Alkaloid profiling and antimicrobial activities of Papaver glaucum and P. decaisnei

Objective Papaver decaisnei Hochst. & Steud. Ex Elkan and Papaver glaucum Boiss. & Hausskn. growing wild in Northern Iraq have been historically used for medicinal purposes. In this study, both species were evaluated for their alkaloid content and antimicrobial activities. Results Alkaloids were extracted and isolated by preparative thin-layer chromatography (TLC). Identification was carried out by comparing spectral data (UV and 1H-NMR) and TLC Rf values with those of authentic samples. Two alkaloids, proapaorphine-type mecambrine and aporphine-type roemerine were isolated from P. decaisnei. Two benzylisoquinoline type alkaloids papaverine (major alkaloid) and palaudine as well as aporphine-type N-methylasimilobine have been obtained in P. glaucum. Both P. glaucum and P. decaisnei extracts revealed strong antimicrobial activity on Pseudomonas aeruginosa ATCC 27853 and Enterococcus faecalis ATCC 29212. Collectively these results indicate that P. glaucum and P. decaisnei are promising sources of alkaloids that could further be investigated for medicinal purposes. Supplementary Information The online version contains supplementary material available at 10.1186/s13104-021-05762-x.


Introduction
Papaver somniferum is one of the oldest cultivated medicinal plants and still keeps its importance for the production of its main alkaloids codeine and morphine [1,2]. Thebaine, another major alkaloid in P. somniferum, is utilized as starting material for semisynthetic opioids oxycodone and buprenorphine [2]. Studies on the alkaloid content of different wild Papaver species have revealed many chemotypes, some of which contain thebaine as a major alkaloid along with other medicinally important alkaloids [3]. Alkaloids obtained from Papaver species show biological effects including persuasive narcotic, analgesic, anti-inflammatory, anti-hypertensive, antioxidant, antidepressant, anticancer, antimicrobial, antidiarrheal activities as well as cholesterol and glucoselowering properties [4,5].
The biologically active and medicinally significant nature of plants from genus Papaver have led us to investigate the alkaloids of understudied Papaver species, P. glaucum and P. decaisnei growing in northern Iraq along Jafaar et al. BMC Res Notes (2021) 14:348 with elucidating their medicinal potential via studying their antimicrobial activities in-vitro.

Plant material collection
Samples of P. decaisnei and P. glaucum were collected from Northern Iraq at the flowering stage from Hawraman- Tawela

Alkaloid extraction and isolation
The dried P. decaisnei and P. glaucum aerial parts were each percolated with methanol at room temperature and evaporated to obtain syrup-like residue under vacuum. The residue was dissolved in 5% hydrochloric acid (HCl) and extracted with light petroleum. The acidic fraction was made alkaline with 25% ammonia (NH 3 ) (Sigma Aldrich, Germany) to pH 7-8 and extracted successively with chloroform (Sigma Aldrich, Germany). Chloroform extracts were combined and dried over anhydrous sodium sulphate (Na 2 SO 4 ), filtered and concentrated at low pressure to yield total tertiary alkaloid extracts of P. decaisnei and P. glaucum [7].

H-NMR spectrum analysis
The 1 H Nuclear Magnetic Resonance (NMR) spectra were recorded in deuterochloroform (CDCl 3 ) by VAR-IAN (Agilent) MERCURY 400 MHz (Varian, Palo Alto, CA, USA) spectrometer with 400 MHz proton resonance frequency in Ankara University Central Laboratory.

UV spectrum analysis
Shimadzu UV-2401/2501 spectrophotometer was used between 200 and 400 wavelength/nm. Spectra were made with methanol solution for 1 cm quartz cuvettes. Spectra were recorded by adding 50 µl of 0.5 N sodium hydroxide (NaOH) (Sigma Aldrich, Germany) solution to samples. 50 µl of 0.5 N HCl solution was added to sample solutions and the spectrum was recorded again [8].

