Unveiling the pharmacological potential of Coelogyne suaveolens: An investigation of its diverse pharmacological activities by in vivo and computational studies

Abstract The medicinal potential of Coelogyne suaveolens, a traditional medicinal plant, was investigated through in vivo and molecular docking studies. The ethyl acetate fraction of the plant's acetonic extract was subjected to various bioactivity tests to assess its analgesic, anxiolytic, and sedative effects on Swiss albino mice. Furthermore, we used GCMS to identify the bioactive chemicals in the extract's ethyl acetate fraction. The root and bulb extracts demonstrated significant analgesic activity in acetic acid‐induced writhing, hot plate, and tail immersion tests in a dose‐dependent manner when compared to the control. Again, the extract exhibited moderate anxiolytic activity in the elevated plus maze test at a dosage of 400 mg/kg body weight, while the root extract showed significant anxiolytic activity in the hole board test at the same dosage. Significant sedative activity was observed in the hole cross, open field, and rotarod tests at a dosage of 400 mg/kg. According to molecular docking studies, the extract has the potential to serve as an analgesic medication by reducing the enzymatic activity of cyclooxygenases 1 and 2. Overall, the findings suggest that C. suaveolens has substantial therapeutic potential for the development of novel treatments for pain, anxiety, and sleep disorders.

faith in alternative medicine and pursue it further.Additionally, it has begun to gain popularity among the public as an alternative to conventional medication because of its higher efficacy, lower risk of health complications, and lower cost.Many powerful conventional medicinal agents, such as vincristine, paclitaxel, and vinblastine (Cragg & Newman, 2005), cardioprotective drugs like digoxin (Morris et al., 2006), narcotic analgesics such as morphine (Rates, 2001), and anti-malarial drugs such as artemisinin and quinine (Queiroz et al., 2009), were first discovered as a result of the influence of phytochemistry.Studies have been conducted recently on a variety of medicinal plants, including Hedychium spicatum, whose rhizomes are used to treat pain, diarrhea, nausea, liver issues, vomiting, inflammation, headache, stomachaches, and fever, as well as Erigeron bonariensis, which is said to have antioxidant, antibacterial, and anti-inflammatory properties, and Paederia foetida, which has anti-diabetic, anti-hyperlipidemic, antioxidant, nephro-protective, anti-inflammatory, antinociceptive, antitussive, thrombolytic, anti-diarrhoeal, sedative-anxiolytic, anti-ulcer, hepatoprotective, and anthelmintic activity (Mahanur et al., 2023;Sarma et al., 2023;Singh et al., 2023).On the other hand, in silico methods, as described in recent research (Hossain et al., 2023;Madden et al., 2020), create predictions about numerous characteristics of chemical compounds, particularly ADME traits, along with their biological function and toxicity, using the current data and molecular composition information.These models are based on the basic concept that a chemical's molecular structure encodes both its inherent characteristics and its potential interactions.As a result, QSAR (quantitative structure-activity relationship) models can be constructed, enabling chemical response predictions based purely on structural data.
Pain is a mental, physical, and unpleasant phenomenon that is acknowledged as a worldwide health issue (Kumar Paliwal et al., 2016).Most pain in the body begins with some sort of illness or injury (Mills et al., 2019), where analgesics, a class of drug, are used to treat pain by blocking different pathways (Van Rensburg & Reuter, 2019).Nonsteroidal anti-inflammatory medications (NSAIDs) and opioids are the most commonly utilized analgesics nowadays (Rosenblum et al., 2008).NSAIDs typically work by inhibiting the formation of prostaglandins via the blocking of an enzyme called cyclooxygenase (Gunaydin & Bilge, 2018).NSAIDs have been especially helpful in the treatment of inflammation and pain; however, they are well known to be related to gastrointestinal injury.Selective Cyclooxygenase-2 inhibitors have been shown to reduce the risk of digestive tract issues, but they have also been linked to adverse cardiovascular events (Zarghi & Arfaei, 2011).
Serious NSAID-related problems, including bleeding, perforation, and mortality, occur at a yearly estimated rate of around 2% for NSAID consumers (De Cosmo & Congedo, 2015).On the other hand, opioids are known to promote addiction, physical dependency, and tolerance.When people discontinue opioids after a lengthy period of use, they develop bodily (e.g., muscle cramps, diarrhea, and anxiety) and psychological symptoms of depression (Hijazi et al., 2017).In addition to physical pain, the world is affected by several other serious conditions, such as anxiety disorders, which rank as the most frequent mental illness in the United States (7.3%).Anxiety disorders (especially GAD and panic disorder) frequently overlap with depressive illness, which complicates treatments (Bandelow & Michaelis, 2015).Among different drug options, bupropion's ability to inhibit norepinephrine and dopamine reuptake makes it a potent antidepressant with fewer side effects (Friesner et al., 2004).Drugs like MAOIs and tricyclic antidepressants (TCAs) are commonly used in therapy because of their ability to inhibit the increase of monoamine metabolism and decrease reuptake capability.Many of the standard treatments for depression, however, come with serious drawbacks.Therefore, new antidepressant medicines are necessary to avoid these consequences (Nasrin et al., 2022).
Orchids are renowned for their aesthetic appeal, and they are frequently utilized as decorative items in households, offices, and public spaces.While most individuals appreciate their beauty, others have discovered practical applications for them.For a long time, people from various regions of the world have employed orchids for medicinal purposes.However, the use of orchids in medicine has decreased over time due to insufficient research to determine their efficacy and adverse effects.The Chinese were the first to discover the medicinal properties of orchids, and they continue to use them for medicinal purposes today, mainly in the form of medicinal tea.Dendrobium, in particular, is believed to have several medicinal properties, including antioxidant (Luo et al., 2016), hypoglycemic (Pan et al., 2014), immune modulatory (He et al., 2016), cardioprotective (Dou et al., 2016), hepatoprotective, and antitumor (Tang et al., 2017)

