28 days. However, a 14-day course of artesunate (100 mg/kg/day) prevented completely the development of parasitaemia and cerebral malaria with a survival of more than 60-days as did 10 mg/kg/day chloroquine. These data demonstrate that oral artesunate inhibits PbA and prevents cerebral malaria, but needs to be administered at high dose and for prolonged time to eradicate PbA infection in mice.     

Artemisinin derivatives bearing Mannich base group: synthesis and antimalarial activity

Novel artemisinin derivatives bearing Mannich base group were prepared and tested for their antimalarial activity. These water-soluble artemisinin derivatives were more stable than sodium artesunate and few compounds were found to be more active against Plasmodium berghei in mice than artesunic acid by oral administration. Two most potent derivatives 17b and 17d were examined for their antimalarial activity against Plasmodium knowlesi in rhesus monkeys.     

Potent in vivo antimalarial activity of 3,15-di-O-acetylbruceolide against Plasmodium berghei infection in mice

The antimalarial activity of the O-acylated bruceolide derivative, 3,15-di-O-acetylbruceolide, was evaluated against Plasmodium berghei in vivo. The concentration of 3,15-di-O-acetylbruceolide required for 50% suppression (ED50) of P. berghei in mice was 0.46 +/- 0.06 mg/kg/day, whereas bruceolide was only half as effective as 3,15-di-O-acetylbruceolide. Two antimalarial drugs used clinically, chloroquine and artemisinin, demonstrated only low activity corresponding to 1/4 and 1/12 of the ED50 value of 3,15-di-O-acetylbruceolide, respectively. These results may be helpful in the design of better chemotherapeutic bruceolides against falciparum malaria.     

Selective accumulation of a novel antimalarial rhodacyanine derivative, SSJ-127, in an organelle of Plasmodium berghei

SSJ-127, a novel antimalarial rhodacyanine derivative, has shown potent antimalarial activity against chloroquine-resistant Plasmodium strains in vitro and subcutaneous administration of SSJ-127 results in a complete cure of a mouse malaria model. SSJ-127 was detected by fluorescence microscopy in the mouse malaria parasites Plasmodium berghei after exposure of infected red blood cells to the compound in vitro and in vivo. Selective accumulation of SSJ-127 in an organelle is observed in all blood stages of live malaria parasites. The organelle is clearly different from the mitochondrion and the nucleus in terms of morphology. The shape of the organelle changed during the asexual blood stages of the parasite. There was always a close association between the organelle and the mitochondrion. These results raised the possibility that SSJ-127 accumulates in an apicoplast of the malaria parasite and affects protozoan parasite-specific pathways.     

Fansidar prophylaxis, therapy, and immune responses in rodent malaria (Plasmodium berghei)

In order to determine the effect of Fansidar on plasmodial infection in mice, outbred, adult, Swiss-Webster mice were treated with Fansidar (20 mg sulfadoxine and 1 mg pyrimethamine/kg body weight) at various intervals before and/or after inoculation with blood stages of Plasmodium berghei. Drug therapy resulted in cure if it was given before the parasitemia rose to 53%. Oral administration of Fansidar was more effective in reducing or preventing parasitemia than intramuscular injection. Fatal infections were prevented if mice were treated orally with one dose of Fansidar 2 days before inoculation with P. berghei, whereas only partial protection occurred in animals treated 4 or more days before inoculation. Fansidar administered on two consecutive days provided protection if the drug was given at 3 and 2 days before inoculation. Administration of Fansidar for three consecutive days protected all animals if given on days 8 to 6 before inoculation. After oral administration of Fansidar, the parasitemia dropped dramatically and was undetectable at 60 hr. At 12 hr after oral treatment, schizonts and trophozoites were numerous, but there were few merozoites. Schizonts were the predominant stage at 24 hr, whereas merozoites predominated at 36 hr. Swiss-Webster and C57BL/6 mice became immune to a lethal dose of P. berghei after 4 cycles of inoculation and drug cure. Protective immunity was still present at 472 days after the fifth parasite inoculation.     

