New Glycine derived peptides bearing benzenesulphonamide as antiplasmodial agent

Background : In the tropics, malaria is among the most serious infections disease in developing countries. The discovery of artemesinin antimalarial drug not too long ago was a major breakthrough in effort to combat malaria disease. However, recent reports of resistance even to combination therapy involving artemisinin are very worrisome and have led to search for new chemical agents to sustain the �ght against malaria. Carboxamide functionality has been shown as an important pharmacophore in over 25 % of commercial chemotherapeutic agents. Method : Three benzensulphonamides ( 3a-c ) were prepared from the reaction of appropriate benzensulphonyl chloride ( 1a-c ) and alanine ( 2 ) in aqueous basic medium. Eight tert-butylamino-oxo-ethylcarbamates ( 5a-h ) were also prepared from reacting commercially available boc-glycine( 4 ) and different amines using peptide coupling reagents such as 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride (EDC), 1-hydroxybenzotriazole (HOBt), with triethyl amine and dichloromethane (DCM) as solvents. The target compounds were prepared by reacting compounds ( 3a-c ) with compounds ( 5a-h ) in the presence of coupling reagents. The compounds were characterized and evaluated for their antiplasmodial activity Results : Computed molecular descriptors and assessed biochemical parameters showed that the compounds were drug-like and safe. All the compounds had favourable binding interaction with residues at PABA binding site of homology modeled P. falciparum dihydropteroate synthase and henceforward in vitro and in vivo antiplasmodial activities were evaluated. Compounds 7a-7x showed activity against the P. falciparum (W2 strain) at MIC values ranging from 3.52 to 0.09 µM. Moreover, seven of the compounds ( 7c , 7d , 7i , 7j , 7p , 7r and 7s ) showed better activity than quinine (MIC = 0.72 µM). In addition, 16 of the 24 compounds were found to clear more than 50 percent of P. berghei (NK-65 strain) from the blood of infected mice at 12 post-infection day. The percentages of parasites cleared by 20 mg/kg of the three most effective compounds ( 7g , 7n and 7r ) were 74.98, 74.98 and 74.07 respectively Conclusion : In coclusion, this class of glycine derived sulfonamides, especially 7r (MIC 0.71 µM), ability to clear 74.07 % of P. berghei from blood of infected mice at 20 mg/kg and interesting pharmacokinetic pro�le (MW = 430.31 Da, HBA = 7, HBD = 3, log P = 2.56, NRB = 9 and TPSA = 104.37 Å 2 ), could serve as leads in developing new antiplasmodial agent.