| Crude extract preparation
The study materials (bulb and root) were washed, sliced into tiny pieces, and dried in the sunlight for seven days in a semi-shed.The plant components were processed into a powder using a mechanical grinder after drying.The bulb and root of the plant were powdered and immersed in acetone.After 13 days of intermittent stirring, the filtrate was concentrated after the solution was filtered using a rotary evaporator by evaporation under reduced pressure and below 50°C (Stu-art, UK).

| Solvent-solvent partitioning
Using ethyl acetate solvent, crude acetone extracts of the bulb and root of C. suaveolens underwent solvent-solvent partitioning using the technique developed by VanWagenen et al. (1993).

| GC MS analysis
A mass spectrometer from Agilent Technologies (Santa Clara, CA, USA) was used to analyze the chemical constituents of C. suaveolens extract using a 7890A capillary gas chromatography system.
For the analysis, approximately 6 μL of crude extract (1% w/v) was diluted with methanol:chloroform:water (2.5:1:1) and injected into a fused silica capillary column (HP-5MSI, 90 m × 0.25 mm) coated with a 0.25 μm film consisting of 95% dimethyl-poly-siloxane and 5% phenyl.Helium (99.999%) was used as the carrier gas, flowing at a rate of 1 mL/min.The mass chromatogram was analyzed with the MS quad at 150°C and the source temperatures at 250°C, respectively.
The National Institute of Standards and Technology (NIST) mass spectrometry data center serves as a reference for identifying the chemical components of the extracts by comparing their MS spectra to the NIST database (Al-Nuri et al., 2022).

| Experimental animals
We acquired Swiss albino mice from the BCSIR laboratory in Chittagong for our experiment.These mice were of both sexes, aged 4-5 weeks, and had a weight ranging from 20 to 25 grams.

| Study design for in vivo testing
During each evaluation, six groups of mice, with five mice in each group, were used for each investigation.For analgesic activity, Group (I) served as the control (1% tween-80 10 mL/kg), Group (II) served as the standard (Diclofenac sodium 50 mg/kg was used in the acetic acid writhing study, and morphine sulfate 10 mg/ kg was used for tail immersion and the hot plate method), and Groups (III) and (IV) received bulb extract at 200 and 400 mg/kg, respectively, and Groups (V) and (VI) received root extract at 200 and 400 mg/kg, respectively.For anxiolytic and sedative activity, Group (I) served as the control (1% tween-80 10 mL/kg), Group (II) served as the standard (Diazepam 1 mg/kg was used in both the anxiolytic and sedative tests), and Groups (III)-(VI) received the bulb and root extract at doses of 200 and 400 mg/kg, like in the previous manner.

