ABSTRACT
Trichomonas vaginalis is a sexually transmitted protozoan parasite that usually causes infections in women. Metronidazole is used as the first choice in the treatment of this parasitic disease, but there is a need for new drugs since 1980’s with increasing numbers of reported resistance. In this study, it was aimed to determine the antitrichomonal activity of the major components of Cinnamomum zeylanicum (cinnamon) and Thymusvulgaris (thyme) essential oils, cinnamaldehyde, carvacrol and thymol against metronidazole resistant and susceptible T. vaginalis strains, and to determine their interaction with metronidazole by checkerboard method.
Cinnamaldehyde, carvacrol, thymol and metronidazole were obtained commercially. Two clinical isolates and one metronidazole resistant T. vaginalis reference strain were used in the study. MIC50 and MLC values of essential oil components and metronidazole were determined by broth microdilution method. The combinations of essential oil components with metronidazole were determined by the checkerboard method.
According to in vitro activity tests, cinnamaldehyde was determined to be most effective essential oil component. Clinical isolates were susceptible to metronidazole. In combination study, metronidazole showed synergy with cinnamaldehyde and carvacrol, and partial synergy with thymol.
It was determined that cinnamaldehyde, carvacrol and thymol, which are known to have high antimicrobial activity, also have strong activity against T. vaginalis isolates and show a synergistic interaction with metronidazole. The use of metronidazole at lower doses in the synergistic interaction may contribute to the literature in terms of reducing drug side effects, creating a versatile antimicrobial target, and reducing the rate of resistance development.
INTRODUCTION
Trichomoniasis is a non-viral and sexually transmitted urogenital infection that affects both men and women. According to the World Health Organization, it is estimated that more than 156 million new cases of trichomoniasis will occur in 2020 (1). However, prevalence data vary according to the population studied and the method used for diagnosis. Higher prevalence values have been reported when compared with nucleic acid amplification tests, direct microscopic examination and vaginal pH tests (2, 3). Trichomonas vaginalis is a protozoan parasite and is usually associated with clinical symptoms including yellow-green vaginal discharge, vulvovaginal irritation and dysuria. Although the infection is usually asymptomatic in men, symptoms such as urethral irritation, discharge, burning after urination or ejaculation and swelling of the prostate gland may be observed (4). The parasite’s soluble and membrane-associated enzymes with phospholipase A activity cause microulcerations and microscopic haemorrhages in the vaginal wall and exocervix by causing the breakdown of nucleated cells. Although humoral and cell-mediated immune responses develop against infection, the development of repeated infections indicates non-protective immunity against the parasite (5). Metronidazole is used as the first choice in the treatment of the disease caused by the parasite, yet, after 1980, an increasing number of reports of resistance development led to the need to search for new drugs. In recent years, natural active ingredients derived from plants, called phytochemicals, have become the focus of interest with the discovery of their strong antimicrobial effects (6, 7). This study aimed to determine the antitrichomonal activity of cinnamaldehyde, carvacrol and thymol, the major components of Cinnamomum zeylanicum (cinnamon) and Thymus vulgaris (thyme) essential oils against metronidazole-resistant and susceptible T. vaginalis isolates and their synergistic interactions with metronidazole.
METHODS
No clinical material or data were used in this study. Therefore, ethics committee approval is not required.
Minimum inhibition concentration (MIC50) and (minimum lethal concentration (MLC) values of phytochemicals and metronidazole were determined in vitro by broth microdilution method and the combination of each phytochemical with metronidazole was investigated by checkerboard method (Figure 1).
Pure forms of cinnamaldehyde, carvacrol, thymol and metronidazole used in this research were obtained commercially (Sigma, the USA). Two clinical isolates and one metronidazole-resistant T. vaginalis reference strain (ATCC 50143) were used in this study. Clinical isolates were produced from vaginal swabs sent to our laboratory by sowing them on TYM (trypticase yeast-extract maltose) medium and subcultured until they entered the logarithmic phase (8). Metronidazole-resistant T. vaginalis reference strain (ATCC 50143) was obtained from Manisa Celal Bayar University Faculty of Medicine Parasitology Bank.