Protection of mice against plasmodium and babesia infections: attempts to raise host-protective sera.

In an attempt to generate large numbers of mice resistant to Plasmodium berghei and Babesia rodhaini to be used as donors of antibody-secreting cells for hybridoma production, various methods of inducing resistance to repeated challenge with infected blood cells have been explored. Although results of independent experiments varied markedly, prior injection of CBA/M mice with BCG, and prior infection of BALB/c mice with Plasmodium yoelii, were found to be manipulations capable of inducing resistance to P. berghei. A single dose of serum, harvested from resistant mice challenged several times with P. berghei, could transfer resistance against P. berghei to a proportion of naive CBA/H recipients. Although resistance to multiple B. rodhaini challenge could be induced in mice, in no situation was a host protective effect of a single high dose of serum demonstrated in naive recipients.     

Antimalarial iron chelator, FBS0701, shows asexual and gametocyte Plasmodium falciparum activity and single oral dose cure in a murine malaria model

Iron chelators for the treatment of malaria have proven therapeutic activity in vitro and in vivo in both humans and mice, but their clinical use is limited by the unsuitable absorption and pharmacokinetic properties of the few available iron chelators. FBS0701, (S)3"-(HO)-desazadesferrithiocin-polyether [DADFT-PE], is an oral iron chelator currently in Phase 2 human studies for the treatment of transfusional iron overload. The drug has very favorable absorption and pharmacokinetic properties allowing for once-daily use to deplete circulating free iron with human plasma concentrations in the high μM range. Here we show that FBS0701 has inhibition concentration 50% (IC(50)) of 6 μM for Plasmodium falciparum in contrast to the IC(50) for deferiprone and deferoxamine at 15 and 30 μM respectively. In combination, FBS0701 interfered with artemisinin parasite inhibition and was additive with chloroquine or quinine parasite inhibition. FBS0701 killed early stage P. falciparum gametocytes. In the P. berghei Thompson suppression test, a single dose of 100 mg/kg reduced day three parasitemia and prolonged survival, but did not cure mice. Treatment with a single oral dose of 100 mg/kg one day after infection with 10 million lethal P. yoelii 17XL cured all the mice. Pretreatment of mice with a single oral dose of FBS0701 seven days or one day before resulted in the cure of some mice. Plasma exposures and other pharmacokinetics parameters in mice of the 100 mg/kg dose are similar to a 3 mg/kg dose in humans. In conclusion, FBS0701 demonstrates a single oral dose cure of the lethal P. yoelii model. Significantly, this effect persists after the chelator has cleared from plasma. FBS0701 was demonstrated to remove labile iron from erythrocytes as well as enter erythrocytes to chelate iron. FBS0701 may find clinically utility as monotherapy, a malarial prophylactic or, more likely, in combination with other antimalarials.     

乙醇对五步蛇（Agkistrodonacutus）毒毒性的影响

目的为了探索乙醇对五步蛇毒毒性的影响。方法将五步蛇毒不同浓度致死量经不同浓度乙醇体外处理后,选择小白鼠分别给予皮下注射、口服,并将致死量蛇毒于小白鼠皮下注射后立即于局部注射乙醇,观察蛇毒毒性情况。结果使用乙醇体外处理后的五步蛇毒毒性明显下降,小白鼠经皮下注射致死量五步蛇毒后立即在局部注射50％异蛇米酒或75％乙醇0．1～0．2ml有一定的保护作用,口服20倍致死量五步蛇毒未发现有毒性表现。结论五步蛇毒体外经过乙醇处理后毒性明显下降。口服五步蛇毒是安全的。蛇毒进入皮下后立即用乙醇处理有一定的治疗效果。     

Synthesis and biological screening of some pyridine derivatives as anti-malarial agents