| Acute toxicity study
The previously outlined approach was used to conduct an acute toxicity investigation.Each group consists of five mice that overnight fasted before receiving the extract.Each animal group received oral dosages of 1000, 2000, 3000, and 4000 mg/kg of body weight for each extract.After receiving the plant extract, they were not given food for an additional 3-4 h.Each animal was observed for thirty minutes, twenty-four hours, and then three days.
At least once per day, the mice were examined for any changes in their epidermis, fur, mucous membrane, eyes, respiration rate, circulation rate, and central and autonomic nervous systems.
One-tenth of the median lethal dose would be the effective dose (LD50) (Afrin et al., 2021).

| Acetic acid-induced writhing test
The acetic acid-induced writhing test was a behavioral observation and measurement approach that revealed painful stimulation in mice.This research was conducted using the approach developed by Koster, with some adjustments made by Dambisya and Lee (Dambisya et al., 1999;Koster et al., 1959).After giving the standard and extract to the mice, 0.7% glacial acetic acid (10 mL/kg) was administered intraperitoneally (IP) 15 min after giving the standard and 30 min after giving the extract.This caused pain that showed up as constrictions or writhing of the abdomen.5 min later, each mouse in each group was carefully watched for 20 min to count how many times it had writhed.Diethyl ether was used to euthanize the treated mice after each observation.The percent inhibition of abdominal writhing was used to measure the level of analgesia.This was done with the following formula: where Nc denotes the number of writhings in the control group and Nt denotes the number of writhing's in the treatment group.

| Tail immersion method
The methodology created by Di Stasi et al. was used in this study.
Using this thermal approach, the central analgesic activity of the extracts under investigation was assessed (di Stasi et al., 1988).Before the 30 min of treatment, about 2-3 cm of each mouse's tail was put into a water bath with warm water kept at 50 ± 1°C, and the time it needed for the mouse to pull its tail out of the warm water was marked down.The animals that flicked their tails within 3-5 s were chosen for this research.To keep the tail from getting hurt, a cut-off time of 15 s was chosen.After the initial test, the mice that were given the drug were checked at 30, 60, 90, and 120 min (Malairajan et al., 2006).Wrapping the animals carefully immobilized them so that measurements could be taken.The following formula was used to determine what proportion of the maximum possible effect (% MPE) was achieved (Fan et al., 2014): The percentage of time that the tail immersion elongated compared to the control time was measured.The central analgesic effect will be stronger if the percentage of elongation period is higher.
The following equation was used to get the percentage of time elongation (Kumawat et al., 2012):

| Hot plate method
In this investigation, a commonly accessible Eddy's hot plate with an electrical heating surface maintained at 55-56°C was used.The methodology by Arunkumar et al was followed with a slight modification (Arunkumar et al., 2019).Animals in each group were subjected to the hot plate individually; reaction times were recorded as the number of seconds it took for the animals to lick their forepaws or jump in response; and the reaction strengths of individual mice were measured at 30, 60, and 120 min intervals before and after drug treatment.To prevent injury to the paws, a 15-second cutoff time was instituted.The following formula was used to detect the % increase in reaction time:

| Elevated plus maze method
The elevated plus maze is a crucial tool for studying the neuroprotective and anxiolytic effects of test medications (Sunanda et al., 2014).Since rodent's fear heights and prefer confined areas, they spend a disproportionate amount of time there.When animals enter an open-arms environment, they often get frightened and are unable to move (Pellow et al., 1985).The main benefits of this test approach are (a) its speed, simplicity, and reduced testing time; (b) the absence of the need for unpleasant stimuli or training; and (c) its predictability and reliability in assessing the anti-anxiety and antianxiety medication properties (Emamghoreishi et al., 2005;Vogel et al., 2010).The elevated plus maze is a plus-shaped tool 40 cm above the ground, featuring two open arms (25 × 5 cm) and two closed arms (25 × 5 cm, 16 cm long) perpendicular to each other [Miyakawa et al., 1996]