Introduction
Malaria is an infectious disease caused by protozoa of the genus Plasmodium and is transmitted to humans by the Anopheles mosquito.Since this malady is mainly present in tropical regions and primarily affects poor people in developing countries, its occurrence is often associated with socioeconomic problems. 1−4 In order to contain the epidemic, different technologies, methods and drugs are currently being used.−10 .However, even with these actions tests indicate a continuous increase in the resistance of the parasites 11 − 14 evidencing the urgent need for new drugs The prevalence of carboxamide in biological systems, pharmacologically active molecules and favourable properties of amides makes it one of the most popular and reliable functional group in organic chemistry. 15arboxamide functionality has been shown to appear in over 25% of commercial chemotherapeutic agents. 16This nding makes the amide bond a sort after bond in the design of new chemotherapeutic agents.Similarly, peptides are among the most versatile bioactive molecules and play crucial roles in the human body and other organisms. 17Sulphonamides are widely used in medicinal chemistry because of their low cost, low toxicity and excellent biological activity.Several analogues of sulphonamide have been reported as antimalarial agent.For example, sulfadoxine, sulfadiazine, and sulfalene are effective malaria drugs that possess sulphonamide groups attached to a heterocyclic ring.−25 Some of these studies involved the inhibition of folate metabolic enzymes that are crucial for the growth of the malaria parasite.Dihydropteroate synthase (dhps) is one of the essential enzymes in the folate metabolic pathway and has been well characterized to be the target of sulphonamide class of antimalarial drugs.Folic acid is itself not biologically active but its biological importance is due to tetrahydrofolate and other derivatives after its conversion to dihydrofolic acid in the liver 26 .The human body needs folate to synthesize DNA, repair DNA, methylate DNA as well as act as cofactor in certain biological reactions.Antifolate sulfa antimalarial drugs interfere with folate metabolism, a pathway essential to malaria parasite survival.Dihydrofolate reductase (DHFR) is an enzyme that reduces dihydrofolic acid to tetrahydrofolic acid, using NADPH as electron donor, which can be converted to the kinds of tetrahydrofolate cofactors used in1-carbon transfer chemistry.This enzyme is encoded by DHFR in humans.It is found in q11-q22 region of chromosome-5.Disruption of folate synthesis by DHFR and DHPS inhibitors leads to decreased levels of fully reduced tetrahydrofolate, a necessary cofactor in important one-carbon transfer reactions in the purine, pyrimidine, and amino acid biosynthetic pathways (Ferone, 1977).The lower levels of tetrahydrofolate result in decreased conversion of glycine to serine, reduced methionine synthesis, and lower thymidylate levels with a subsequent arrest of DNA replication 27 − 31 Some studies have linked point mutations in Plasmodium falciparum to sulfa drug resistance. 32,33e use of computational techniques has become rampant in drug design and discovery to bridge the high cost and time involved in experimental procedures.Moreover, increasing similarity in results of computational and experimental methods, further presents the former as a good alternative to the later method.Although no drug molecule has moved from computer to market, the method has been employed at one point in the development of much food and drug agency (FDA) approved drugs.−35 We report herein the successful synthesis of twenty four new glycine derived sulfonamides that possessed fascinating antiplasmodial property that can become drug-lead in sustaining the ght against malaria.This work was designed based on the reported antimalarial properties of short peptide and benzenesulphonamides and the need to develop newer chemotherapeutic agents that will overcome the reported emerging resistance against artemisinin based therapy.Oral bioavailability and safety pro le of the compounds were evaluated by analyzing computed molecular descriptors commonly used to compare "drug-likeness" properties and testing biochemical parameters respectively.Molecular docking toward Plasmodium falciparum dihydropterate synthase para aminobenzoic acid (PABA) binding site was carried out and nally, in-vitro and in-vivo antiplasmodial activity of the compounds were exploited.

Chemistry
Reagent-grade chemicals and solvents were purchased from a commercial supplier and used after puri cation.Thin-layer chromatography (TLC) was performed on silica-gel F254plates (Merck).Merck silica gel (60-120 mesh) was used for column chromatographic puri cation.All reactions were carried out in a nitrogen atmosphere.Melting points are uncorrected and were measured in open capillary tubes, using a Rolex melting-point apparatus.IR spectra were recorded as KBr pellets on a Perkin-Elmer RX 1 spectrometer and the wave numbers are reported in cm − 1 . 1 H NMR and 13 C NMR spectral data were recorded on Advance Bruker 400 spectrometer ( 1 H 400 MHz/ 13 C 100 MHz) with DMSO-d6 as solvent and tetramethylsilane (TMS) as internal standard and reported in δ (ppm).J values are in hertz (Hz).The molecular mass of the compounds were obtained using high resolution positive ion electrospray ionization on Brucker 10152 mass spectrometer pos_tune_low_msq.m.
General procedure for the synthesis of substituted benzene sulphonamoyl alkanamides (3a-c) 36 Sodium carbonate (Na 2 CO 3 , 1.590 g, 15 mmol) was added to a solution of amino acids (2, 12.5 mmol) in water (15 mL) with continuous stirring until all the solutes had dissolved.The solution was cooled to -5 o C and the appropriate benzenesulphonyl chloride 1a-c, 15 mmol) was added in four portions over a period of 1 h.The slurry was further stirred at room temperature for about 4 h.The progress of the reaction was monitored using TLC (MeOH/DCM, 1:9).Upon completion, the mixture was acidi ed using 20% aqueous hydrochloric acid to pH 2. The crystal was ltered via suction and washed with pH 2.2 buffer.The pure products (3a-c) were dried over self-indicating fused silica gel in a desiccator.

