Introduction
Helminthiasis has proclaimed itself as one among the most important parasite animal diseases in the planet as it affect more than a 25 % of the total world’s population and effect in significant disease and disability. The increasing amount of contaminated soil catalyses the transmission, and infections with
Ascaris lumbricoides,
Trichuris trichiura, and hookworm [
1].Worldwide it causes notable economic instability especially in developing countries.The lack of knowledge about proper and adequate management of such parasitic outbreak exacerbate the scenario [
2].Helminths can be classified into two major phyla among which first one comprises of the nematodes which include the major intestinal worms those are soil-transmitted helminths and also filarial worms that could cause lymphatic filariasis, onchocerciasis etc. The second category comprises of platyhelminths that embraces the flukes and tapeworms and this group could cause schistosomes, and cysticercosis [
3]. Conventionally the usage of chemical parasiticides are preferred to control Helminthiasis, however over usage of such agents could result in depreciation that in turn result in environment and living organisms, It could also give rise to drug resistant parasites [
4].
The recognition of the antigenic complexity of parasites has slowdown the vaccine development in the past the growth in systems biology have brought some new velocity to the area, however lack in parallel advances in product and clinical development sciences and the potential for a candidate vaccine to advance into clinical trials remains low. This decelerate the preclinical development, and clinical development of vaccines [
5]. The possibilities of employing plant metabolites for the treatment of Helminthiasis can replace the conventional chemical drug mediated treatment. It is assumed that the plant derived natural drugs will have more compatibility and less toxic effects when compared that with its chemical counterparts [
6]. Even though there have been several plants have been reported for its successful anthelminthic activity, the activity responsible for the action remains mostly unknown.Current phase of anthelminthic drug development demands novel strategies to overcome existing obstacles encountered [
7]. In this study we analyze the effect of proteolytic enzyme depended antagonization of Helminthiasis by
Cinnamomum cappara leaf extract.
The plant material was dried in shade at ambient temperature, and made it in to powder by electrical blender. The powdered material was stored in tightly closed glass bottles for further use. The crude aqueous extract of
Cinnamomum cappara leaves was prepared using the powdered plant material by mixing it with 250 mL of distilled water in a flask which was then boiled for 30 minutes. The mixture was boiled until the volume reduced to 50 ml. Thus obtained crude extract was cooled and later filtered using what man filter paper 1 mm and collected in a reagent bottle. [
9].
Analysis of proteolytic activity by Cinnamomum cappara leaf extract
The quantitative determination of protease was carried as follows. The reaction mixture was made by the crude extract containing 50 µg protein in it, 0.5 ml of Tris–HCl buffer (50 mM; pH 7.2) and 0.5 ml of casein (2 % w/ v) dissolved in citrate phosphate buffer (50 mM; pH 6.8). The mixture was left to react at 37 °C for 1 h and the reaction was arrested by adding 1 ml of 10 % (w/v) ice - cold TCA. The unreacted casein substrate was cleared away by centrifugation at 5,000 rpm for 10 min, later an aliquot (0.5 ml) of the supernatant was taken and 2.5 ml of the reagent comprising 2.9 % Na2CO3 and 0.3 N NaOH was added and followed by the addition of 0.75 ml of Folin Ciocalteu’s phenol reagent. The samples were incubated at 37 °C for 20 min and the absorbance was taken at 650 nm. A standard curve constructed with tyrosine was utilized to calculate the protease activity [
10]. One unit of protease activity (U/ml) was defined as the amount of enzyme that liberates1µmol of tyrosine equivalent per minute under the assay conditions. From the obtained value the specific activity (U/mg) was derived by dividing total activity by total protein content. The total protein content of the leaf extracts was determined by the method of Bradford, (1976) wherein BSA was used as standard to generate the calibration curve in Bradford assay The effect of increasing substrate concentration upon rate of reaction was studied in constant reaction conditions such as pH 8.0 and 37 ℃ where in 20 mg/ml crude plant extract was added to solution. The concentration of substrate varied from 1 to 150 µM in each mixture. A blank was used in each specific substrate concentrations without the enzyme. The Michaelis–Menten constant (Km) value was derived from Lineweaver–Burk plot [
11].
Activity dependent purification of bioactive fraction
Crude Aqueous extract from
Cinnamomum cappara leaf possessing positive proteolytic activity was subjected for silica gel column chromatography (60–120 mesh) and the bioactive compounds were eluted by the employment of appropriate solvents of varying polarity. Eluted fractions were screened for its activity; finally, positive fraction was concentrated and the lead component was identified by the employment of gas chromatography (Agilent 6890 series) equipped with HP-5MS column mass spectrometer [
12] operated at initial column temperature of 30 °C and heated up to 300 °C at 10 °C /5 min. Chromatographic conditions were: flow of 1.0 ml /min of high purity helium as carrier gas in split mode. The identification of the compounds in spectra was done based on retention time and integral area of peaks. The similarity of compounds matched based on NIST library search [
13].
Collection and maintenance of Pheretima posthuma
All the experiments were carried out in Indian adult earthworms (
Pheretima posthuma) due to its anatomical resemblance with the intestinal roundworm parasites of human beings.
Pheritima posthuma with the average sze of 5–8 cm length was procured from Kerala Agricultural University, Vellanikkara, Thrissur, Kerala, India. The animals were maintained in moisture soil in the lab supplied with proper aeration [
14].