| Hole-board test
Hole-board equipment is an installation with holes in the floor that an animal can insert its head into.This is called "head-dipping." (File & Wardill, 1975).The length and regularity of head dipping can be used to measure neophilia, which means "directed exploration." This shows that the animal's ability to move around is independent (Ljungberg & Ungerstedt, 1976).An increased level of head dipping is usually a sign of neophilia, while low levels are often caused by a lack of neophilia or show that the animals get more anxious (Crawley, 1985).Hence, the anxiety level rises as head-dipping is reduced and lowers when the opposite occurs (Kliethermes & Crabbe, 2006).Mice were placed individually on the hole board device for 30 min before being administered with control, standard, and test samples.We then used a tally counter to measure the number of times each mouse dipped its head into a hole at eye level over a 5-minute trial session.

| Open-field method
The equipment used for this test had a floor space of roughly 0.5 m 2 and was enclosed by a wall that was 50 cm in height (Gupta et al., 1971).The ground is covered in a pattern of tiny squares that alternate between being white and black in color.The count of squares explored by the mice was documented at intervals of 0, 30, 60, 90, and 120 min post-oral treatment.This involved the control group (saline), the standard group (diazepam), and varying doses of test samples (200 and 400 mg/kg).A tally counter was used to track the mice's movements within a 3-minute timeframe.

| Hole cross method
This test was conducted in a wooden-walled chamber (30 cm × 20 cm × 14 cm) without a ceiling.In the middle of the room, a fixed wooden frame divides it into two parts.The wooden barrier had a round hole that was 3.5 cm in diameter and 7.5 cm high.At 0, 30, 90, and 120 min, the number of times the mice passed through the opening between the two chambers was recorded using a tally counter for a period of 3 min (Hossen et al., 2022).

| Rotarod method
A rotarod device was used to evaluate the impact on motor coordination; it featured a plant-shaped base and a 3 cm diameter by 30 cm long iron rod that had a non-slippery surface.The rod had four disks, dividing it into five equal parts.In a training lesson 24 h before the test, the animals were selected based on their ability to stay on the bar (at 12 rpm) for 2 min.Then, five mice were put on the rod and walked at 12 rpm at the same time, and this was watched for 30, 60, and 90 min.The performance time was automatically recorded as the time between when the animal was put on the spinning bar and when it fell off.The amount of time the animals spent in the machine was tracked for 5 min (300 s) (Doukkali et al., 2015).

| Protein preparation
Three-dimensional structures of cyclooxygenase-1 (PDB ID: 5wbe) (Cingolani et al., 2017) and human cyclooxygenase-2 (PDB ID: 5ikq) (Orlando & Malkowski, 2016) were downloaded in pdb format from the protein data bank (Berman et al., 2000) for the assessment of analgesic activity.Discovery Studio 2020 was used to make both of the protein structures ready by eliminating water molecules and complex co-structures.The proteins subsequently went through an energy minimization procedure utilizing the steepest descent and conjugate gradient methods.Energy calculations were done in vacuo using the GROMOS 96 43B1 parameters with the implementation of Swiss-PDB Viewer (Version 4.1.0).The pdb format was transformed to the pdbqt format employing AutoDock Tools (version 1.5.6), and the final macromolecules have been conserved in this format.

| GC-MS profiling
The phytoconstituent-rich ethyl acetate fraction of the acetonic extract of C. suaveolens bulb and root was subjected to GC-MS analysis (gas chromatography-mass spectrometry).A total of 16 compounds were identified from the bulb extract, and an additional 16 compounds were found in the root extract, each exhibiting diverse phytochemical activities.Figures 1 and 2 show the chromatogram, and Tables 2a and   2b list the chemical components and their molecular formula, molecular weight (MW), retention time (RT), and concentration (%).

| Acetic acid-induced writhing method
In this procedure, the examined extracts administered at 200 and 400 mg per body weight exhibited a reduction in writhing occurrences among rodents when compared to the control group.
Notably, the bulb and root extract at the 400 mg/kg dose displayed a marked reduction in writhing incidents (indicated by a significant pvalue of less than .001).This substantial decrease in writhing pointed to their enhanced efficacy as peripheral analgesic agents, as detailed in Table 3.Additionally, when comparing the effects of bulb and root extracts, the bulb extract displayed the highest percentage of writhing inhibition at both the 200 and 400 mg/kg doses, surpassing the performance of the root extract.