Synthesis of compounds 6a-6h 37
A mixture of Boc-glycine (4, 0.45 g, 1.84 mmol), 1-ethyl-3-(3-dimethyl aminopropylcarbodiimide hydrochloride (EDC, 0.53 g, 2.76 mmol), 1-hydroxybenzotriazole (HOBT, 0.248, 1.84 mmol), triethylamine (TEA), amines (1.84 mmol) in dichloromethane (DCM, 50 mL) was stirred at room temperature for sixteen (16) hours.The reaction was monitored using TLC.On completion of the reaction, it was washed with water (2 × 20 mL), brine (1 × 10 mL), dried over anhydrous sodium sulphate and the solvent was evaporated under reduced pressure to give the crude product (5a-h) which was then puri ed by ash column chromatography on silica gel.The products (5a-h) were then deprotected by addition of 10% TFA in DCM and allowed to stir for more than 1 h while been monitored with TLC.When the reaction was completed, the solvent was evaporated and the products, (6a-h) was used directly for the next stage of reaction.
On completion of the reaction, the mixture was acidi ed using 20% aqueous hydrochloric acid to pH 2. The crystals were ltered via suction and washed with pH 2.2 buffer.The pure products (7a-x) were dried over self-indicating fused silica gel in a desiccator.

Homology modeling of target protein and Docking
Since there is no three-dimensional (3-D) structure of Plasmodium falciparum dihydropteroate synthase (Pfdhps) in Protein Databank, the crystal structure of Pfdhps was homology modeled using the Pfdhps sequence fragment retrieved from UniprotKB database as the target sequence (A0A3G2LE00_PLAFA). 38ISS-MODEL 39 use their own set of modeling algorithm to automatically build model using P. vivax homodimer (PDB code: 5Z79; resolution 1.7 Å) 40 as template.The constructed model was subjected to molecular dynamics simulation using GROMOS96 force eld. 41The system was placed in a cubic box simple point charge (SPC) and solvated using an explicit water model for all atom simulation.The protein had at least 10 Å buffer in every direction of the box.The system was maintained at a neutral charge while adjusting the NaCl concentration to 150 mM and equilibrated at 300 K using Berendsen's algorithm.The entire system was subjected to energy minimization using both the steepest descent and the conjugate gradient algorithms.All non-hydrogen atoms were subsequently restrained in position while solvent molecules and ions were allowed to relax around the solute molecules for a simulation time of 1000 ps.The evolutions of all quantities considered in this study were recorded per 1 ns.The accuracy of the built Pfdhps_model was evaluated by backbone conformation analysis using Psi/Phi Ramachandran plot package in Discovery Studio, 42 stability of the protein structure of MD simulation and alignment to P. vivax homodimer template.In order to dock the newly synthesized sulfa compounds, the binding site of Pfdhps_model was identi ed using the online program -COACH. 43e chemical structures of the compounds were prepared using the builder protocol in Molecular Operating Environment (MOE) software 44 and energy minimized to 0.001 kcal/mol gradient.Molecular descriptors employed in calculating the following basic physicochemical features: molecular weight (MW), hydrogen bond acceptor (HBA), hydrogen bond donor (HBD), lipophilicity (logP), number of rotatable bond (NRB) and total polar surface area (TPSA) were computed using the QuSAR module of MOE.Docking of the compounds toward Pfdhps_model binding site was performed using "triangle" matcher as placement and "a nity dG" for scoring and force eld re nement was also applied.

In vitro antiplasmodial activity
The effect of the synthesized compounds (7a-7x) in vitro was evaluated against P. falciparum (W2 strain).Brie y, sorbitol synchronized, 0.1% parasitemia, ring stage P. falciparum strain W2 parasites were cultured under the atmosphere of 3% O 2 , 6% CO 2 and 91% N 2 in RPMI-1640 medium supplemented with 10% human serum in the presence of inhibitors for 48 h without media change.Inhibitors were added from 1000 DMSO stocks.After 48 h, the culture medium was removed and replaced with 1% formaldehyde in PBS pH 7.4 for an additional 48 h at room temperature to x cells.Fixed parasites were transferred into 0.1% Triton-X-100 in PBS containing 1 nM YOYO-1 dye (Molecular Probes).Parasitemia was determined from dot plots (forward scatter vs. uorescence) acquired on a FACS sort ow cytometer using Cell Quest software (Beckton Dickinson).The MICs of compounds were the minimum concentrations at which more than 99% of the parasites, relative to the control, were inhibited from developing to Schizonts (parasites with six or more chromatin dots) 45  [33].

