Geleneksel Kullanıma Sahip Bitkisel Bir Yağ Karışımının Yara İyileşmesine Etkileri ve Antiviral Aktivitesi
Year 2022,
, 616 - 623, 28.12.2022
Sevinç Yanar
,
Elvan Şahin
,
Burçin Asutay
,
Ahmet Özbek
,
Fikrettin Şahin
Abstract
Amaç: Modern tıp yöntemlerine ek olarak kullanılan tedavi yöntemlerini tanımlayan Geleneksel, Tamamlayıcı ve Alternatif tıp (GTAT) kullanımında son yıllarda dünya genelinde bir artış meydana gelmiştir. En sık kullanılan GTAT yöntemlerinden biri olan bitkisel tıp dünya nüfusunun yaklaşık yüzde sekseni tarafından çeşitli rahatsızlıkların tedavisinde kullanılmaktadır. Bu çalışmada, geleneksel tıpta çok yönlü etkileriyle bilinen Olea europaea, Nigella sativa ve Rosmarinus officinalis bitkilerinden özel olarak hazırlanan, Orta ve Doğu Anadolu’da yüzyıllardır kullanılan bir yağ karışımın antiviral etkisinin ve yara iyileşme sürecine katkısının araştırılması amaçlanmıştır.
Gereç ve Yöntemler: Çalışmanın ilk aşamasında, yağ karışımının hücrelere toksik olmayan dozu MTS testi ile belirlendi. Belirlenen dozda yağ karışımının in vitro scratch (çizik) testi kullanılarak yara iyileşmesine etkisini incelendi. Bunun için, kültüre edilmiş keratinosit hücre tabakasında çizik oluşturulduktan sonra yağ kombinasyonu uygulandı ve farklı zaman aralıklarında hücrelerin fotoğrafları çekildi. Yağ karışımının antiviral etkinliği ise Poliovirüs tip 1 ve Adenovirüs tip 5 kullanılarak araştırıldı. Virüs titresi Spearman-Karber metodu kullanılarak hesaplandı.
Bulgular: Toksik etkisi olmadığı belirlenen %0,005’lik yağ kombinasyonu uygulanan grupta yara kapanma hızının kontrol grubu ile karşılaştırıldığında 12., 24. ve 36. saat sonunda istatistiksel olarak önemli derecede fazla olduğu tespit edildi. Antiviral etkinlik analizi sonucunda yağ karışımının virüs titresinde en az dört log azalmaya neden olarak Poliovirüs tip 1 ve Adenovirüs tip 5 virüslerine karşı oldukça etkili olduğu ortaya kondu.
Sonuç: Çalışma sonuçları yağ karışımının yara iyileşmesini hızlandırıcı etkisi olduğunu ve antiviral aktiviteye sahip olduğunu göstermiştir.
References
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- Aktaş B ve Basmacıoğlu-Malayoğlu H. Zeytinyağı işleme yan zeytin yaprağı ile zeytin karasuyunun antimikrobiyal ve antioksidan etkileri. Hayvansal Üretim. 2011; 52(1); 49-58.
- Elbossaty, W. Hypoglycemic Influence of Phytochemical Compounds of Medicinal Plants and their Mechanism Action. Health Science Journal. 2021; 15(3), 1-4.
- Kaseb AO, Chınnakannu K, Chen D, Sıvanandam A, Tejwanı S, Menon M, Dou QP, Reddy GP. Androgen receptor and E2F-1 targeted thymoquinone therapy forhormone-refractory prostate cancer. Cancer Res. 2007; 67: 7782-8.
- Ansary, J., Giampieri, F., Forbes-Hernandez, T. Y., Regolo, L., Quinzi, D., Gracia Villar, S., ... & Cianciosi, D. Nutritional value and preventive role of Nigella sativa L. and its main component thymoquinone in cancer: an evidenced-based review of preclinical and clinical studies. Molecules. 2021; 26(8), 2108.