Two series of pyridine derivatives were synthesised and evaluated for their in vivo anti-malarial activity against Plasmodium berghei. The anti-malarial activity was determined in vivo by applying 4-day standard suppressive test using chloroquine (CQ)-sensitive P. berghei ANKA strain-infected mice. Compounds 2a, 2g and 2h showed inhibition of the parasite multiplication by 90, 91 and 80%, respectively, at a dose level of 50 μmol/kg. Moreover, The most active compounds (2a, 2g and 2h) were tested in vitro against CQ-resistant Plasmodium falciparum RKL9 strains where compound 2g showed promising activity with IC(50)?=?0.0402 μM. The compounds were non-toxic at 300 and 100?mg/kg through the oral and parenteral routes, respectively. The docking pose of the most active compounds (2a, 2g and 2h) in the active site of dihydrofolate reductase enzyme revealed several hydrogen and hydrophobic interactions that contribute to the observed anti-malarial activities.     

Semisynthetic modifications of hemiaminal function at ornithine unit of mulundocandin, towards chemical stability and antifungal activity

Mulundocandin (1), is an echinocandin class of lipopeptide. It has wide spectrum of antifungal activity against Candida and Aspergillus species. Semisynthetic modification at Ornithine-5-hydroxyl (hemiaminal function) of 1 was carried out to improve solution stability and hence in vivo activity. Synthesis of ether (C-OR), thioether (C-SR) and C-N linkage at hemiaminal function have been described. All synthetic analogues were evaluated for their stability in aqueous solution and found to be more stable than mulundocandin. Antifungal activity of Orn-5 analogues was evaluated both in vitro against Candida albicans and Aspergillus fumigatus by agar well method and in vivo (oral and intraperitoneal) in C. albicans infected Swiss mice. Results of in vivo assays of analogues 2-9 by the oral route suggests that the introduction of either oxygen nucleophiles (-OR) or sulphur nucleophiles (-SR), at either Orn-5 or at both Orn-5 and HTyr-4 positions, results in retaining the activity of the parent compound with improved aqueous stability in most cases. Compound 9 has shown improved antifungal activity in comparison to mulundocandin by oral application in Swiss mice.     

Curcumin for malaria therapy

Malaria remains a major global health concern. New, inexpensive, and effective antimalarial agents are urgently needed. Here we show that curcumin, a polyphenolic organic molecule derived from turmeric, inhibits chloroquine-resistant Plasmodium falciparum growth in culture in a dose dependent manner with an IC(50) of approximately 5 microM. Additionally, oral administration of curcumin to mice infected with malaria parasite (Plasmodium berghei) reduces blood parasitemia by 80-90% and enhances their survival significantly. Thus, curcumin may represent a novel treatment for malarial infection.     

The antinociceptive effect and pharmacokinetics of olvanil following oral and subcutaneous dosing in the mouse

Mice were tested for response latency on a 55 degrees C hot plate after subcutaneous (S.C.) or oral administration of olvanil (dose level 200 and 300 mg/kg, respectively). Only the S.C. injection of olvanil produced antinociception. A pharmacokinetics experiment with radiolabeled olvanil (200 mg/kg) was conducted to determine whether this antinociception difference was related to a difference in plasma concentration of olvanil following the two routes of administration. The results indicate that concentrations of radioactivity (olvanil plus metabolites) in plasma reach a peak higher and faster after oral dosing than after S.C. injection. However, the area under the concentration-time curve (AUC) for recovery of radioactivity was slightly higher after the S.C. injection than after the oral dose of olvanil. In contrast, intact olvanil is barely measurable (10 to 30 ng/g) in plasma following an oral dose but is present in high concentration (100 to 2000 ng/g) following S.C. injection. The AUC for olvanil was also higher following a S.C. dose. These data indicate that olvanil fails to produce antinociception after oral dosing in mice not due to lack of absorption, but because it undergoes first pass metabolism.     