In vivo antiplasmodial activity
In vivo antimalarial activity of the synthetic compounds (7a-7x) was carried out against P. berghei (NK-65 strain) infected mice as described by Peter et al 46 and Kalra et al 47 with minor modi cations.The animals were obtained from Nigerian Institute for Trypanosoma and Onchocercarioses Research (NTIR) Vom, Plateau State Nigeriaand were kept under standard conditions for 7 days to adapt to the laboratory animal housing facilities.The permission and approval for the use of animals were granted by the Animal Ethics Committee, Federal College of Veterinary Medical Laboratory, Vom, Plateau State.Brie y, eighty infected mice were randomly divided into 27 groups of ve mice in each group.The inoculum was preparedfrom a donor mouse with rising parasitemia of 60.42%.By 7 days post-infection, animals were administered with the synthesized compounds (7a-7x) for 12 consecutive days and were monitored with constant check of the percentage of parasitemia after one-day interval.Artemisinin was used as the positive control of the experiment.Group four was not treated and group ve was not infected.All the compounds and the drugs were given orally by using a standard intragastric tube.For all parasitemia determination, blood samples were collected from a tail snip of each mouse on days 7 and 8 and thin smears prepared and stained with 10% Giemsasolution.The uniform elds of each stained slide (for each mouse) were examined under microscope with an oil immersion objective of 100x magni cation power and percentage inhibition of parasitemiawas calculated comparing the treated group with untreated group by means of the following formula 48 [(A-B)/A]x100; where A = parasitaemia in the untreated group and B = parasitemia in the test group.Compounds that reduced parasitemia by 40% were considered active, whereas those that reduce parasitaemia by 30-40% or less than 30% were deemed partially active and inactive respectively. 49urthermore, the percentage survival rate of each group was determined.
All animal experiments were conducted in compliance with the National Institute of Health Guide for care and use of Laboratory animals (Pub No.85 − 23, revised 1985) and in accordance with the University of Nigeria Ethics committee on the use of laboratory animals, registered by the National Health Research Ethics Committee (NHREC) of Nigeria, with the number; NHREC/05/01/2008B.The study protocol was approved by our institution's Ethics Committee. 50

Biochemical Assessment
By twelfth day post-infection, animals were sacri ced by cervical dislocation and blood samples obtained for further biochemical analysis.Blood samples were collected rstly at the beginning of the experiment (day 0) to assay for basal biochemical levels.Subsequently, blood samples were recollected from the animals on days 7 and 12 post-treatment to re-assay for serum biochemical levels.The blood glucose concentration (BGC) was measured using a One Touch Ultra® glucometer (Lifescan; Johnson & Johnson, Milpitas, CA, USA).The serum creatinine, and albumin, total protein and bilirubin levels were analyzed according to standard methods.Alanine aminotransferase (ALT), aspartate aminotransferase (AST) and alkaline phosphatase (ALP) were assayed using standard procedures.The haematological parameters: red blood cell (RBC) count, packed cell volume (PCV), white blood cell (WBC) count and haemoglobin concentration (HB) were estimated according to standard procedure using an automated machine (Automated CBC Analyser: Sysmex KX-21).

Liver Function Tests (LFTs)
The liver function tests carried out with the blood of the rats fed with the sulphonamide derivatives were aspartate aminotransperase (AST), alanine transaminase (ALT) and alkaline phosphatase (ALP).Standard laboratory procedure according to was used for the determination of parameters 51 Renal or Kidney Function Test Kidney function tests carried out with the blood of the rats fed with the sulphonamide derivatives were, creatinine and albunim.The method reported by 52 were used in the determination of creatinine

Results And Discussion
Synthesis of the glycine derived sulfonamides Sulfonamides are broadly utilized as pharmaceuticals to treat numerous sicknesses, for example, bacterial contaminations and intestinal sickness.Instances of medication obstruction against current antimalarial sulfonamides are on the expansion.Thus, there is consistent quest for new sulfonamides with astounding antimalaria power.We along these lines have arranged boc-glycine-amine-derived sulfonamides 7a-x as shown in Scheme 1.The rst phase of the reaction was the combination of phenylsulphonamido acids by reacting substituted benzenesulphonyl chloride and amino acid (alanine) in the presence of Na 2 CO 3 as a base, the acid was formed after 4 h reaction and on acidi cation of the reacting mixture.The diamide derivatives of glycine were synthesized by reacting commercially available boc-protected glycine with amines in the presence of 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide hydrochloride (EDCI), 1hydroybenzotriazole (HOBT), and trimethylamine (TEA) to yield various C-substituted amide derivatives of glycine.EDCI alone could not su ciently activate the carboxylic acid group of glycine and thus addition of HOBt was necessary for the coupling reaction.Compound 7 was converted into their salt by addition of 10% tri uoroacetic acid (TFA) in DCM.The salt on further reaction with acid in the presence of peptide coupling agents EDCI, HOBt, TEA or DMAP, gave the desired diamide derivative of the glycine.The synthesized compounds were crystallized in their analytical grade using n-hexane while FTIR, 1 HNMR, 13 NMR and high resolution mass spectroscopy (HRMS) were used to characterize their chemical structures.The IR showed strong band between 3300 and 3400 showing the presence of two NH (amide) bonds of the derivatives.Strong bonds were also observed between 1650 and 1800 for amide carbonyls and a band at 1355 cm-1 for sulphonamide group which indicate the successful formation of the compounds. 1HNMR of compounds showed the methylene group of glycine exhibiting multiplet at δ3.5-4.00 due to the interaction CH 2 and NH of the glycine.There is a doublet at 1.0-1.2due to the CH and CH 3 interaction of the alanine amide.The compound also exhibited multiplet from 7.1-7.9representing aromatic protons. 13  The parameters are in their standard units: MW in Dalton, and TPSA in Å 2