- Kanter M, Coşkun Ö, Budancamanak M. Hepatoprotective Effects of Nigella Sativa L and Urtica Dioica L on Lipid Peroxidation, Antioxidant Enzyme Systems and Liver Enzymes in Carbon Tetrachloride-Treated Rats. World J Gastroenterol. 2005; 11:42, 6684-6688.
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- Bordoni, L., Fedeli, D., Nasuti, C., Maggi, F., Papa, F., Wabitsch, M., ... & Gabbianelli, R. Antioxidant and anti-inflammatory properties of Nigella sativa oil in human pre-adipocytes. Antioxidants. 2019; 8(2), 51.
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- Elnahas, R. A., Elwakil, B. H., Elshewemi, S. S., & Olama, Z. A. Egyptian Olea europaea leaves bioactive extract: Antibacterial and wound healing activity in normal and diabetic rats. Journal of traditional and complementary medicin. 2021; 11(5), 427-434.
- Koca U, Süntar I, Akkol EK, Yilmazer D, Alper M. Wound repair potential of Olea europaea L. leaf extracts revealed by in vivo experimental models and comparative evaluation of the extracts' antioxidant activity. J Med Food. 2010; 14(1-2):140-6.
- Sallehuddin, N., Nordin, A., Bt Hj Idrus, R., & Fauzi, M. B. Nigella sativa and its active compound, thymoquinone, accelerate wound healing in an in vivo animal model: a comprehensive review. International journal of environmental research and public health. 2020; 17(11), 4160.
- Yaman I, Durmus AS, Ceribasi S, Yaman M. Effects of Nigella sativa and silver sulfadiazine on burn wound healing in rats. Veterinarni Medicina. 2010; 55(12): 619–624
- Abu-Zinadah OA. Using Nigella sativa oil to treat and heal chemical induced wound of rabbit skin. JKAU. 2009; 21(2): 335-346
- Abu-Al-Basal MA. Healing potential of Rosmarinus officinalis L. on full-thickness excision cutaneous wounds in alloxan-induced-diabetic BALB/c mice. J Ethnopharmacol. 2010; 15;131(2):443-50.
- Badshah, S. L., Faisal, S., Muhammad, A., Poulson, B. G., Emwas, A. H., & Jaremko, M. Antiviral activities of flavonoids. Biomedicine & Pharmacotherapy. 2021; 140, 111596.
- Rafique, R., Khan, Z. U. D., Mumtaz, M., & Pervaiz, S. ANTVIRAL ACTIVITY OF OLEA EUROPAEA L. AGAINST FOOT AND MOUTH DISEASE VIRUS. Pakistan Journal of Science. 2021; 73(2).
- Lee-Huang S, Zhang L, Huang PL, Chang YT, Huang PL. Anti-HIV activity of olive leaf extract (OLE) and modulation of host cell gene expression by HIV-1 infection and OLE treatment. Biochem Biophys Res Commu. 2003; 307(4):1029-37.
- Micol V, Caturla N, Pérez-Fons L, Más V, Pérez L, Estepa A. The olive leaf extract exhibits antiviral activity against viral haemorrhagic septicaemia rhabdovirus (VHSV). Antiviral Res. 2005; 66(2-3):129-36.
- Yamada K ,Ogawa H, Hara A, Yoshida Y, Yonezawa Y, Karibe K, Nghia VB, Yoshimura H, Yamamoto Y, Yamada M, Nakamura K, Imai K. Mechanism of the antiviral effect of hydroxytyrosol on influenza virus appears to involve morphological change of the virus. Antiviral Res. 2009; 83(1):35-44.
- Shamim Molla, M., Azad, A. K., Al Hasib, M. A. A., Hossain, M. M., Ahammed, M. S., Rana, S., & Islam, M. T. A review on antiviral effects of Nigella sativa L. Pharmacology Online, Newsletter. 2019; 2, 47-53.
- Salem ML, Hossain MS. Protective effect of black seed oil from Nigella sativa against murine cytomegalovirus infection. Int J Immunopharmacol. 2000; 22(9):729-40.