| Tail immersion method
The extracts administered at 200 and 400 mg/kg body weight dem-

| Hole cross method
During the hole cross test, there was a progressive decrease in the frequency with which the mice traversed between the chambers over a span of 2 h, as indicated in Table 9.In the hole cross method, it has been observed that in the ethyl acetate fraction of bulb and root at doses of 200 and 400 mg/kg body weight, the decreased locomotor activity of the experimented animals occurred.Among these samples, the ethyl acetate fraction of the root of C. suaveolens at doses of 200 and 400 mg/kg body weight mostly decreased the frequency of movement of the mice through the hole at 30 min (2.60 and 2.00) (p < .001)compared to standard (6.00) at 30 min.It was also observed that the ethyl acetate fraction of the bulb of the plant at a dose of 400 mg/kg body weight decreased the locomotor activity of the test animals at 30 min (5.60; p < .05).This result indicates that the extracts can also decrease exploratory behavior, which suggests a sedative effect.

| Rotarod method
In the rotarod test, root extract at 400 mg/kg showed a significant decrease in the time spent on the rod (130 s at 30 min, 126 s at 60 min, and 134.60 s at 90 min), which, when compared to the TA B L E 8 Effect of Coelogyne suaveolens bulb and root extract on the number of movements using the open field method.
Again, bulb extract at 400 mg/kg showed a significant decrease in time spent on the rod (154 s at 30 min, 150 s at 60 min, and 157.4 s at 90 min); this also differed from the control in a statistically significant way (p < .001).The other two doses (200 mg/kg) of the root and bulb of the plant did not show any significant results.The rotarod test revealed a decrease in motor coordination and balance, which is a common effect of CNS depressants.Diazepam, on the other hand, was discovered to be a more effective muscle relaxant than the extracts.

| DISCUSS ION
In this study, we have tested C. suaveolens bulb and root extract for identifying bioactive compounds and tested rodents for CNS, analgesic, and sedative profiling.
The acetic acid induction test is widely used to determine peripheral analgesic efficacy (Trongsakul et al., 2003).The pain induced by acetic acid occurs through an indirect mechanism involving the elevation of PG2 and PG2α levels at receptor sites within organ cavities.This suggests that carboxylic acid functions by indirectly enhancing the release of endogenous mediators (Ezeja et al., 2011;Lee & Choi, 2008).Acetic acid causes squirming in experimental animals via a chemosensitive nociceptor (Onasanwo & Elegbe, 2006).
Nonsteroidal anti-inflammatory medications work by inhibiting sensory neuron activation in response to inflammatory mediators (Akindele et al., 2011).Furthermore, the percentage reduction in the number of stomach squirms might indicate the extent of analgesia (Marchioro et al., 2005).The bulb and root extract, administered at 200 and 400 mg/kg doses, significantly reduced the average number of writhes, similar to the effect of standard aceclofenac.The idea behind the tail immersion method is that substances resembling morphine can specifically prolong the time it takes for the tail TA B L E 1 0 Effect of Coelogyne suaveolens bulb and root extract on motor coordination using the rota-rod method.
TA B L E 11 A Binding affinity and interaction of the selected compounds with the amino acid residue of cyclooxygenase-1 (PDB ID: 5wbe).withdrawal reflex to occur in mice.The effectiveness of the extract's analgesic properties is gauged by the extension of the initial latency period (Elisabetsky et al., 1995;Pal et al., 1999).Both the root and bulb extracts, specifically at a 400 mg/kg dose, increased the reaction time, % MPE (maximum possible effect), and basal latency.
The effect of the bulb extract at this dose remained stable between 30 and 60 min.The delayed onset of action of the root extract, as compared to the bulb extract, might be attributed to differences in active compounds or their pharmacokinetics.
The fact that the extracts enhance basal latency suggests that they may activate a centrally mediated analgesic mechanism (Bachhav et al., 2009).Sensory nerves sensitize the nociceptors in this approach, and the participation of endogenous chemicals such as prostaglandins is minimized (Uche & Aprioku, 2008) for this purpose.In the CNS (central nervous system), GABA (gamma-aminobutyric acid) plays a crucial role as a major neurochemical.
Plant extracts may exert their effects by enhancing GABAergic inhibition in the CNS, leading to hyperpolarization and a reduced firing rate of vital neurons in the brain.Alternatively, they may directly activate GABA receptors (Verma et al., 2010).Previous research suggests that plants containing saponins, tannins, and flavonoids may have an impact on various CNS disorders (Yadav et al., 2013).
Initial phytochemical analyses and evaluations of plant extracts have suggested that neuroactive steroids and flavonoids might operate as agents binding to GABA receptors within the central nervous system, akin to molecules resembling benzodiazepines (Verma et al., 2010).When compared to the control group in the current investigation, the bulb and root extracts at 400 mg/kg showed mild anxiolytic efficacy.
The hole board test is an alternative method for assessing anxiolytic activity.It depends on tracking experimental animals' head-dipping behavior while utilizing the hole-board instrument.If the animals are sensitive to changes in their emotional or anxiolytic state, an increase in head-dipping behavior might be observed (Foyet et al., 2012;Wei et al., 2007).Another crucial aspect of assessing a drug's impact on the central nervous system (CNS) is to observe its effect on the locomotor activity of the test animals.Locomotor activity can indicate CNS stimulation, where increased alertness leads to heightened motion activity, or it can imply a sedative effect when motion activity is reduced (Bhattacharya & Satyan, 1997).The level of CNS excitement can be gauged from locomotor activity, and a decrease in this activity is closely associated with CNS depression-induced sedation (Islam et al., 2015).In this study, the CNS depressant activity of the ethyl acetate fraction of acetonic extract from C. suaveolens bulb and root was evaluated using three behavioral methods.
The open field method measured the animals' locomotor activity, providing insights into the general level of CNS activity.The hole cross method assessed exploratory behavior, which is also related to CNS activity.Lastly, the Rotarod method evaluated the extract's ability to impair motor coordination and balance in animals.All three methods indicated that the extract may possess potent sedative activity.
These findings suggest that our compounds effectively target the active site residues of Cyclooxygenase-1 and Cyclooxygenase-2, suggesting their potential to disrupt the enzymatic activity and inhibit prostaglandin synthesis.