Experimental design for screening protease enzyme dependent anthelmintic activity
The anthelmintic activity was performed according to the method. On adult Indian earth worm
Pheretima posthuma as it has anatomical and physiological resemblance with the intestinal round worm parasites of humans.
Pheretima posthuma was placed in petridish containing 25 ml of test solution of varying concentrations of
Cinnamomum cappara leaf extract ranging from 0 to 40 mg/ml. Each Petri dish was placed with 6 worms and observed for paralysis or death. Mean time for paralysis was noted when no movement of any sort could be observed, except when the worm was shaken vigorously; the time death of worm (min) was recorded after ascertaining that worms neither moved when shaken nor when given external stimuli [
15]. Albendazole (50 mg/ml) was used as the positive control while distilled water was considered as negative control. The observations obtained from the test was compared that with positive and negative control.
Histological analysis of study subjects
After the incubation period the treated samples were collected and washed with distilled water. After a depuration of 6 h, as recommended by [
16]. Earthworms were sequentially dehydrated in graded ethanol concentrations and embedded in paraffin wax with different melting points. Slides with cross sections of earthworms were stained using the hematoxylin–eosin method for light microscope observation, and photographed with an Labomed microscope equipped with a digital color camera Micaps pro HDMI [
17].
Statistical analysis
The data obtained from the study was subjected to statistical analysis. The data was subjected to one-way ANOVA (Analysis of Variance) followed by Dunnett’s post test using Graph-pad prism Version 5.01 software.
Discussion
Cinnamomum (cinnamon) is a genus of the family
Lauraceae, many of whose members are used as spices [
18]. The genus comprises of small, evergreen trees and shrubs of about 10–15 m tall and are found in south-east Asia, China, and Australia as well as in Africa. The bark is widely used as spice, its leaves are ovate-oblong in shape, and exhibit a length of about 7–18 cm [
19]. Flowers are arranged in panicles with a greenish color. The plant consists a purple colored fruit which is a 1 cm sized berry encompassing a single seed [
20]. The genus
Cinnamomum is considered to be highly medicinal and it has proven its properties such as free radicle scavenging, anticancer ablity, antimicrobial action, anti-hyperlipidemic etc. [
21].
Due to the vast diversity and abundance of species range, marker based molecular identification is considered to be ideal for
Cinnamomum Genus. Identification of plants by the employment of molecular markers give away the apprehension of errors that generally occur during identification based on morphological descriptions, therefore it is suggested to confirm the identity of plants by incorporating molecular markers as it offers high degree of species discrimination and fast results [
22]. From the molecular sequencing we conducted we concluded that the plant belongs to
Cinnamomum cappara. Similarly molecular characterization have been employed previously to confirm
Cinnamomum verum Presl [
23], trnL-trnF based identification of Cinnamomum spp [
24] etc. We used rbcL (Ribulose bisphosphate carboxylase large chain) marker based identification as it is considered standard plant DNA barcoding markers due to their universality, relatively high overall sequence quality, low cost, and high discriminatory power between species[
8,
25].
Proteolytic enzymes break the peptide bonds of proteins and they can be classified into acid, neutral, and alkaline proteases. Protease enzymes can be obtained from plants, animals, and microorganisms [
26]. Our studies indicated that the plant extracts can be a virtuous proteolytic agents, similar suggestions have been previously made by Chinnadurai et al. (2018) where they studied the protease activity leaf extract of eighty medicinal plants. It is also perceived that the leaves of
Moringa oleifera could successfully demonstrate peptide degrading activity [
27]. From the studies we conducted it was evident that
Cinnamomum cappara leaf extract possess itself with an immense ability of proteolytic action that can be exploited in pharmaceutics and industries. The total enzyme activity tends to increase directly proportional to the concentration, however the specific activity followed a standard range which could be due to the total protein content present in the extract as suggested by Feng et al., (2017) in their studies conducted by high-throughput estimation of specific activities of enzyme/mutants in cell lysates through immunoturbidimetric assay of proteins. It is also assumed that the antioxidant activities that is possessed by the extract might also have played a vital role in its anthelmintic activity [
28]. The probable mechanism could be the activation of transcription factors that effect the natural physiological mechanism of subject [
29].
Vast array of medicinal and industrial applications are displayed by phyto-proteases so far and some of them being the anti- Viral activity by the protease purified from
Azadirachta indica and other medicinal plants [
30], Cheese making ability by plant proteases extracted from
Cynara scolymus L and
Silybum marianum L. Gaertn [
31]. However an important observation was made by Stepek et al., (2007) where they suggested that plant derived protease from kiwi fruit have remarkable Anthelmintic action against rodent stomach nematode,
Protospirura muricola. This results were matching with the observations we made in our study where we observed protease enzyme mediated anthelminthic activity by
Cinnamomum cappara leaf extract against
Pheretima posthuma. The study organism resembles the similar physiological and anatomical structure with human intestinal parasites [
32] therefore this observations shall be utilized against more parasites that cause Helminthiasis. Our studies suggested that proteolytic activity of plant extract could successfully cause degradation of muscle and hence death. Similarly various plant metabolites extracted from
Picria fel-terrae Lour,
Linariantha bicolor, Lansium domesticum have also reported their activity against Helminthiasis [
33].
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