- Zaher KS, Ahmed WM, Zerizer SN. Observations on the Biological Effects of Black Cumin Seed (Nigella sativa) and Green Tea (Camellia sinensis). Global Veterinaria. 2008; 2(4):198-204.
- Vijayan P, Raghu C, Ashok G, Dhanaraj SA, Suresh B. Antiviral activity of medicinal plants of Nilgiris. Indian J Med Res. 2004; 120(1):24-9.
- Minami M, Kita M, Nakaya T, Yamamoto T, Kuriyama H, Imanishi J. The inhibitory effect of essential oils on herpes simplex virus type-1 replication in vitro. Microbiol Immunol. 2003; 47(9):681-4.
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Antiviral Activity and Wound Healing Potential of a Traditionally Used Herbal Oil Blend
Year 2022,
, 616 - 623, 28.12.2022
Sevinç Yanar
,
Elvan Şahin
,
Burçin Asutay
,
Ahmet Özbek
,
Fikrettin Şahin
Abstract
Objective: Complementary and alternative medicine (CAM) has an increasing usage in the last decades throughout the world. Herbal medicine, the most preferred CAM, is used in the treatment of various disorders by approximately eighty percent of the world's population. In this study, it was aimed to determine the antiviral activity and wound healing potential of a special herbal oil blend prepared from Olea europaea, Nigella sativa and Rosmarinus officinalis that has been used for centuries in Middle and East Anatolia.
Materials and Methods: The nontoxic concentration of herbal blend was determined by MTS assay. This concentration was investigated for its wound healing potential using in vitro scratch assay. A scratch was made on cultured keratinocyte cell layer and the herbal blend was added to medium. Pictures of cells were taken at different time points. The antiviral activity was determined using Adenovirus type 5 and Poliovirus type 1. Virus titer was calculated by Spearman-Karber method.
Results: The nontoxic concentration of the blend was found to show statistically higher wound healing rate in compare to control group at the end of 12, 24 and 36 hours. According to antiviral efficacy test, four log of reduction in virus titer was seen, which meant that the mixture was quite effective against the viruses used in the study.
Conclusion: The study shows that the special herbal blend speed up wound healing rate and it also has antiviral activity.
References
- Keene, M. R., Heslop, I. M., Sabesan, S. S., & Glass, B. D. Complementary and alternative medicine use in cancer: A systematic review. Complementary therapies in clinical practice. 2019; 35, 33-47.
- Herman CJ, Allen P, Hunt WC, Prasad A, Brady TJ. Use of complementary therapies among primary care clinic patients with arthritis. Prev Chronic Dis. 2004; Oct; 1(4):A12.
- Luo, H., Vong, C. T., Chen, H., Gao, Y., Lyu, P., Qiu, L., ... & Wang, Y. Naturally occurring anti-cancer compounds: shining from Chinese herbal medicine. Chinese medicine. 2019; 14(1), 1-58.
- Wang, S., Long, S., Deng, Z., & Wu, W. Positive role of Chinese herbal medicine in cancer immune regulation. The American Journal of Chinese Medicine. 2020; 48(07), 1577-1592.
- Şarışen Ö, Çalışkan D. Fitoterapi; bitkilerle tedaviye dikkat. STED. 2005 14:182–187.
- Nicolì, F., Negro, C., Vergine, M., Aprile, A., Nutricati, E., Sabella, E., ... & De Bellis, L. Evaluation of phytochemical and antioxidant properties of 15 Italian Olea europaea L. cultivar leaves. Molecules. 2019; 24(10), 1998.
- Borges, A., José, H., Homem, V., & Simões, M. Comparison of Techniques and Solvents on the Antimicrobial and Antioxidant Potential of Extracts from Acacia dealbata and Olea europaea. Antibiotics. 2020; 9(2), 48.
- Aktaş B ve Basmacıoğlu-Malayoğlu H. Zeytinyağı işleme yan zeytin yaprağı ile zeytin karasuyunun antimikrobiyal ve antioksidan etkileri. Hayvansal Üretim. 2011; 52(1); 49-58.