| CON CLUS ION
These investigations unveil promising pharmacological possibilities that could contribute to the advancement of modern medicine in deriving drugs from plant origins, offering diverse therapeutic potentials with minimal adverse effects.C. suaveolens emerges as a potential remedy for certain neuropharmacological conditions and pain relief.This research holds the potential to shed light on crucial domains within biomedical science that have yet to be extensively explored by researchers.In addition, seven compounds' binding orientations to the cyclooxygenase-1 and cyclooxygenase-2 enzymes were explored in our molecular docking investigation.Alphalinolenic acid,3,3,3a,4,5,{Bicyclo[3.1.1]heptan-3-one,2,6,6-trimethyl-,(1.alpha.,2.beta.,5.enhance the validity of results.Additionally, while dose-dependent effects were noted in some experiments, a more comprehensive dose-response analysis is needed to establish the optimal therapeutic dosage.Furthermore, it is crucial to acknowledge that the observed effects in Swiss albino mice may not directly translate to human responses, necessitating further research using diverse animal models and, ultimately, clinical trials.Lastly, ongoing efforts to identify and characterize the exact bioactive compounds causing the therapeutic potential in the extract's ethyl acetate fraction should be pursued to provide a more comprehensive understanding of the plant's therapeutic potential.
. To advocate for the traditional functions of orchids, Coelogyne suaveolens, a member of the family Orchidaceae native to central China, Assam, the eastern Himalayas, and Thailand, has been selected.The central question addressed by this research is whether C. suaveolens, a traditional medicinal plant, possesses therapeutic properties that can be scientifically validated.In comparison to previously published literature on medicinal orchids, this research offers a unique contribution by focusing on C. suaveolens, which has received limited attention in prior studies.While orchids, especially Dendrobium species, have been investigated for their medicinal properties, including antioxidant, hypoglycemic, immune modulatory, cardioprotective, hepatoprotective, and antitumor effects, this study distinguishes itself by delving into the potential therapeutic benefits of C. suaveolens.As no prior research exists on the analgesic, anxiolytic, sedative activities of this orchid, the purpose of this research is to assess its bioactive phytochemicals and their pharmacological actions.This research addresses a specific research gap in the field of medicinal plant-based therapies by providing empirical evidence for the therapeutic potential of C. suaveolens.It fills the gap between traditional medicinal knowledge and modern scientific validation, demonstrating its effectiveness in pain relief, anxiety reduction, and sleep disorders, paving the way for the development of novel treatments in these areas.
These mice were housed in clean, dry polypropylene cages within the Animal House of the Department of Pharmacy at the University of Chittagong.They were subjected to a 12-hour light-dark cycle at a temperature of 25 ± 2°C and a relative humidity level ranging from 45% to 55%.Throughout the duration of the investigation, the mice were provided with a nutritionally adequate diet and a free water supply.Twelve hours prior to and throughout the duration of the trial, food was not given.The Departmental Ethical Review Committee of the University of Chittagong's Department of Pharmacy granted approval for the clinical animal experiment under consent number Pharm/CUDP-16, 2022:08.At the completion of each experiment, all mice were sacrificed under diethyl ether anesthesia.