Minimum inhibitory concentration (MIC)
For the MIC assessment, fresh bacterial broth cultures were prepared, standardized to 0.5 McFarland and diluted with sterile PBS to 1 × 10 5 cfu/ml. The extracts were serially diluted, bacterial culture was added to each tube and incubated at 37 °C for 18 h. The absorbance was measured at 600 nm relative to the blank and the controls. The tests were done three times in triplicates [9].

Results and discussion Extraction and separation of alkaloids from P. glaucum and P. decaisnei
The amount of plant material used and the yield of tertiary alkaloid extracts from P. glaucum (PG) and P. decaisnei (PD) aerial samples was 150 g and 100 g respectively. Extractions of PG and PD lead to 0.24% and 0.11% of extract yield respectively.

Isolation and purification of P. glaucum and P. decaisnei alkaloids by preparative TLC
Preparative TLC of PG tertiary extract allowed detection of three bands named PG1, PG2 and PG3 (Fig. 1a).
Preparative TLC of PD tertiary extract allowed detection of two prominent bands named PD1 and PD2 (Fig. 1b). The amount of extract obtained from PG and PD was calculated for each fraction (Additional file 2: Table S1).

Identification of alkaloids from P. decaisnei and P. glaucum
Structure elucidation of alkaloids were carried out based on UV spectroscopic analysis and 1 H-NMR as well as TLC by direct comparison (except for palaudine) with authentic samples. 1  While papaverine (PG1) was determined to be the major alkaloid, palaudine (PG2) was revealed as the minor alkaloid. The isolation of palaudine was first reported from P. somniferum [10] using HPLC and HPLC-MS studies, followed by PG [11]. Furthermore, the structure of palaudine as a minor alkaloid has been confirmed by 1 H-NMR spectra and by comparing 1 H-NMR ppm values with related data [11]. In line with previous studies [10,11], our UV spectral data further confirm the similarity of palaudine and papaverine (Additional file 1: Fig. 1).
In our study, three signals at 3.75, 3.76 and 4.46 ppm indicated the presence of three OMe at C6, C7 and C4.
A methylene signal appears at 4.46 ppm. Presence of four doubles and 3 singlets corresponded to 6 aromatic protons. Methylene signals at 4.46 and at 4.52 ppm in the 1 H-NMR spectra of palaudine and papaverine respectively confirm their benzylisoquinoline structure (Fig. 2b  and Fig. 2a). This is the first report of isolation of a benzylisoquinoline alkaloid papaverine as a major alkaloid in PG. The benzylisoquinoline papaverine and N-methylasimilobine have been shown for the first time in this species. However, isolation of N-methylasimilobine was not surprising since another aporphine alkaloid liriodenine, structurally similar to N-methylasimilobine, was previously shown in PG [3]. In addition to liriodenine, a previous investigation of Iraqi origin PG herbarium specimens reported the identification of roemerine, dehydroromerine, roemerine N-oxide, rhoeagenine and glaucamine together with an unidentified aporpine [3].
The alkaloids of PD growing wild in Iraq were studied for the first time in our study. Isolation of total tertiary alkaloids from PD by preparative TLC, yielded two alkaloids, aporphine-type roemerine (PD1) as a minor alkaloid and proaporphine-type mecambrine (PD2) as major alkaloid. These alkaloids were isolated from PD for the first time. 1 H-NMR spectra of mecambrine and roemerine ( Fig. 2e and Fig. 2d) were compared with literature data and TLC Rf values were found to be identical with those of reference samples. Previous investigations of PD have revealed the presence of codeine, coptisine, corytuberine, isorhoeadine, morphine, narcotine, papaverine, papaverrubines, protopine, rhoeadine, roeagenine, thebaine, thebaine methohydroxide, and papaverine as the major alkaloid [12,13].