Plasmodium: assessment of the antimalarial potential of trifluralin and related compounds using a rat model of malaria,Rattus norvegicus

A rodent model of malaria, Plasmodium berghei was used to assess the antimalarial potential of dinitroaniline herbicides. Trifluralin, pendimethalin, oryzalin, and benfluralin were all active against P. berghei in vitro at, or close to, submicromolar concentrations, with a rank order of potency similar to that against other protozoa. The dinitroanilines did not elicit a cytotoxic effect against a mammalian cell line at concentrations 100-fold higher than those for activity against P. berghei. Neither trifluralin nor oryzalin exhibited any antimalarial activity in vivo after oral administration at the maximum dose tolerated by the host. In a pharmacokinetic study, it was found that the lack of in vivo antimalarial activity was due to poor absorption. Other DNs which have better absorption characteristics than either trifluralin or oryzalin may offer more scope for antimalarial activity in vivo.     

环磷酰胺诱导小鼠血小板减少症模型的建立(英文）

比较由环磷酰胺两种不同给药方式诱导小鼠血小板减少症模型的效果,并对效果较稳定的一种给药方式进行最佳造模剂量摸索,以期确定一个造模效果较好,毒副作用较低,利于观察治疗药物疗效的血小板减少症模型。模型A组,第1天尾静脉注射环磷酰胺200 mg/kg,然后连续6 d,每天1次以维持剂量30 mg/kg腹腔注射环磷酰胺。模型B组,按150 mg/kg皮下注射环磷酰胺,每天1次,连续3 d。结果显示模型B组造模效果较好,故以模型B组给药方法进行剂量摸索实验。由第7天的血小板计数可知环磷酰胺低（100 mg/kg）、中（120 mg/kg）、高（140 mg/kg）剂量均可引起血小板减少症,而低剂量组与其他组比较有高效低毒的特点,更有利于观察治疗药物的作用,可用于具有升血小板作用药物的药效学研究     

Synthesis, antimalarial, antileishmanial, and antimicrobial activities of some 8-quinolinamine analogues

In the present communication, newly synthesized 8-quinolinamines (25-27) related to previously reported 2-tert-butylprimaquine (2) were evaluated for their in vitro antimalarial activity against chloroquine sensitive and resistant Plasmodium falciparum strains, in vivo antimalarial activity against P. berghei infected mice, in vitro antileishmanial activity against Leishmania donovani, in vitro antimicrobial activity against various fungi and bacteria, and cytotoxicity in a panel of mammalian cell lines. No promising cytotoxicities were observed for compounds reported herein. Analogue 25 was found to exhibit curative antimalarial activity at a dose of 25 mg/kg/dayx4 in a P. berghei infected mice model, and produced suppressive activity at a lower dose of 10 mg/kg/dayx4. In vitro antileishmanial activities (IC50 and IC90) comparable to standard drug pentamidine were exhibited by all synthesized 8-quinolinamines 25-27. At the same time, promising antibacterial and antifungal activities were also observed for synthesized compounds against a panel consisting of several bacteria and fungi.     

Antimalarial t-butylperoxyamines

Twelve t-butylperoxyamines (6-17) were synthesized as targeted antimalarials and evaluated for antimalarial activity in vivo against Plasmodium berghei in mice and in vitro against both chloroquine sensitive and chloroquine resistant strains of Plasmodium falciparum. Compound 8 was found to have highest potency with activity at 80 and 160mg/kg dose in vivo and compound 11 exhibited highest efficacy in vitro.     

Benzothiophene carboxamide derivatives as novel antimalarials

Bromo-benzothiophene carboxamide derivatives have been shown in the preceding article to inhibit Plasmodium falciparum Enoyl-ACP reductase. Here, we report bromo-benzothiophene carboxamide derivatives as potent inhibitors of Plasmodium asexual blood-stages in vitro as well as in vivo in the mouse model. These compounds specifically impair the development of metabolically active trophozoite stage of intraerythrocytic cycle and the intravenous administration of 3-bromo-N-(4-fluorobenzyl)-benzo[b]thiophene-2-carboxamide (compound 6) enhances the longevity of P. berghei infected mice by 2 weeks compared to disease control animals thereby preventing the onset of ataxia and convulsions in treated mice. These compounds thus hold promise for the development of potent antimalarials.     