Oral bioavailability and safety
Failures of many drug candidates with excellent pharmacological features due to poor ADME/Tox properties have necessitate evaluation of physicochemical features of potential drug molecules at early stage of drug discovery. 53As a rule of thumb, it has been found that molecules with the following criteria MW < 500 Da, HBA < 10, HBD < 5, logP< 10, NRB < 5 and TPSA < 140 Å2, are orally bioavailable. 54The MW, HBD and logP of the compounds are respectively in ranges of 380.85 -468.53Da, 2 -4 and -2.02 to 3.22 values.Only 7p had number of HBA above ten (HBA = 11).Seven different compounds possess NRB and TPSA values above the recommended ranges (Table 1).In spite of some outliers in NRB and TPSA values, analysis of the computed molecular descriptors suggests 7a-7x are drug-like, hence, good candidate for biological screening.Furthermore, to ascertain the safety pro le of some of the compounds, their effect on blood glucose, kidney function, haematology, liver marker enzymes were assessed.The obtained result of the biochemical analysis (Table 4) indicates that the blood glucose, kidney function, haemopoietic system and liver enzymes of theinfected animals did not differ signi cantly (p>0.05) as compared with the control and baseline values, at day 12.Hence, the compounds are safe at the studied concentrations.

Homology modeling and docking calculations
6][57] Since we could not obtain PfCa template with acceptable Qmean score, only the homology model of Pfdhps was used.222 amino acids sequence of Pfdhps was used to build 3-dimensional structure of Pfdhps homology model (Pfdhps_model) in order to investigate the a nity of the newly synthesized compounds for Pfdhps.The Pfdhps_model (Figure 1a) has sequence similarity identity of 75.23 % with P. vivax and therefore was used as the target protein template (PDB code 5Z79).The structural quality of Pfdhps_model was assessed by calculating Qmean score, Ramachandran plot and alignment of Cα.It was respectively observed that the modeled protein lies in the Z-score of other protein crystal structures that exist in PDB (Figure 1b), contains above 95.0 % of Pfdhps_model residues in the favored region (Figure 1c) and closely aligned with P. vivax_dhps Cα to an RMS value of 0.188.These showed that the modeled protein is reliable and has good quality.MD simulation was carried out to probe Pfdhps_model.Analysis of the RSMD which has maximum value of 0.426 Å (Figure 1d) showed that the model undergoes very minimal positional and conformational uctuation.The potential energy of the protein starting from the end of the equilibrium phase dropped from -15125 kcal/mol to -18154 kcal/mol indicating stabilization as the simulation progressed (Figure 1e).Having ascertained Pfdhps_model is of good quality, the COACH online program, which uses their in-house algorithm to predict protein binding sites, was employed.Pfdhps_model region occupied by pABA as returned by the COACH program was considered as the binding site in this study because sulphonamides are known to bind the same binding site that pABA occupy in Pfdhps.
Meanwhile the reliability of the MOE docking software was evaluated by checking for its ability to retrieve a binding pose of pABA comparable to that found in COACH derived Pfdhps-pABA complex.The docking protocol (A grid box size of 4, 3.5, 2 Å 3 points and centered on the mass center on 63.3, 47.5, 42.3) which identi ed rmsd between COACH-based and docked pose of pABA lower than 2.0 Å (Figure 1f) was retained and used for docking studies.The best docked poses characterized by the lowest theoretical binding energy revealed that 7a-7x take place preferentially within the Pfdhps_model pABA binding site.Narrow range of binding a nity was observed (-2.80 to -4.68 kcal/mol) (Table 2) which eluded any observable signi cant structure-activity relationship within the studied series.However, the negative free binding energies of each of the 7a to 7x suggested they faourably interacted with the protein and could serve as inhibitor and subsequently antimalarial agent.Therefore, their ability to kill P. falciparum in culture and clear P. berghei in infected mice were investigated.