. Each test subject was positioned in the center of the maze, oriented toward an open arm, and the stopwatch was initiated.Over a 5-minute period, several factors were observed.Initially, the mice exhibited a preference for either the open or closed arms.The count of entries into both open and closed arms was noted, with an entry defined as all four paws of the mouse being within an arm.Afterwards, the animals received various substances, including a control group receiving saline, a standard group administered with diazepam, and multiple test samples of C. suaveolens.After a 30-minute interval from treatment, each animal was placed back in the maze's center.For a final 5-minute period, the duration that each animal spent in both the open and closed arms was documented.Percent Inhibition of Pain = (Nc − Nt) ∕ Nc, %of MPE = ( Post drug Latency − Pre drug Latency)∕ (Cut off time − Pre drug Latency) × 100.%of Elongation = (Latency of Treatment − Latency of Control)∕ Latency of Treatment × 100 % Increase in reaction time = (post treatment − pre treatment) pre treatment × 100 | 1753 EVA et al.
varying degrees of elevation in pain reaction time (PRT), percentage elongation of latency, and percentage of maximal possible effect (%MPE) in comparison to the control group, with the effect becoming more pronounced with increasing doses.Conversely, the standard substance, morphine sulfate (10 mg/kg), markedly intensified these measures.The anti-nociceptive effect of the ethyl acetate fraction of the bulb of C. suaveolens at the 400 mg/kg dose level was found to be significant (p < .001)with 32.13% elongation of reaction time at 30 min and p < .01 with 23.03% elongation of reaction time at 60 min in the tail immersion model.Again, a significant result (p < .001)with 27.22% elongation of reaction time at 60 min is shown by the root of C. suaveolens at the 400 mg/kg dose level in the tail immersion model.This suggests that the extracts have central analgesic activity, which may be due to their effects on the spinal cord or brain.The delayed onset of action of the root extract compared to the bulb extract may be due to differences in the active compounds or their pharmacokinetics.
pounds and the respective enzymes, indicating their potential as potent inhibitors.Interestingly, against Cyclooxenase-1, all the examined compounds interacted with ARG120 residue either by forming hydrogen or hydrophobic bonds except{bicyclo[3.1.1] alpha.)}, and geranyl acetate were among the compounds tested, and their promising docking scores for both enzymes suggested that they could be able to block prostaglandin synthesis.The compounds' capacity to target key regions involved in the enzymatic activity is further demonstrated by their interactions with important residues, such as ARG120 and TYR355 in cyclooxygenase-1 and TYR385 and SER530 in cyclooxygenase-2.These results provide further evidence that the compounds under study have the potential to operate as analgesic drugs by inhibiting the enzymatic activity of cyclooxygenases 1 and 2. In a nutshell, the investigation into the medicinal potential of C. suaveolens has yielded promising results, but several uncertainties warrant consideration in future research.First, small sample sizes and replication across experiments raise concerns about statistical robustness.Future studies should incorporate larger sample sizes and multiple replicates to The data were presented in the form of a mean ± SEM (standard error of mean)."Statistical Package for the Social Sciences" (SPSS, (Kumar et al., 2023Trott & Olson, 2009) cyclooxygenase-1 and77.1175,62.5380,and57.5579angstroms(X,Y,andZ)forthe human cyclooxygenase-2.The shell script given by the AutoDockVina developers was used to implement AutodockVina, and the binding affinity of the ligands was measured in terms of kcal/mol(Kumar et al., 2023Trott & Olson, 2009).coma,orlacrimation, at any of the doses tested.At the concentrations utilized in the tests, no mice died.As a result, the LD50 was confirmed to be greater than 4000 mg/kg.4.2 | Phytochemical investigation4.2.1 | Qualitative screeningThis study was conducted to verify the presence or absence of preliminary phytochemicals.A variety of phytochemicals, including alkaloids, flavonoids, saponins, tannins, reducing sugars, phenolic compounds, proteins, amino acids, phytosterols, and terpenoids were detected in the C. suaveolens bulb and root extracts upon phytochemical screening, as demonstrated in Table1.