Dihydroartemisinin regulates the immune system by promotion of CD8~+ T lymphocytes and suppression of B cell responses

Artemisia annua is an anti-fever herbal medicine first described in traditional Chinese medicine 1,000 years ago. Artemisinin,the extract of A. annua, and its derivatives(dihydroartemisinin(DHA), artemether, and artesunate) have been used for the treatment of malaria with substantial efficacy. Recently, DHA has also been tested for the treatment of lupus erythematosus,indicating that it may function to balance the immune response in immunocompromised individuals. In the present study, the regulatory effect of artemisinin on the murine immune system was systematically investigated in mice infected with two different protozoan parasites(Toxoplasma gondii and Plasmodium berghei). Our results revealed that the mouse spleen index significantly increased(spleen enlargement) in the healthy mice after DHA administration primarily due to the generation of an extra number of lymphocytes and CD8~+ T lymphocytes in both the spleen and circulation. DHA could increase the proportion of T helper cells and CD8~+ T cells, as well as decrease the number of splenic and circulatory B cells. Further, DHA could reduce the production of proinflammatory cytokines. Our study revealed that apart from their anti-parasitic activity, artemisinin and its derivatives can also actively modulate the immune system to directly benefit the host.     

Acyloxyalkyl ester prodrugs of FR900098 with improved in vivo anti-malarial activity

FR900098 represents an improved derivative of the new antimalarial drug fosmidomycin and acts through inhibition of the 1-deoxy-D-xylulose 5-phosphate (DOXP) reductoisomerase, an essential enzyme of the mevalonate independent pathway of isoprenoid biosynthesis. Prodrugs with increased activity after oral administration were obtained by chemical modification of the phosphonate moiety to yield acyloxyalkyl esters. The most successful compound demonstrated 2-fold increased activity in mice infected with the rodent malaria parasite Plasmodium vinckei.     

Oral absorption and excretion of icaritin, an aglycone and also active metabolite of prenylflavonoids from the Chinese medicine Herba Epimedii in rats

Icaritin (ICT) is a main aglycone and also active intestinal metabolite of prenylflavonoids from the Chinese medicine Herba Epimedii. In the present study, the oral absorption and excretion of this compound was investigated using rats for exploring its fate in the body, so as to better understanding its in vivo pharmacological activities. The free (parent) and total (parent plus conjugated metabolites) ICT concentrations in rat plasma, urine and bile, after intravenous (i.v.) and oral administration both at 5mg/kg, were determined before and after enzymatic hydrolysis with β-glucuronidase/sulphatase, respectively, by a HPLC-UV method. The results showed that free ICT plasma concentration after i.v. dose was rapidly decreased with average t(1/2, λ) of 0.43h, while the total ICT concentration was decreased slowly with t(1/2, λ) of 6.86h. The area under the curve of ICT conjugated metabolites was about 11-fold higher than that of free ICT. The majority of ICT in the body was excreted from the bile with 68.05% of dose over 8h after i.v. dosing, in which only 0.15% was in parent form. While very little amount of ICT was excreted from the urine with 3.01% of dose over 24h, in which the parent form was 0.62%. After oral administration, very little amount of parent ICT was detected only in 0.5, 1 or 2h plasma samples with the concentration less than LOQ, however, its total plasma concentration after enzymatic hydrolysis treatment was at relative high level with average maximum concentration of 0.49μg/ml achieved at 1h post dose. The oral bioavailability of ICT was 35% of dose, estimated by its total plasma drug concentrations. It is concluded that ICT can be easily absorbed into the body, and then rapidly conversed to its conjugated metabolites, and finally removed from the body mainly by biliary excretion.