Antiplasmodial screening
The anitplasmodial activity of the compounds 7a-x was measured against P. falciparum (W2 strain).The MIC values were calculated from experiments carried out in triplicate and compared to chloroquine (CLQ) and quinine (Qn) (Table 3).Studies have shown that the in vitro system, as an experimental model, aids in understanding the pathophysiology of a disease state as well as screening and identifying action of compounds as possible drug leads. 58All the compounds showed activity against the tested P. falciparum strain at MIC values ranging from 3.52 to 0.09 µM.Apart from 7p (MIC = 0.09 µM) with activity comparable to CLQ (MIC = 0.08 µM), the W2 strain was more susceptible to CLQ than all the compounds.However, seven of the compounds; 7c (MIC = 0.33 µM), 7d (MIC = 0.56 µM), 7i (MIC = 0.33 µM), 7j (0.56 µM), 7p (0.09µM), 7r (0.71µM) and 7s (0.67µM) showed more antiplasmodial effect against the W2 strain than the standard drug widely used in malaria treatment, quinine (MIC = 0.72 µM).Given the health and economic effect of malaria and the rise in CLQ and Qn resistance strains, any molecule with antimalarial activity deserves attention.Therefore, the antiplasmodial effect of the compounds was tested at 100 and 200 mg/kg in P. berghei (NK-65 strain) infected mice.It was observed that all the compounds exhibited marginal to appreciable activity at the two dose level studied.16 out of the 24 compounds were found to clear more than 50 percent of P. berghei from the blood of P. berghei (NK-65 strain) infected mice at 12 post-infection days (Table 4).The fact that these compounds recorded activity in vivo con rmed our in-silico prediction of their drug-like properties.Also the relatively high survival rate of the experimental animals speaks about the safety pro le of the new sulphonamides as earlier suggested by the biochemical data.The percentages of parasites cleared by 200 mg/kg of the three most effective compounds (7g, 7n and 7r) were 74.98, 74.98 and 74.07 respectively.Although more potent, the percentage survival of infected mice treated with 7g and 7n were lesser than that of 7r (60 and 60 vs 80 percentage survival of P. berghei infected mice on 12-day, respectively).Hence, 2-(4-chlorophenylsulfonamido)-N-(2-((4chlorophenyl)amino)-2-oxoethyl)propanamide (7r) is considered promising hit due to its low MIC values at in vitro test (0.71 µM), reasonable in vivo potency at 200 mg/kg (74.07 %) and interesting pharmacokinetic pro le (MW = 430.31Da, HBA = 7, HBD = 3, log P = 2.56, NRB = 9 and TPSA = 104.37Å 2 ).Predicted binding mode for 7r toward the Pfdhps_model PABA binding site described in Figure 2, revealed interesting interactions which could be targeted in chemical modi cations during structure-activity optimization.The fact that the levels of the enzymes were maintained in the liver and kidney in all groups of the mice means that the administered compounds have no membrane labializing effect on these organs.Enzyme activities in the tissues are often used as 'marker' to ascertain early toxic effects of administered foreign compounds

Conclusion
In conclusion, twenty-four new boc-glycine-amine-derived sulfonamides (7a-x) were synthesized and characterized in this study.Analysis of biochemical parameters and computed molecular descriptors used to evaluate drug-likeness revealed the compounds are both safe and drug-like.Molecular docking suggested the compounds had favourable interaction with P. falciparum dihydropteroate synthase homology model and therefore could be a potential inhibitor of the protein.Finally, in vitro screening against the P. falciparum (W2 strain) and in vivo testing against P. berghei (NK-65 strain) infected mice revealed their antiplasmodial activity.The promising candidate identi ed in this study could be a template for the development of bocglycine-amine-derived sulfonamides antiplasmodial agent.

Table 1 .
Basic physicochemical data of the boc-glycine-amine derived sulphonamides

Table 2 .
Binding free energy of the newly synthesized compounds towards homology model of Plasmodium falciparum dihydropteroate synthase