Antimicrobial activities of extracts from P. glaucum and P. decaisnei
Various plant extracts and essential oils have been demonstrated to have antibacterial and antifungal activities, impacting even antimicrobial resistant species [14][15][16]. Multidrug resistant (MDR) bacteria are among the biggest challenges that global health care systems are faced with, as they not only resist classical therapy but they also have improved virulence mechanisms, including increased biofilm formation [17]. This issue requires thorough investigation of novel agents with antimicrobial and/or anti-virulence properties to provide candidates that can be translated as effective treatment approaches [18]. Alkaloids have historically been studied and utilized for their antimicrobial activities [19,20]. In our study, antibacterial activities of PG and PD alkaloids were investigated using minimum inhibitory concentration (MIC) assessment on both Gramnegative and Gram-positive bacteria. Methanol extracts and tertiary alkaloids obtained from PG and PD showed strong antimicrobial effect on Gram-positive Enterococcus faecalis ATCC 29212 and Gram-negative Pseudomonas aeruginosa ATCC 27853 (Table 1). While all tested methanol extracts exhibited antimicrobial effect, total tertiary alkaloids from both species demonstrated the most potent antimicrobial activity (Table 1). Particularly PDTA (P. decaisnei total tertiary alkaloids) exerted antimicrobial effect on both of the tested bacteria at 27.5 μg/ml, the lowest concentration of all tested  (Table 1). Methanolic extracts from both PG and PD exhibited antimicrobial effect, however with reduced potency, when compared with isolated total tertiary alkaloids ( Table 1). The MIC values for methanol extracts were 2-four fold higher for PG and about seven fold higher for PD when compared with their total tertiary alkaloids, highlighting total tertiary alkaloids' effectivity (Table 1). PGME (P. glaucum methanol extracts) exhibited a fold increase in antimicrobial activity towards the Gram-negative P. aeruginosa (90 μg/ml) compared to the Gram-positive E. faecalis (180 μg/ml). Collectively, our results reveal the strong antimicrobial activity of PG and PD extracts, especially highlighting the antibacterial effectivity of their total tertiary alkaloids.
In addition to their antibacterial activity [21], alkaloids have antibiotic enhancing and antivirulence activities where they served as scaffolds for important antibacterial drugs like metronidazole and quinolones [22]. Alkaloids mostly exhibit antibacterial activity through depolarizing the cell wall, intercalating into bacterial DNA and inhibiting mRNA transcription [23,24]. Anti-virulence properties associated with alkaloids include preventing biofilm formation via interfering with regulation of virulence genes as well as impacting quorum sensing and expression or function of sortases, adhesins and various secretion systems [25].
While mecambrine and roemerine may synergistically be contributing to the antimicrobial activity observed with PD alkaloids, strong antimicrobial effect is likely roemerine mediated. Tsai and co-workers have previously shown antimicrobial effects of roemerine on Bacillus cereus, Micrococcus sp, and Staphylococcus aureus [26]. Roemerine was previously reported to alter S. aureus membrane permeability [27].
N-methylasimilobine alkaloid whose phenolic character was confirmed by UV spectra taken in 0.5 N NaOH (Additional file 1: Fig. S1) [28], was thought to contribute towards antimicrobial activity against Grampositive bacteria [29] in addition to having moderate antioxidant capacity [30].

Conclusion
Overall, our study provides a thorough investigation of the alkaloid contents of two understudied species, P. glaucum and P. decaisnei. We report, for the first time, the isolation of roemerine and mecambrine from P. decaisnei and isolation of papaverine and N-methlyasimilobine from P. glaucum while further establishing benzylisoquinoline alkaloid papaverine as a major alkaloid in P. glaucum. These Papaver species and their extracts were also studied for the first time for their antimicrobial properties where their antimicrobial activities against pathogenic microorganisms, E. faecalis and P. aeruginosa were elucidated. We reveal the potential of these plant species to further be utilized in antimicrobial, antivirulence or synergistic, antibiotic-enhancing studies.

Limitations of the study
Papaver glaucum and P. decaisnei samples were collected from wild in Northern Iraq and their alkaloid content were studied in Cyprus. Limited amount of sample allowed investigation of their alkaloid content on limited number of pathogens.