No Compound name Molecular formula Molecular weight (g/mol) RT (min) Concentration (%)
Table 4a displays the findings for PRT and %MPE, while Table4bexhibits the percentages of elongation of latency.Phytochemical analysis of the ethyl acetate fraction of C. suaveolens bulb and root extracts.at60min when compared to the control.Additionally, root extract at 400 mg/kg showed significant analgesic activity (p < .05) at 60 min.Among the two doses of C. suaveolens, the 200 mg/kg dose failed to show statistically significant analgesic activity when compared with the control.Furthermore, bulb extract at a dose of 400 mg/ kg showed a 20.32%, 27.39%, and 2.56% increase in reaction time at 30, 60, and 90 min, respectively, whereas for root extract, the values are 10.92%, 9.96%, and −2.32%, which are demonstrated in Table5.Compounds identified by GCMS analysis in the root of Coelogyne suaveolens.
4.4.3|Hot plate methodC.suaveolens bulb and root extract at doses of 200 mg/kg and 400 mg/ kg showed analgesic activity by the hot plate method.The bulb extract at 400 mg/kg showed significant activity (p < .01)at 30 min and TA B L E 1 F I G U R E 1 Coelogyne suaveolens ethyl acetate fraction's GC-MS chromatogram (Bulb).F I G U R E 2 Coelogyne suaveolens ethyl acetate fraction's GC-MS chromatogram (Root).TA B L E 2 A Compounds identified by GCMS analysis in the bulb of Coelogyne suaveolens.SL This study examined the anxiolytic activity of the ethyl acetate fraction of the acetonic extract of C. suaveolens bulb and root.The results in Table 6 showed that the ethyl acetate fraction of bulb and root at a dose of 400 mg/kg body weight spent 5.00 and 5.20 s, respectively, in the open arm of the EPM apparatus, whereas in the standard it was 57.72 s, but in the control group it was 0.50 s.Again, it spent more time in the closed arm (279 and 268.8 s) in comparison to the standard (214 s).The other two doses (200 mg/kg) of bulb and root did not show any significant results.Moreover, all the extracts spent more time in the closed arm and less time in the open arm of the EPM apparatus in comparison to the standard, but in comparison to the control, they spent more time in the open arm and less time in the closed arm.From the observed result, it could be concluded that bulb 400 and root 400 have moderate anxiolytic activity.4.6 | Sedative profiling 4.6.1 | Open-field test Based on Open Field data, it appears that the ethyl acetate fraction of bulb and root at the dose of 400 mg/kg at 30 min (71.4 and TA B L E 2 B Effect of Coelogyne suaveolens bulb and root extract on reaction time and %MPE.Changes in reaction time produced by Coelogyne suaveolens using the hot plate method.All values are Mean ± SEM and statistically analyzed using One-Way Analysis of Variance (ANOVA) followed by Dunnett's multiple comparison test, n = 5. *p < .05,**p < .01,***p < .001when compared with control.Evaluation of anxiolytic activity of Coelogyne suaveolens bulb and root by using the Elevated Plus Maze Method.
Effect of Coelogyne suaveolens bulb and root extract on the hole cross test.All values are Mean ± SEM and statistically analyzed using One-Way Analysis of Variance (ANOVA) followed by Dunnett's multiple comparison test, n = 5. *p < .05,**p < .01,***p < .001when compared with control.