- Elbossaty, W. Hypoglycemic Influence of Phytochemical Compounds of Medicinal Plants and their Mechanism Action. Health Science Journal. 2021; 15(3), 1-4.
- Kaseb AO, Chınnakannu K, Chen D, Sıvanandam A, Tejwanı S, Menon M, Dou QP, Reddy GP. Androgen receptor and E2F-1 targeted thymoquinone therapy forhormone-refractory prostate cancer. Cancer Res. 2007; 67: 7782-8.
- Ansary, J., Giampieri, F., Forbes-Hernandez, T. Y., Regolo, L., Quinzi, D., Gracia Villar, S., ... & Cianciosi, D. Nutritional value and preventive role of Nigella sativa L. and its main component thymoquinone in cancer: an evidenced-based review of preclinical and clinical studies. Molecules. 2021; 26(8), 2108.
- Kanter M, Coşkun Ö, Budancamanak M. Hepatoprotective Effects of Nigella Sativa L and Urtica Dioica L on Lipid Peroxidation, Antioxidant Enzyme Systems and Liver Enzymes in Carbon Tetrachloride-Treated Rats. World J Gastroenterol. 2005; 11:42, 6684-6688.
- Halawanı E. Antibacterial acativity of thymoquinone and thymohydroquinone of Nigella sativa L. and their ınteraction with some antibiotics. Advances in Biological Research. 2009; 3(5-6): 148-152.
- Abdel-Fattah AFM, Matsumoto K, Watanabe H. Antinociceptive effects of Nigella sativa oil and its major component, thymoquinone in mice. Eur J Pharmacol. 2000; 400: 89-97
- Bordoni, L., Fedeli, D., Nasuti, C., Maggi, F., Papa, F., Wabitsch, M., ... & Gabbianelli, R. Antioxidant and anti-inflammatory properties of Nigella sativa oil in human pre-adipocytes. Antioxidants. 2019; 8(2), 51.
- Akhtar, M. T., Siddique, A. B., Sultana, N., Irfan, M. I., Qadir, R., Saleem, S., ... & Saadia, M. Hypoglycemic Potential of Combined Methanolic Extract of Seeds of Nigella sativa (Black Cumin) and Cicer Arietinum (Chickpea). Pakistan Journal of Biochemistry and Biotechnology. 2021; 2(2), 261-285.
- Salem ML. Immunomodulatory and immunotherapeutic properties of the Nigella sativa L. seed. Int Immunopharmacol. 2005; 5(13-14): 1749-1770
- Nieto, G., Ros, G., & Castillo, J. Antioxidant and antimicrobial properties of rosemary (Rosmarinus officinalis, L.): A review. Medicines. 2018; 5(3), 98.
- Allegra, A., Tonacci, A., Pioggia, G., Musolino, C., & Gangemi, S. Anticancer activity of Rosmarinus officinalis L.: mechanisms of action and therapeutic potentials. Nutrients. 2020; 12(6), 1739.
- Hamilton MA, Russo RC, Thurston RV. Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays. Environ Sci Technol. 1977; 11(7):714–719
- Gurtner, G. C., Werner, S., Barrandon, Y., & Longaker, M. T.Wound repair and regeneration. Nature. 2008; 453(7193), 314-321.
- Hajialyani, M., Tewari, D., Sobarzo-Sanchez, E., Nabavi, S. M., Farzaei, M. H., & Abdollahi, M. Natural product-based nanomedicines for wound healing purposes: therapeutic targets and drug delivery systems. International journal of nanomedicine. 2018; 13, 5023.
- Elnahas, R. A., Elwakil, B. H., Elshewemi, S. S., & Olama, Z. A. Egyptian Olea europaea leaves bioactive extract: Antibacterial and wound healing activity in normal and diabetic rats. Journal of traditional and complementary medicin. 2021; 11(5), 427-434.