For all isolates, MIC50 and MLC values of phytochemicals and metronidazole were determined in vitro by broth microdilution method in 96-well microplates (9). The dilution range for phytochemicals was set to be 1600-0.9 µg/mL and 12500-3 µM for metronidazole. 5x10³ parasites/mL T. vaginalis trophozoites were added to each well except for negative control. Microplates were incubated at 37 °C for 48 hours. At the end of incubation, the viability and motility of T. vaginalis trophozoites were evaluated under a light microscope using a counting chamber. All studies were repeated 3 times on independent days.
The combination of each phytochemical with metronidazole was investigated against a metronidazole-resistant T. vaginalis reference (ATCC 50143) strain by checkerboard method (10). Two 96-well microplates were used to determine the combination of phytochemicals with metronidazole. Serial dilutions of phytochemicals were made from top to bottom in the first microplate and metronidazole from right to left in the second microplate. Wells containing all combinations of both substances were obtained by transferring serial dilutions in the second microplate to the corresponding wells in the first microplate. 5x10³ parasites/mL T. vaginalis trophozoites were added to each well except for negative control. The plates were incubated at 37 °C for 48 hours and the viability and motility of T. vaginalis trophozoites were evaluated under a light microscope and FICI (fractional inhibitory concentration index) values were calculated. Interactions were interpreted as synergy if the FICI value was <0.5, partial synergy if between 0.5-0.75, additive if between 0.75-1, indifferent if between 1-4, and antagonism if >4 (11). All studies were repeated 3 times on independent days.
In this study, statistical analysis was not required.
RESULTS
MIC50 and MLC values of cinnamaldehyde, carvacrol, thymol and metronidazole were respectively 3.9/31.25 µg/mL, 15.6/125 µg/mL, 62.5/500 µg/mL and 6/24 µM for the first clinical isolate; 1.8/7.81 µg/mL, 31.25/250 µg/mL, 15.6/125 µg/mL and 6/24 µM for the second clinical isolate; 3.9/15.6 µg/mL, 62.5/250 µg/mL, 125/500 µg/mL and 48/390 µM for metronidazole resistant isolate (Table 1).
The FICI values for cinnamaldehyde/metronidazole, carvacrol/metronidazole and thymol/metronidazole combinations were 0.374, 0.187 and 0.750, respectively (Table 2). According to these values, the combination of cinnamaldehyde and carvacrol with metronidazole was found to be synergistic and thymol partially synergistic.
DISCUSSION
Although trichomoniasis is thought to be a simple parasitic disease, it is a serious parasitic infection that can cause premature birth and rupture of membranes in pregnant women, and outside of pregnancy, it is associated with the post-partum syndrome with fever and foul-smelling discharge and can predispose to many infections. Many studies have reported that cervical cancer, atypical pelvic inflammatory disease and infertility are more common in patients infected with T. vaginalis. In addition, in women infected with T. vaginalis, the collection of HIV-infected cells such as lymphocytes and macrophages in the vagina and cervix facilitates the transmission of HIV (12, 13). In a study conducted by Gram et al. (14) on 43016 Norwegian women, T. vaginalis infection was shown to increase the risk of cervical neoplasia caused by human papillomavirus (HPV). Studies conducted in Finland (15) and India (16) also indicated a similar correlation between trichomoniasis and cervical cancer caused by HPV. Another study demonstrated that T. vaginalis infection increased HPV infection 6.5 times (17).
The 5-nitroimidazole group of drugs is widely used in the treatment of trichomoniasis. Among these drugs, only metronidazole and tinidazole are authorized by the Food and Drug Administration in the United States for the treatment of trichomoniasis. Metronidazole is a relatively inexpensive, effective, and generally well-tolerated drug as well as generally mild gastrointestinal side effects. Occasionally, hematologic and neurotoxic side effects have also been reported. Recently, however, metronidazole-induced side effects have become a real problem in resistant and recurrent cases of trichomoniasis. Treatment of such infections requires a long-term treatment protocol with high doses of metronidazole. Increasing the drug dose leads to an increase in side effects and treatment fails with discontinuation of prophylaxis (18). New drug alternatives are needed today due to the emergence of resistant strains due to incomplete treatment processes and serious side effects of existing drugs at high doses (19).
