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. 2021 Aug 24;12:674682. doi: 10.3389/fphar.2021.674682

TABLE 2.

Pharmacological properties of selected plants/natural compounds against STDs pathogens.

Pharmacological activities Plant used/compounds Model Dose Major findings Refs.
Antibacterial effects
Anti-chlamydia Catechin-rich green polyphenol tea extract C. trachomatis-infected human cells/in vitro IC50 = 1.6 mg/ml ↓ C. trachomatis proliferation Yamazaki et al. (2003)
Scutellaria radix/baicalein Hep-2 cells infected by C. trachomatis/in vitro IC50 = 0.12, 0.24, 0.48 g/ml ↑ RFX5 Hao et al. (2009)
↓CPAF
Ocimum sanctum L., Drynaria quercifolia L N. gonorrhoeae/disk diffusion method/in vitro IC50 = 1,000 μg/L ↓ N. gonorrhoeae Shokeen et al. (2005)
Annona squamosa L./chloroform extract
Antifungal effects
Anti-candida 18 plants/bark, stems, roots dichloromethane:methanol extracts and aqueous extracts C. albicans/in vitro Bolusanthus speciosus Antifungal effect Van Vuuren and Naidoo (2010)
IC50 = 0.015–0.193 mg/ml
Pterocarpus angolensis DC., Pappea capensis eckl. & zeyh
IC50 = 0.195 mg/ml
Ximenia caffra sond
IC50 = 0.78 mg/ml
Osyris lanceolata hochst. & steud
IC50 = 0.098 mg/ml
B. speciosus
IC50 = 0.012 mg/ml
Sapindus mukorossi gaertn C. albicans IC50 = 15 mg/ml Antifungal effect Talwar et al. (2000)
Mentha piperita L C. tropicalis, C. krusei/in vitro
Azadirachta indica a
13 plant species/aqueous, ethanolic, ethyl acetate extracts C. albicans/in vitro IC50 = 100 mg/ml Antifungal effect Buwa and van Staden (2006)
Aloe ferox mill C. albicans/agar diffusion, microdilution IC50 = 20 mg/ml Antifungal effect Kambizi and Afolayan (2008)
Jatropha multifida L. stem and bark/hexane, methanolic, ethyl acetate extracts Methods/in vitro
19 plant species/organic dichloromethane: Methanol extract, aqueous extracts C. albicans/in vitro IC50 = 0.38–16 mg/ml Antifungal effect Jadhav et al. (2015)
Acacia karroo Hayne/roots, Rhoicissus tridentata (L.f.) wild & R.B.Drumm/roots C. albicans/broth microdilution method/in vitro IC50 = 0.8 mg/ml Antifungal effect Mamba et al. (2016)
Cassine crocea (thunb) C.Presl/bark, Hilliardiella nudicaulis (DC.) IC50 = 1.6 mg/ml
H.Rob./whole plant
P. capensis C. albicans/broth microdilution method/in vitro IC50 = 0.39 mg/ml - 6.25 mg/ml Antifungal effect Pendota et al. (2017)
Grewia flava DC., Jatropha zeyheri Sond./roots, Cassia abbrevia Oliv./leaves C. albicans/in vitro IC50 = 0.20 mg/ml Antifungal effect Mongalo et al. (2017)
Anti- parasites effects
Anti- trichomonas Manilkara rufula (miq.) H.J.Lam/leaves T. vaginalis/in vitro IC50 = 1.0 mg/ml Anti-Trichomonas activity de brum Vieira et al. (2017)
↓trophozoites viability
Nectandra megapotamica (spreng.)/bark, leaves/essential oil T. vaginalis/in vitro IC50 = 98.7 μg/ml Anti-Trichomonas activity Farias et al. (2019)
↓trophozoites viability
Pistacia lentiscus L.mastic, Ocimum basilicum L./oil T. vaginalis/in vitro IC50 = 15 mg/ml 100% trophozoites growth inhibition damage to the trophozoite membrane system Ezz eldin and Badawy (2015)
IC50 = 30 μg/ml ↑abnormal cytoplasm vacuolization
↑cytoplasm destruction
Rheum ribes L./flower essential oil/aqueous extract from leaves, flower, stem T. vaginalis/in vitro IC50 = 0.5 mg/ml Anti-Trichomonas activity Naemi et al. (2014)
Cassine xylocarpa vent. Leaves, bark, and roots T. vaginalis/in vitro IC50 = 0.46 μg/ml Anti-Trichomonas activity Roca-Mézquita et al. (2016)
Verbena sp., C. xanthocarpa/aqueous extracts T. vaginalis/in vitro IC50 = 4.0 mg/ml 100% effect against the parasite Brandelli et al. (2013)
Complete growth inhibition
Hypericum polyanthemum klotzsch ex reichardt/aqueous extracts T. vaginalis 30,236 (ATCC)/in vitro IC50 = 250 μg/ml Anti-Trichomonas activity Cargnin et al. (2013)
Killing 47% of trophozoites
Morinda panamensis seem roots/anthraquinone T. vaginalis/in vitro IC50 = 1.03 μg/ml Satisfactory activity against T. vaginalis Cáceres-Castillo et al. (2019)
Sapindus/saponins T. vaginalis/in vitro Concentration 0,0005% ↓ viability ↓Trichomonas trophozoite numbers Tiwari et al. (2008)
Verbascum thapsus L T. vaginalis/in vitro IC50 = 800 μg/ml ↑apoptosis in trophozoites Fakhrieh-Kashan et al. (2018)
Zingiber officinale roscoe
Antiviral effect
anti-HIV-1 activity Myrothamnus flabellifolia welw./3,4,5-tri-O-galloylquinic acid M-MLV RT/in vitro IC50 = 82 μM ↓HIV-1 Kamng’ona et al. (2011)
↓RT
Calophyllum brasiliense cambess/hexanic, acetonic, methanolic extracts MT2 human lymphocytes IC50 = 0.34 μM/ml ↓HIV-1 Huerta-Reyes et al. (2004a)
HIV-I RT/in vitro IC50 = 0.5 μM/ml ↓RT
IC50 = 0.66 μM/ml ↓HIV-1 IIIb/LAV ↓replication
Ferula moschata (H.Reinsch) koso-pol./dry root methanolic extract H9 lymphocytes/in vitro IC50 > 100 mg/ml ↓HIV replication Zhou et al. (2000)

Abbreviations and symbols: ↑ increased, ↓ decreased, chlamydial protease-like activity factor (CPAF), human immunodeficiency virus type 1 (HIV-1), lymphadenopathy-associated virus (LAV), reverse transcriptase (RT), regulatory factor X-5 (RFX5).