- Koca U, Süntar I, Akkol EK, Yilmazer D, Alper M. Wound repair potential of Olea europaea L. leaf extracts revealed by in vivo experimental models and comparative evaluation of the extracts' antioxidant activity. J Med Food. 2010; 14(1-2):140-6.
- Sallehuddin, N., Nordin, A., Bt Hj Idrus, R., & Fauzi, M. B. Nigella sativa and its active compound, thymoquinone, accelerate wound healing in an in vivo animal model: a comprehensive review. International journal of environmental research and public health. 2020; 17(11), 4160.
- Yaman I, Durmus AS, Ceribasi S, Yaman M. Effects of Nigella sativa and silver sulfadiazine on burn wound healing in rats. Veterinarni Medicina. 2010; 55(12): 619–624
- Abu-Zinadah OA. Using Nigella sativa oil to treat and heal chemical induced wound of rabbit skin. JKAU. 2009; 21(2): 335-346
- Abu-Al-Basal MA. Healing potential of Rosmarinus officinalis L. on full-thickness excision cutaneous wounds in alloxan-induced-diabetic BALB/c mice. J Ethnopharmacol. 2010; 15;131(2):443-50.
- Badshah, S. L., Faisal, S., Muhammad, A., Poulson, B. G., Emwas, A. H., & Jaremko, M. Antiviral activities of flavonoids. Biomedicine & Pharmacotherapy. 2021; 140, 111596.
- Rafique, R., Khan, Z. U. D., Mumtaz, M., & Pervaiz, S. ANTVIRAL ACTIVITY OF OLEA EUROPAEA L. AGAINST FOOT AND MOUTH DISEASE VIRUS. Pakistan Journal of Science. 2021; 73(2).
- Lee-Huang S, Zhang L, Huang PL, Chang YT, Huang PL. Anti-HIV activity of olive leaf extract (OLE) and modulation of host cell gene expression by HIV-1 infection and OLE treatment. Biochem Biophys Res Commu. 2003; 307(4):1029-37.
- Micol V, Caturla N, Pérez-Fons L, Más V, Pérez L, Estepa A. The olive leaf extract exhibits antiviral activity against viral haemorrhagic septicaemia rhabdovirus (VHSV). Antiviral Res. 2005; 66(2-3):129-36.
- Yamada K ,Ogawa H, Hara A, Yoshida Y, Yonezawa Y, Karibe K, Nghia VB, Yoshimura H, Yamamoto Y, Yamada M, Nakamura K, Imai K. Mechanism of the antiviral effect of hydroxytyrosol on influenza virus appears to involve morphological change of the virus. Antiviral Res. 2009; 83(1):35-44.
- Shamim Molla, M., Azad, A. K., Al Hasib, M. A. A., Hossain, M. M., Ahammed, M. S., Rana, S., & Islam, M. T. A review on antiviral effects of Nigella sativa L. Pharmacology Online, Newsletter. 2019; 2, 47-53.
- Salem ML, Hossain MS. Protective effect of black seed oil from Nigella sativa against murine cytomegalovirus infection. Int J Immunopharmacol. 2000; 22(9):729-40.
- Zaher KS, Ahmed WM, Zerizer SN. Observations on the Biological Effects of Black Cumin Seed (Nigella sativa) and Green Tea (Camellia sinensis). Global Veterinaria. 2008; 2(4):198-204.
- Vijayan P, Raghu C, Ashok G, Dhanaraj SA, Suresh B. Antiviral activity of medicinal plants of Nilgiris. Indian J Med Res. 2004; 120(1):24-9.
- Minami M, Kita M, Nakaya T, Yamamoto T, Kuriyama H, Imanishi J. The inhibitory effect of essential oils on herpes simplex virus type-1 replication in vitro. Microbiol Immunol. 2003; 47(9):681-4.
- Sasikumar B. Rosemary: Hand Book of Herbs and Spices Volume: 2. 2004; Peter KV, Woodhead Publishing Limited, Cambridge, England, pp: 243–255.