In traditional medicine, the use of medicinal plants for the treatment of various diseases dates back thousands of years, according to records from ancient Babylon, Egypt, China and India. Despite the wide variety of chemically synthesized molecules in the modern pharmaceutical industry, natural components play a key role in drug development (20). Currently, around 35% of approved medicines are derived from natural ingredients or semi-synthetic derivatives, while 30% are synthetic molecules inspired by natural products. Remarkably, 65% of the 15 antiparasitic drugs approved by health authorities between January 1981 and June 2006 were natural ingredients or derivatives (21). Therefore, interest in medicinal plants has greatly increased in recent years. Given the need for new alternatives in the treatment of trichomoniasis, research focusing on the efficacy of natural ingredients against T. vaginalis has also increased.
Cinnamaldehyde, carvacrol and thymol, whose anti-trichomonal activity we investigated in our research, are the major natural components found in Cinnamomum zeylanicum and Thymus vulgaris essential oil. The antimicrobial activity of these components has been indicated by many researchers (22, 23). Nevertheless, there are no studies demonstrating the efficacy of cinnamaldehyde, carvacrol and thymol against T. vaginalis. In our study, these components were found to reveal potent antitrichomonal activity. In particular, the fact that cinnamaldehyde is effective at very low concentrations of 0.9 µg/mL and has no cellular cytotoxicity at these doses (24) makes this essential oil component an important drug alternative. There is no clear information in the literature on the antimicrobial mechanisms of action of cinnamaldehyde, carvacrol and thymol, yet the general view is that these compounds bind to cell membranes due to their lipophilic character, increase membrane permeability, cause physical damage by accumulating in the membrane, inhibit the production of various enzymes and kill the microorganism by negatively affecting energy metabolism (25, 26). At the MLCs determined for all three essential oil components, it was detected that the cell integrity of T. vaginalis trophozoites was preserved but they were immobile and lifeless. This suggests that these components may have an effect on the energy metabolism of the parasite.
In persistent infections caused by drug-resistant strains, increasing the drug dose often leads to treatment failure due to serious side effects. In such cases, combined drug use is often preferred as an alternative method. Phytochemicals offer promising adjuvants for antimicrobial drugs and the synergistic interaction of these metabolites with antimicrobials has been identified by researchers (6). The most common method used to determine the synergistic interaction between antimicrobials is the checkerboard method. In our study, a synergistic interaction was found between cinnamaldehyde, carvacrol and thymol in combination with metronidazole against metronidazole-resistant T. vaginalis strains. The observation of synergistic interaction between essential oil components and metronidazole may contribute to the literature in terms of using metronidazole at lower doses, reducing drug side effects, creating a versatile antimicrobial target and reducing the rate of resistance development.
CONCLUSION
Cinnamaldehyde, carvacrol and thymol, which have been shown to have antimicrobial activity against many microorganisms, were also found to have strong activity against T. vaginalis isolates. In addition, synergy was detected in combinations of essential oil components with metronidazole against metronidazole-resistant T. vaginalis isolate. The synergistic interaction in combinations provides advantages in treatment in terms of using the drug at lower doses, reducing drug side effects and preventing the development of resistance. Investigating both the individual efficacy of phytochemicals and their combinations with existing drugs can contribute to efforts to combat drug resistance.
* Ethics
Ethics Committee Approval: No clinical material or data were used in this study. Therefore, ethics committee approval is not required.
Informed Consent: Not required.
* Authorship Contributions
Concept: Y.Ö., İ.Ç., Design: Y.Ö., İ.Ç., G.Ü., M.Ü., A.Ö., Data Collection or Processing: Y.Ö., İ.Ç., G.Ü., M.Ü., A.Ö., Analysis or Interpretation: Y.Ö., İ.Ç., G.Ü., M.Ü., A.Ö., Literature Search: Y.Ö., İ.Ç., G.Ü., M.Ü., A.Ö., Writing: Y.Ö., İ.Ç.
Conflict of Interest: No conflict of interest was declared by the authors.
Financial Disclosure: The authors declared that this study received no financial support.